diff --git "a/PMC_clustering_414.jsonl" "b/PMC_clustering_414.jsonl" new file mode 100644--- /dev/null +++ "b/PMC_clustering_414.jsonl" @@ -0,0 +1,1105 @@ +{"text": "The correct spelling is: Maralyn Foureur. The correct citation is: 1. Asefa F, Cummins A, Dessie Y, Foureur M, Hayen A (2020) Midwives\u2019 and obstetricians\u2019 perspectives about pregnancy related weight management in Ethiopia: A qualitative study. PLoS ONE 15(12): e0244221."} +{"text": "The Pan African Medical Journal. 2018;30:266. doi:10.11604/pamj.2018.30.266.13209.Ce Corrigendum modifie l'article original Dans l'article original archiv\u00e9 sur Pubmed, le nom de l'auteur Abdelkader Jalil El Hangouche est archiv\u00e9 Hangouche AJE au lieu de El Hangouche AJ ."} +{"text": "Genes [The authors wish to make the following correction to their paper published in Genes :In the original article, the supplementary materials on page 14 were mistakenly listed as follows:Supplementary Materials: The following are available online at http://www.mdpi.com/2073-4425/10/2/74/s1, Supplementary File 1: Table S1. Full lists of DEGs; Table S2. L6_HR_DAVID; Table S3. Viral read counts; Table S4. Differentially expressed viral genes; Table S5. L7_HR_DAVID; Table S6. MDV QTL candidates; Table S7. MDV QTL data; Table S8. Genes only expressed in L6; Table S9. Genes only expressed in L7. Supplementary File 2: Figure S1. MAC_inherent_pathways; Figure S2. MAC_inherent_biofunctions.This should be replaced with:Supplementary Materials: The following are available online at http://www.mdpi.com/2073-4425/10/2/74/s1, Supplementary File 1: Table S1. MDV QTL data; Table S2. Full lists of DEGs; Table S3. Viral read counts; Table S4. Differentially expressed viral genes; Table S5. L6_HR_DAVID; Table S6. L7_HR_DAVID; Table S7. Genes only expressed in L6; Table S8. Genes only expressed in L7; Table S9. MDV QTL candidates. Supplementary File 2: Figure S1. MAC_inherent_pathways; Figure S2. MAC_inherent_biofunctions.https://www.mdpi.com/2073-4425/10/2/74.The authors apologize for any inconvenience caused and the change does not affect the scientific results. The manuscript will be updated, and the original will remain online on the article webpage at"} +{"text": "Scientific Reports 10.1038/s41598-020-59286-8, published online 12 February 2020Correction to: This Article contains a typographical error in Table 2 in the Parameter column where,Portal vein enlargement(diameter \u22651.2\u2009cm)should read:Portal vein enlargement(diameter \u22651.5\u2009cm)"} +{"text": "Anthuroidea is presented, based on previous taxonomic or ecological literature and recent collections. The present study, a part of the subproject on the Biodiversity of Sultan Iskandar Marine Park, recognised 24 species in 12 genera and 5 families from Peninsular Malaysia. An extensive list of bibliographical references, detailed information on habitat and distributional records, museum locations of type material are provided for each species. Amongst the listed species, 11 are recently discovered Malaysian species belonging to the genera Amakusanthura Nunomura, 1977, Apanthura Stebbing, 1900, Expanathura W\u00e4gele, 1981, Leptanthura G. O. Sars, 1897, Kupellonura Barnard, 1925, Pendanthura Menzies & Glynn, 1968 and Tinggianthura Chew, Rahim & bin Haji Ross, 2014. Our records were limited to shallow subtidal reefs of peninsular Malaysian coast, suggesting that the number of species in the list may rise with an extensive survey.An up-to-date checklist of the Peninsular Malaysian marine Anthuroidea of the Peninsular Malaysia comprises 24 species in 12 genera and 5 families, including some new distributional data.The up-to-date checklist of marine Isopoda is one of the most successful and rapidly evolving malacostracan orders, displaying a tremendous diversity in marine, terrestrial and continental waters. Although isopods have colonised almost every niche and are the most important group in terms of specific diversity, they have been largely ignored in studies dealing with conservation strategies. According to Tropical reefs are known to support enormous biodiversity and portray a high priority for conservation action amongst marine ecosystems . A fauna6\u00b021'56.05\"N, 99\u00b040'31.13\"E), Pulau Payar , Pulau Pangkor and Port Dickson . The following collection localities were from the east coast of MP: Pulau Perhentian , Pulau Tioman , Pulau Seri Buat , Pulau Aur , Pulau Dayang and Pulau Tinggi ; amongst coral rubble. Littoral 0.5 to 15 m depth (present study)In fine sand to medium sand from around \u2018; eventRemarks: C. Melvin; Record Level: collectionCode: UKMMZ-1571HONG KONG\u2015Tolo Channel , Conic Island Cave. MALAYSIA\u2015Pahang State: Pulau Tioman (new record).Fig. M\u00fcller, 199290B7893E-BE01-5EAE-A2FF-59F056823BC0http://www.marinespecies.org/aphia.php?p=taxdetails&id=255383ApanthurabruscaiType status:Holotype. Location: island: Pulau Babi Besar; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b050.483', E104\u00b09.566'; Event: habitat: Fringing-reef and reef-flat under coral rocks mainly covered with coralline algae, intertidal (M\u00fcller 1992a); Record Level: modified: male, 3.4 mm; datasetID: ZMB 26953Only known from type locality .This species record is based on literature only. No specimen was collected during the present study.Negoescu, 19971717BC2B-3042-50A1-850A-4EC97FD0B98Chttp://www.marinespecies.org/aphia.php?p=taxdetails&id=255402MF680510ApanthurapariensisType status:Other material. Location: island: Pulau Pangkor; country: Malaysia; stateProvince: Perak; verbatimCoordinates: N4\u00b011'22.32\", E100\u00b032'50.22\"; Event: eventDate: 15 Apr 2014; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1583; UKMMZ-1584; UKMMZ-1585Type status:Other material. Location: island: Pulau Langkawi; country: Malaysia; stateProvince: Kedah; verbatimCoordinates: N6\u00b021'56.05\" E99\u00b040'31.13\"; Event: eventDate: 4 Nov 2013; habitat: Intertidal, amongst coral rubble; Record Level: collectionCode: UKMMZ-1586Type status:Other material. Location: island: Pulau Langkawi; country: Malaysia; stateProvince: Kedah; verbatimCoordinates: N6\u00b021'56.05\" E99\u00b040'31.13\"; Event: eventDate: 8 Mac 2015; habitat: Intertidal, amongst coral rubble; Record Level: collectionCode: UKMMZ-1587INDONESIA\u2015Pari Island, Java Sea . MALAYSIA\u2015Perak State: Pulau Pangkor (new record).\u2015Kedah State: Pulau Langkawi (new record).Fig. 6D116825-BF79-58DD-A5B2-6C9FFB7E06AFhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=255410MF680509AmakusanthurastockiApanthurastockiType status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Mentinggi, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b016'21.67\", E104\u00b07'18.61\"; Event: eventDate: 19 April 2013; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1576Type status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b06'1.97\"; Event: eventDate: 18 Dec 2012; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1577Type status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622', E104\u00b005.616'; Event: eventDate: 18 Apr 2013; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1578Type status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Pulau Seri Buat; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b041'13.59\", E103\u00b055'25.99\"; Event: eventDate: 19 Apr 2014; habitat: Littoral 0.5 to 7 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1579Type status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b06'1.97\"; Event: eventDate: 15 Jun 2015; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1580Type status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Pulau Dayang; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b028'40.90\", E104\u00b030'19.12\"; Event: eventDate: 26 Jul 2016; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1581Type status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Pulau Aur; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b028'17.24\", E104\u00b030'53.14\"; Event: eventDate: 26 Jul 2016; habitat: Littoral 0.5 to 3 m depth, amongst coral rubble ; Record Level: collectionCode: UKMMZ-1582SRI LANKA\u2015Indian Ocean ; MALAYSIA\u2015Johor State: Pulau Besar; Pulau Tinggi; Pulau Seri Buat (new record).Fig. M\u00fcller, 199248B4900A-914E-5D55-8559-2B11DD147ABFhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=255413ApanthuratiomanaeType status:Other material. Occurrence: recordedBy: C. Melvin; Location: island: Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b0 6'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1572MALAYSIA\u2015Pahang State: Pulau Tioman .Fig. M\u00fcller, 1991A1DC35BE-90E0-5F31-897B-C41D039A2F67http://www.marinespecies.org/aphia.php?p=taxdetails&id=255423CyathurabentotaeType status:Holotype. Event: habitat: Fringing-reef and sabellid reef; dead coral substratum, 1 to 3 m depth; Record Level: collectionCode: ZMB 26953; 1 cr (ZMB 26956)SRI LANKA\u2015Indian Ocean ; MALAYSIA\u2015Pahang State: Pulau Tioman.This species record is based on literature only. No specimen was collected during the present study.Barnard, 1925D8243EE3-31A8-5BF4-8F3E-CE91F61E8334http://www.marinespecies.org/aphia.php?p=taxdetails&id=258320MesanthuraalbolineataType status:Holotype. Location: country: Singapore; Event: habitat: Acropora sp. and Pocilloporadamicornis .Fringing reef, outer reef-flat, reef-margin and upper coral-slope; dead coral substratum, ; Record Level: collectionCode: ZMB 26938SINGAPORE\u2015; MALAYSIA\u2015Johor State: Pulau Babi Besar.This species record is based on literature only. No specimen was collected during the present study.M\u00fcller, 1993C91FB4BC-D900-5EF9-A294-F49DAD7B2F93http://www.marinespecies.org/aphia.php?p=taxdetails&id=258321Mesanthuraasiatica : 20\u201325, figs. 1\u201325.Type status:Holotype. Event: habitat: Acropora sp. and Pocilloporadamicornis Fringing reef, outer reef-flat, reef-margin and upper coral-slope; dead coral substratum, ; Record Level: collectionCode: ZMB 26939a.Type status:Paratype. Record Level: collectionCode: ZMB 26939bType status:Other material. Location: island: Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b06'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1588; UKMMZ-1589; UKMMZ-1590Type status:Other material. Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b06'1.97\"; Event: eventDate: 16 Jun 2015; habitat: Amongst coral rubble, littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1591MALAYSIA\u2015Johor State: Pulau Babi Besar ; Pulau Tinggi (new record);\u2015Pahang State: Pulau Tioman (new record).Fig. M\u00fcller, 199362D3AD96-641F-5D52-A376-92B6FA074481http://www.marinespecies.org/aphia.php?p=taxdetails&id=258340MesanthurakilianiType status:Holotype. Location: island: Pulau Tioman; country: Malaysia; Event: habitat: Acropora sp. and PocilloporadamicornisFringing reef, outer reef-flat, reef-margin and upper coral-slope; dead coral substratum, ; Record Level: collectionCode: ZMB 26940aType status:Paratype. Location: island: Pulau Tioman; country: Malaysia; Event: habitat: Acropora sp. and PocilloporadamicornisFringing reef, outer reef-flat, reef-margin and upper coral-slope; dead coral substratum, ; Record Level: collectionCode: ZMB 26940b.MALAYSIA\u2015Pahang State: Pulau Tioman;\u2015Johor State: Pulau Babi Besar.This species record is based on literature only. No specimen was collected during the present study.Kensley, 1980A525220C-59DC-51C9-9B6F-BB52C2E29BBChttp://www.marinespecies.org/aphia.php?p=taxdetails&id=211377MesanthuraproteiType status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b0 6'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: institutionCode: UKMMZ-1592; UKMMZ-1593MOZAMBIQUE\u2015South of Inhambane ; MADAGASCAR\u2015Abrolhos Islands; THAILAND\u2015Ko-Sichang; KENYA; MALAYSIA\u2015Johor State: Pulau Babi Besar;\u2015Pahang State: Pulau Tioman, (new record).Fig. Kensley & Schotte, 200068F3E9AF-BF62-5C43-A90F-7D82386902EBhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=211379MesanthuraquadrataType status:Other material. Location: island: Pulau Seri Buat; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b041'13.59\", E103\u00b055'25.99\"; Event: eventDate: 19 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1594, UKMMZ-1595Type status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b06'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1596Type status:Other material. Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b06'1.97\"; Event: eventDate: 15 June 2015; habitat: Amongst coral rubble, littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1597Type status:Other material. Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622', E104\u00b005.616'; Event: eventDate: 15 June 2015; habitat: Amongst coral rubble, littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1598Type status:Other material. Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b06'1.97\"; Event: eventDate: 13 Oct 2012; habitat: Assoc. artificial substrate unit at 3 m depth; Record Level: collectionCode: (29 juveniles) UKMMZ-1599Type status:Other material. Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622', E104\u00b005.616'; Event: eventDate: 18 April 2013; habitat: Amongst coral rubble, littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1560SEYCHELLES\u2015Mah\u00e9 beach, Mah\u00e9 Island ; MALAYSIA\u2015Pahang State: Pulau Seri Buat, (new record); Pulau Tioman, (new record);\u2015Johor State: Pulau Tinggi, (new record).Fig. Chew, bin Abdul Rahim & Mohd Yusof, 201608F7B939-508A-539F-9E42-66584690E57Chttp://www.marinespecies.org/aphia.php?p=taxdetails&id=882015MF680512PendanthuratinggiensisType status:Other material. Location: island: Mentinggi, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b016'21.67\", E104\u00b0 7'18.61\"; Event: eventDate: 19 April 2013; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1541; UKMMZ-1542; UKMMZ-1543; UKMMZ-1544; ZRC 2016.0013; ZRC 2016.0014Type status:Other material. Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'35.08\", E104\u00b0 6'7.13\"; Event: eventDate: 16 Aug 2012; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1544Type status:Other material. Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622', E104\u00b0 05.616'; Event: eventDate: 18 April 2013; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1545Type status:Other material. Location: island: Kg Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'35.08\", E104\u00b0 6'7.13\"; Event: eventDate: 15 June 2015; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1546Type status:Other material. Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622', E104\u00b0 05.616'; Event: eventDate: 15 June 2015; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1621Only known from type locality Chew, bin Abdul Rahim & Mohd Yusof, 2016DF907F7D-6A68-5B81-A3B9-B35B00D74847http://www.marinespecies.org/aphia.php?p=taxdetails&id=882016PendanthuratiomanensisType status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b0 6'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble. Littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1547; UKMMZ-1549; ZRC 2016.0015Only known from type locality Chew, bin Abdul Rahim & bin Haji Ross, 201462B3AE2C-BF38-5B25-B68D-2B7A33B78618http://www.marinespecies.org/aphia.php?p=taxdetails&id=1054956TinggianthuraalbaType status:Paratype. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'35.08\", E104\u00b0 6'7.13\"; Event: eventDate: 16 August 2012; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1481; UKMMZ-1482; UKMMZ-1483Type status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'35.08\", E104\u00b0 6'7.13\"; Event: eventDate: 18 Dec 2012; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1622Type status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'35.08\", E104\u00b0 6'7.13\"; Event: eventDate: 28 Feb 2013; habitat: Amongst coral rubble. Littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1623Only known from type locality M\u00fcller 19921C60CB7B-7966-5A03-8094-CC89A0E23536http://www.marinespecies.org/aphia.php?p=taxdetails&id=255500EisothistosbesarType status:Holotype. Location: island: Pulau Babi Besar; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b050.483', E104\u00b09.566'; Event: habitat: Acropora sp. and PocilloporadamicornisFringing reef, outer reef-flat, reef-margin and upper coral-slope; dead coral substratum, ; Record Level: collectionCode: MHNG.Only known from type locality This species record is based on literature only. No specimen was collected during the present study.Chew, bin Abdul Rahim & binti Mohd Yusof, 2018E19DF907-90D4-5E2B-BE2F-052703486B5Fhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=1056465EisothistostiomanensisType status:Other material. Location: island: Labas, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b053'13.71\", E104\u00b0 3'54.65\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble. Littoral 0.5 to 15 m depth; Record Level: collectionCode: UKMMZ-1559Only known from type locality .301CB3BA-E0F8-5CB3-94D1-2A3C59E4CE8Dhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=260392MF680511PanathuracollarisExpanathuracollarisType status:Other material. Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622\u2019, E104\u00b0 5.616\u2019; Event: eventDate: 16 May 2013; habitat: Amongst coral rubble, littoral 0.5 to 3 m; Record Level: collectionCode: UKMMZ-1565; UKMMZ-1566; UKMMZ-1567Type status:Other material. Location: island: Mentinggi, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b016\u201921.67\", E104\u00b0 7\u201918.61\"; Event: eventDate: 19 April 2013; habitat: Amongst coral rubble, littoral 0.5 to 3 m; Record Level: collectionCode: UKMMZ-1568Type status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054\u201915.44\", E104\u00b0 6\u20191.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m; Record Level: collectionCode: UKMMZ-1569Type status:Other material. Location: island: Labas, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b053\u201913.71\", E104\u00b03\u201954.65\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 15 m; Record Level: collectionCode: UKMMZ-1570Type status:Other material. Location: island: Pantai Kok, Pulau Langkawi; country: Malaysia; stateProvince: Kedah; verbatimCoordinates: N6\u00b021\u201956.05\", E99\u00b040\u201931.13\"; Event: habitat: Intertidal coral rubble; Record Level: collectionCode: UKMMZ-1625Type status:Other material. Location: island: Batu Bonchek, Pulau Dayang; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b028\u201940.90\", E104\u00b0 30\u201919.12\"; Event: eventDate: 26 July 2016; habitat: Amongst coral rubble, littoral 0.5 to 3 m; Record Level: collectionCode: UKMMZ-1568FIJI ; COOK ISLAND; MOOREA\u2015Chesterfield and Melish Reefs, Coral Sea; LORD HOWE ISLAND\u2015Tasman Sea; PAPUA NEW GUINEA; AUSTRALIA\u2015Northern Territory, Queensland; MALAYSIA\u2015Pulau Dayang, Pulau Tinggi, (New record); Pulau Tioman, Malaysia (New record); Pulau Langkawi (New record).Fig. Poore & Lew Ton, 198869F151D3-EB7F-5E87-A197-7ABCEC315E74http://www.marinespecies.org/aphia.php?p=taxdetails&id=255527KupellonuragidgeeType status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b0 6'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1602AUSTRALIA\u2015Lizard Island ; MALAYSIA\u2015Pulau Tioman (new record).Fig. E97A59EE-122C-5D8D-B6CC-368918E7A019http://www.marinespecies.org/aphia.php?p=taxdetails&id=258455KatanthurabarnardiAccalathurabarnardiType status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b0 6'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1603; UKMMZ-1604; UKMMZ-1605Type status:Other material. Location: island: Labas, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b053'13.71\", E104\u00b0 3'54.65\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 15 m depth; Record Level: collectionCode: UKMMZ-1606Type status:Other material. Location: island: Pulau Seri Buat; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b041'13.59\", E103\u00b0 55'25.99\"; Event: eventDate: 19 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 7 m depth; Record Level: collectionCode: UKMMZ-1607Type status:Other material. Location: island: Batu Bonchek, Pulau Dayang; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b028'40.90\", E104\u00b0 30'19.12\"; Event: eventDate: 26 July 2016; habitat: Amongst coral rubble, littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1608Type status:Other material. Location: island: Teluk Rha, Pulau Aur; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b028'17.24\", E104\u00b0 30'53.14\"; Event: eventDate: 27 July 2016; habitat: Amongst coral rubble, littoral 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1609INDONESIA\u2015Solo Strait, Java Sea ; MALAYSIA\u2015Pulau Tioman; Pulau Seri Buat (new record).Fig. 784B7E0C-E030-598C-942E-6D89B075715Dhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=258457MF680508CalathuraborradaileiAccalathuraborradaileiType status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b0 6'1.97\"; Event: eventDate: 28 February 2013; habitat: coral rubble, intertidal; Record Level: collectionCode: UKMMZ-1610; UKMMZ-1611; UKMMZ-1612Type status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b0 6'1.97\"; Event: eventDate: 18 December 2012; habitat: coral rubble, intertidal; Record Level: collectionCode: UKMMZ-1613Type status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b06'1.97\"; Event: eventDate: 15 June 2015; habitat: coral rubble, intertidal; Record Level: collectionCode: UKMMZ-1614Type status:Other material. Location: island: Sebirah Kechil, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b018.622', E104\u00b0 05.616'; Event: eventDate: 15 June 2015; habitat: coral rubble, intertidal; Record Level: collectionCode: UKMMZ-1615Type status:Other material. Location: island: Batu Bonchel, Pulau Dayang; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b028'40.90\", E104\u00b0 30'19.12\"; Event: eventDate: 26 July 2015; habitat: coral rubble, 0.5 to 3 m depth; Record Level: collectionCode: UKMMZ-1616MALDIVES\u2015Fadifolu ; THAILAND; INDIA\u2015Chilka Lake; Kollam; MALAYSIA\u2015Pulau Dayang, Pulau Tinggi (new record).Fig. M\u00fcller, 1992AF83FC82-276E-54E6-A13F-60CB2DAE714Ahttp://www.marinespecies.org/aphia.php?p=taxdetails&id=255547LeptanthuracoralliophilaType status:Other material. Location: island: Pulau Seri Buat; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b041'13.59\", E103\u00b055'25.99\"; Event: eventDate: 19 April 2014; habitat: Amongst coral rubble, intertidal to 7 m depth; Record Level: collectionCode: UKMMZ-1617; UKMMZ-1618MALAYSIA\u2015Pulau Babi Besar ; Pulau Seri Buat.Fig. Kensley, 19795C575653-D82F-5FF2-B70B-B83DF055C22Dhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=255571ParanthuraastrolabiumType status:Other material. Location: island: Batu Malang, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b054'15.44\", E104\u00b0 6'1.08\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, intertidal to 7 m; Record Level: collectionCode: UKMMZ-1619; UKMMZ-1621Type status:Other material. Location: island: Pulau Seri Buat; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b041'13.59\", E103\u00b055'25.99\"; Event: eventDate: 19 April 2014; habitat: Amongst coral rubble, intertidal to 7 m; Record Level: collectionCode: UKMMZ-1622FIJI\u2015Great Astrolabe Barrier Reef ; Suva Reef; MALAYSIA\u2015Pulau Tioman, Malaysia; Pulau Seri Buat (new record).Fig. Negoescu, 19973282B05D-7D7F-5C46-B4E7-00DDFA5AFFD7http://www.marinespecies.org/aphia.php?p=taxdetails&id=255615ParanthurasetigeraType status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E 104\u00b0 6'1.97\"; Event: eventDate: 18 December 2012; habitat: coral rubble, intertidal; Record Level: collectionCode: UKMMZ-1623; UKMMZ-1624; UKMMZ-1625Type status:Other material. Location: island: Kampung Pasir Panjang, Pulau Tinggi; country: Malaysia; stateProvince: Johor; verbatimCoordinates: N2\u00b017'37.96\", E104\u00b0 6'1.97\"; Event: eventDate: 28 Feb 2013; habitat: coral rubble, intertidal; Record Level: collectionCode: UKMMZ-1626INDONESIA\u2015Southeast Bali Island, Sanur beach, Bali Island ; MALAYSIA\u2015Pulau Tinggi (new record).Fig. Kensley & Schotte, 2000A15F5BC0-FD4C-5880-BEFB-5FED3C68858Dhttp://www.marinespecies.org/aphia.php?p=taxdetails&id=211339ParanthuraseychellensisType status:Holotype. Location: island: Labas, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b053'13.71\", E104\u00b0 3'54.65\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 15 m depth; Record Level: collectionCode: UKMMZ-1627; UKMMZ-1628; UKMMZ-1629Type status:Holotype. Location: island: Labas, Pulau Tioman; country: Malaysia; stateProvince: Pahang; verbatimCoordinates: N2\u00b053'13.71\", E104\u00b0 3'54.65\"; Event: eventDate: 18 April 2014; habitat: Amongst coral rubble, littoral 0.5 to 15 m depth; Record Level: collectionCode: UKMMZ-1630SEYCHELLES\u2015Mah\u00e9 Beach Mah\u00e9 Island ; MALAYSIA\u2015Pulau Tioman (new record).Fig. Anthuroidea are known from the Malaysian Peninsular, comprising 12 genera and 24 species. Of these, 10 species are recently discovered Malaysian species and they contribute about 1.5% of all known Anthuroidea of the world. Clearly, this number is only a fraction of their true diversity, given that habitats like shallow reefs, seagrasses and mangroves have not received much taxonomic attention. More species are yet to be discovered, especially after exploring inaccessible habitats, revealing of cryptic species using molecular methods and exploring east Malaysian (Sabah and Sarawak) waters. The latter is a region of high known marine biodiversity.Currently five families of the marine Anthuridae species with 58.3% in the Malaysian region and 45.8% in the Indian Ocean region. It is followed by a small number of Leptanthuridae , Paranthuridae , Expanathuridae and Hyssuridae . Having highlighted the similarity, a minor but crucial difference was also noticed, particularly on the occurrence of Antheluridae species in the Indian Ocean. According to Antheluridae species are restricted to deep-water, cool-temperate or polar regions. Although several species are found to inhabit the warmer and shallower seas, particularly the eight species of Anthomuda Schultz, 1979, they are mostly captured from the Indian Ocean (Anthuridae (17 species), can be attributed to the fact that the family is the largest and most widespread (Apanthura and Mesanthura, are recorded with the highest species diversity amongst the Malaysian anthuroid fauna. On the other hand, there is no record of any Antheluridae species occurring in the Malaysian region, most probably due to the fact that they are rare in the warmer seas (The anthuroids of Peninsular Malaysia are similarly taxonomically represented as the adjacent thoroughly studied Indian Ocean region by an Ocean . The higdespread . Some ofmer seas .Eisothistos species are rare and, if reported, they have usually been collected from breaking open serpulid tubes (Amakusanthurakoonyumae, a species previously known to inhabit sandy substratum (Currently, all known Malaysian anthuroids are found to be associated with coral rubble. Other habitats, such as sandy and muddy sediments and algal beds, have not been sampled. Due to the fact that they are very well represented in the high spatial complexity coral rubble , coral rid tubes . Moreovebstratum , is now"} +{"text": "Correction to: Basic Clin Androlhttps://doi.org/10.1186/s12610-018-0076-0Following publication of the original article , the autFanny (Given name) Jumeau (Family name)Julien (Given name) Sigala (Family name)Francisco-Jose (Given name) Fernandez-Gomez (Family name)Sabiha (Given name) Eddarkaoui (Family name)Sophie (Given name) Duban-Deweer (Family name)Luc (Given name) Bu\u00e9e (Family name)H\u00e9l\u00e8ne (Given name) B\u00e9hal (Family name)Nicolas (Given name) Sergeant (Family name)Val\u00e9rie (Given name) Mitchell (Family name)"} +{"text": "This article has been corrected: Due to errors in image selection, the pictures of H1299 cell morphology treated with recombinant TGF-\u03b2 and TGF-\u03b2 receptor inhibitor in 99801-99815. https://doi.org/10.18632/oncotarget.21068Original article: Oncotarget. 2017; 8:99801\u201399815."} +{"text": "There are errors in the Author Contributions. The publisher apologizes for the errors. The correct contributions are:Conceptualization: Stefania Titton, Deborah BarskyData curation: Stefania Titton, Deborah Barsky, Am\u00e8lia Bargall\u00f3Formal analysis: Stefania Titton, Alexia Serrano-RamosFunding acquisition: Juan Manuel Jimenez ArenasInvestigation: Stefania Titton, Deborah Barsky, Josep Maria Verg\u00e8s, Jos\u00e9 Garc\u00eda SolanoMethodology: Stefania TittonProject administration: Isidro Toro-Moyano, Robert Sala-Ramos, Juan Manuel Jimenez ArenasResources: Isidro Toro-MoyanoSoftware: Alexia Serrano-RamosSupervision: Deborah Barsky, Am\u00e8lia Bargall\u00f3Visualization: Stefania TittonWriting\u2014original draft: Stefania TittonWriting\u2014review & editing: Deborah Barsky, Am\u00e8lia Bargall\u00f3, Juan Manuel Jimenez Arenas"} +{"text": "Correction to: BMC Infect Dis (2020) 20:603https://doi.org/10.1186/s12879-020-05271-5After publication of the original article , the autThe incorrect author name is:Stefanie von Felten \u22c4 given name: von Felten; family name: StefanieMirjam Faes Hesse \u22c4 given name: Mirjam Faes; family name: HesseThe correct author name is:Stefanie von Felten \u22c4 given name: Stefanie; family name: von FeltenMirjam Faes Hesse \u22c4 given name: Mirjam; family name: Faes HesseThe original article has been corrected."} +{"text": "Correction to: Trials (2020) 21:80https://doi.org/10.1186/s13063-019-3965-4Original name spelling:Charlotte Fl\u00fcheCorrect name spelling:Charlotte Fl\u00fchAfter publication of our article the authThe original article has been corrected."} +{"text": "Scientific Reports 10.1038/srep37783, published online 25 November 2016Correction to: This Article contains a typographical error in Equation 1.should read:"} +{"text": "Scientific Reportshttps://doi.org/10.1038/s41598-019-43716-3, published online 16 May 2019.Correction to: This Article contains a typographical error in the Acknowledgements section.\u201cNatural Environmental Research Council grant number [NE/L002531/1]\u201dshould read:\u201cNatural Environment Research Council: NE/N012070/1\u201d."} +{"text": "Chaetodon lunulatus) that avoids gill monogenean parasites while living amongst closely related parasitized species. The metabolome and microbiome of several sympatric butterflyfish species from the island of Moorea (French Polynesia) were previously described. In this study, we used the previously generated datasets in an attempt to identify metabolites and bacteria potentially involved in parasite defense mechanisms. We investigated the interplay between the gill mucus metabolome and microbiome of the non-susceptible C. lunulatus versus sympatric butterflyfish species that were always found parasitized in the Central and Eastern Indo-Pacific. After observing significant differences between the metabolome and bacteria of susceptible versus non-susceptible fish, we obtained the discriminant metabolites and operational taxonomic units (OTUs) using a supervised analysis. Some of the most important discriminant metabolites were identified as peptides, and three new peptides derived from \u03b2-subunit hemoglobin from C. lunulatus were purified, characterized and synthesized to confirm their structures. We also identified specific bacterial families and OTUs typical from low-oxygen habitats in C. lunulatus gill mucus. By using a correlation network between the two datasets, we found a Fusobacteriaceae strain exclusively present in C. lunulatus and highly correlated to the peptides. Finally, we discuss the possible involvement of these peptides and Fusobacteriaceae in monogenean avoidance by this fish species.Understanding natural defense mechanisms against parasites can be a valuable tool for the development of innovative therapies. We have previously identified a butterflyfish species ( Parasites are crucial for a well-balanced ecosystem, contributing to its organization by modifying competitive and trophic interactions and driving natural selection . HoweverEnterobacter bacterium from mosquito inhibited the development of malaria parasites by the production of reactive oxygen species (ROS), rendering mosquitoes resistant to infection 5+ (CLHb\u03b2-1) and 644.8738 [M + 2H]2+ (CLHb\u03b2-2) pre-purification of the acidic extract from CLHb\u03b2-2) . Another + 3H]3+ .C. reticulatus and C. ornatissimus) [m/z 679.7758 [M + 5H]5+ (CLHb\u03b2-4) and 702.3929 [M + 5H]5+ (CLHb\u03b2-5) in the mucus samples of all analyzed species (Acidic extractions of two heavily parasitized species (issimus) were don species . The mas species , Table 1+m/z values would match the expected average MH+m/z values for the five peptides discussed above eluted fraction showed the presence of several potential peptides, including five peaks whose MHed above . After ned above , Table 1http://www.uwm.edu.pl/biochemia/index.php/pl/biopep) showed no significant sequence identity to any sequence in these databases. Homology search with the Swissprot\u2013UniprotKB database using Mascot and Sequest highlighted peptides derived from the hemoglobin subunit beta-B of the Japanese amberjack Seriola quinqueradiata with high scores (see Chaetodon austriacus +m/z 1288.74177; [M + 2H]2+m/z 644.87479; [M + 3H]3+m/z 430.1914; found m/z: 644.8743.CLHb\u03b2-2: VKWTDAERAAITSLWGKIDVGEIGPQALTR Crude peptide . ESI-HRMS: Calculated for C147H237N41O44: [M+H]+m/z 3281.76464; [M + 2H]2+m/z 1641.38623; [M + 3H]3+m/z 1094.5934; [M + 4H]4+m/z 821.19703; [M + 5H]5+m/z 657.1592 found m/z: 657.1589.CLHb\u03b2-3: AAITSLWGKIDVGEIGPQALTR Crude peptide . ESI-HRMS: Calculated for C103H170N28O31: [M + H]+m/z 2296.26651; [M + 2H]2+m/z 1148.6372; [M + 3H]3+m/z 766.0941; found m/z: 766.0927.CLHb\u03b2-4: VKWTDAERAAITSLWGKIDVGEIGPQALTRL Crude peptide . ESI-HRMS: Calculated for C153H248N42O45: [M + H]+m/z 3394.84871; [M + 2H]2+m/z 1697.92827; [M + 3H]3+m/z 1132.28757; [M + 4H]4+m/z 849.46802; [M + 5H]5+m/z 679.77600 found m/z: 679.7773.CLHb\u03b2-5: VKWTDAERAAITSLWGKIDVGEIGPQALTRLL Crude peptide . ESI-HRMS: Calculated for C159H259N43O46: [M + H]+m/z 3507.93277; [M + 2H]2+m/z 1754.47029; [M + 3H]3+m/z 1169.98281; [M + 4H]4+m/z 877.73906; [M + 5H]5+m/z 702.3928 found m/z: 702.3931.C. lunulatus, C. ornatissimus, C. reticulatus, and C. vagabundus) were studied. Gill mucus DNA was extracted, and DNA samples were sent for 454 pyrosequencing. Multiplex raw SFF (standard flowgram format) files were analyzed using a hybrid analysis pipeline using Usearch5 and Qiime1, and non-chimeric sequences were unweighted and grouped into operational taxonomic units (OTUs) with a cut-off of 98% . Variable importance in projection (VIP) was obtained (package RVAiedeMemoire for R), and features and OTUs with VIP scores higher than 1 were retained. Kruskal\u2013Wallis test was used to test for a significant difference in the intensity of metabolites and relative abundance of OTUs between parasitized and non-parasitized fish. In order to explore the correlation between VIP metabolites and OTUs, a correlation network was constructed using the software Cytoscape v3.4.0 [Multidimensional matrices obtained from the metabolome and microbiome data were analyzed equally. Principal coordinate analysis was used to visualize the differences between the parasitized and non-parasitized fish metabolome and microbiome. Analysis of similarities was used to detect significant differences between the PCoA groups. Partial least squares discriminant analysis was used to select the metabolites and OTUs driving the differences between the two fish groups. PLS-DA model accuracy was calculated using two-fold cross-validation and the resulting number of misclassifications (NMC) was compared to its permutated null distribution (999 permutations) to test for model significance (e v3.4.0 . Spearma"} +{"text": "AdamowiczKarthikeyan AdhimoolamJoshua N. AdkinsMatthew AglerEric AguiarStephen Dela AhatorHajar Fauzan AhmadIrfan AhmadWarish AhmedPalok AichOmid AkbariBegum AlaybeyogluMichaeline B. N. AlbrightDelphine AldebertGajender AletiNabil-Fareed AlikhanDavid AllandJacob AllenEmma Allen-VercoeAlexandre AlmeidaLauren Victoria AlteioJohn AlverdyKatherine R. AmatoCarol Viviana Amaya GomezOle Herman AmburJan AmendAlongkorn AmnuaykanjanasinAmitesh AnandAnnette Carola AndersonGregory G. AndersonAnand AndiappanAndres Andrade DominguezNana Y. D. AnkrahSten AnslanRebecca AnsorgeHaike AntelmannVijay C. AntharamMaciek R. AntoniewiczAndr\u00e9 AntunesL. Caetano M. AntunesVictor Hugo AquinoManuel ArandaGabriele ArcariCatherine R. ArmbrusterZach ArmstrongJames T. ArnoneCarol ArnostiGunjan AroraMario L. Arrieta-OrtizMelinda Marie AshcroftMarina Elisabeth AspholmLaetitia AttaiechJennifer M. AuchtungFikri Y. AvciMian Muhammad AwaisSelcan AydinM. Andrea Azcarate-PerilOliver BaarsPaul BabitzkeTaeok BaeChengrong BaiJonathon L. BakerPaul William BakerSreejata BandopadhyayCarlos BarajasWendy S. BarclayMohammed BarigouLars BarquistRodolphe BarrangouFrederic J. BarrasJonathan BarrattFrancois-Xavier BarreRyan P. BartelmeLuther A. BarteltMirko BasenChristine Marie BassisFlorian F. BauerAnthony D. BaughnJose M. BautistaSean K. BayJagadeesh BayryWilliam N. BeaversChristine BeemelmannsOded BejaPedro Belda-FerreLisa K. BeldenAlfonso Ben\u00edtez-P\u00e1ezSean BenlerSarah Ben MaamarGian Maria Niccolo BenucciMaureen BergBeatrice BergerMegan BergkesselRenaud BerlemontEmma BerminghamAnthony BertagnolliAndrew David BertiKatja BettenbrockOliver K. I. BezuidtKyle BibbyEthan BierSarah BigotElisabeth M. BikSteven BillerJordan T. BirdKyle BittingerAlain BlanchardJeffrey BlanchardJake BledsoeAlissa BleemRobert M. BlumenthalSaid BogatyrevNicholas Andrew BokulichJennifer M. BombergerIvo G. BonecaCarla Yaneth BonillaErika BonsagliaElizabeth BoonRicardo M. BorgesOlivier BorkowskiGuillaume BorrelJo\u00e3o BotelhoMichael J. BouchardPaul BoudreauAlice BoulangerBob BourettJoel BozueG\u00fcnter BraderPatrick H. BradleyKristoffer BrandvoldChristopher Br\u00e4senMya BreitbartMichael R. BrentVanessa BrissonIlana Lauren BritoMark Br\u00f6nstrupAmanda BrownDaniel R. BrownSebastian BruchmannHarald BruessowSascha BrunkeJames BrunnerJason BubierDaniel H. BuckleyMichelle Monique Conni BucknerSara Ashley BumgardnerCatherine M. BurgessSara BurgessAlita R. BurmeisterJeremy P. BurtonSusheel Bhanu BusiLuc\u00e9lia CabralDaniel CaddellJianfeng CaiPaolo CalligariMagdalena CalusinskaAntonio CamargoBarbara J. CampbellH\u00fcseyin CanXinyun CaoAndr\u00e9s M. Caraballo-Rodr\u00edguezValerie Jean CarabettaAlessandra CarattoliNicholas H. CarbonettiJane M. CarltonAdrian CarperTyler J. CarrierJohn R. CaseySantiago Castillo-Ram\u00edrezDuccio CavalieriYunrong ChaiStephane ChaillouKok Gan ChanSiu H. J. ChanChristopher Peter ChanwayYanjie (Jay) ChaoMatthew R. ChapmanGina M. ChaputBenoit ChassaingJonathan ChekanBaodong ChenCasey ChenFusheng ChenJen-Tsung ChenJun ChenLiang ChenStanley H. ChenTingtao ChenWei ChenMarc G. ChevretteLoo Wee ChiaJason ChinByung-Kwan ChoSanghyun ChoAh Reum ChoiJessica ChopykMaria ChuvochinaNico J. ClaassensDennis ClaessenThomas ClavelJos\u00e9 Francisco Cobo D\u00edazAna Cl\u00e1udia CoelhoLuis Pedro CoehloAidan CoffeyNatalie CohenDevin Coleman-DerrJames CollinsGeorg ConradsLydia M. ContrerasTyrrell ConwayRene CortesePaul Cos\u00d6mer CoskunZachary CostliowJason CrawfordAlexander Crits-ChristophDaniel CrollSean CrossonSean Andrew CroweDavid E. CrowleyZhongli CuiMichael CunliffeCameron R. CurrieJohanna Patricia DailyBenjamin DainatMartina Dal BelloRobert E. DanczakWashington DaSilvaMaude DavidSeana K. DavidsonShawn DavidsonThomas DawsonAllan DegenHidde de JongTom DelmontJill DembrowskiXiangyu DengXin DengYijie DengJonathan J. DennisTodd DeSantisMegan De Ste. CroixSuzanne DevkotaTravis J. De WolfeJonathan D. D\u2019GamaAvantika DhabariaGeorge C. diCenzoGregory J. DickChristian DienerChristina Diez-VivesStephen P. DiggleYousong DingAlden Conlan DirksJocelyne DiRuggieroRay DixonUlrich DobrindtDaryl DommanRodolpho Martin do PradoMert D\u00f6\u015fkayaRyan S. DosterNir DraymanPavel DrevinekAlexandre DrouinGeorge L. DrusanoMelissa DsouzaChao DuRebbeca DuarVikash Kumar DubeyDaniel Christopher DucatLesley L. DuffyTim J. DumonceauxColum DunneSanjucta DuttaRachel J. DuttonMohammed DwidarTom EdlindMartinique Lefevre EdwardsEleonora EgidiGisli EinarssonDamian EkiertMikros EmmanuelAlexandra EmmonsStephanie EngelMelinda Anne EngevikTobias EnglBrendan EpsteinCarmen Escudero-MartinezAlessandra S. EustaquioSarah Elisabeth EwaldJeremiah FaithAili FanKunkun FanSeamus FanningSara FedericiConor FeehilyAdam M. FeistTam\u00e1s Felf\u00f6ldiFengqin FengJean-Luc FeratJane FergusonPedro Eduardo FerreiraElvira Fiallo-Oliv\u00e9Daniel FigeysCelio Fernando Figueiredo AngoliniGilberto E. FloresStelios FodelianakisHerrison FontanaLarry J. ForneyJane FosterLeonard J. FosterHugo FragaMichael T. FranceEmanuela FrangipaniEric A. FranzosaLori FrappierDavid N. FredricksKelle C. FreelIddo FriedbergJens Christian FrisvadTakashi FujishiroTak FungChikara FurusawaIwona GabrielAna Cristina GalesMichael G. GanzleFerran Garcia-PichelJulia M. GauglitzPatrice GaurivaudJennifer Geddes-McalisterEdward GeisingerMikhail S. GelfandDavid GellLandon John GetzBenjamin GewurzRaad GharaibehSteven R. GillCaitlin GionfriddoJorge A. GironAnum GlasgowBettina GlaslSydney GlassmanErin S. GloagMatthew Robert GoddardBen GoldIsabel G\u00f3mez-HurtadoAlicia Gonz\u00e1lezClaire L. GorrieCelia W. GouldingC\u00e9dric GrangeteauMichael Jeffrey GrayTodd M. GrecoKacy GreenhalghMaureen GroerKirsten GrondHarald R. Gruber-VodickaDanxia GuRa\u00fal GuantesMar\u00eda-Eugenia GuazzaroniFran\u00e7ois Gu\u00e9rinSimone GuglielmettiSohini GuhaCaitriona M. GuinaneVadim M. GumerovC. J. GuoTony GutierrezLaila Guti\u00e9rrez-KobehMichelle Gwinn-GiglioElaine M. HaaseYang HaiHenry J. HaiserVanessa HaleFabien HalkettRuth M. HallKimberly H. HalseyMohammad HamidianDongsheng HanXinyan HanS. Emilia HannulaWilliam R. HarcombeDayna M. HarhayJonathan HarrisEllie HarrisonXavier HarrisonErica M. HartmannCaroline S. HarwoodKoji HaseRoland HatzenpichlerAlan R. HauserJane HawkeyAlyse HawleyYan HeJack A. HeinemannJulia HelmeckeNicholas C. K. HengMichael HensonElisabeth A. HerniouRobert L. HettichSteven HigginsRussell HillDeborah M. HintonItaru HiraiAlec J. HirschShang-Tse HoLaura HobleyAdam J. HockenberryLucas R. HoffmanEmily B. HollisterPatrick Finn HorveFuping HuShijia HuYuntao HuHsin-Ho HuangJean J. HuangZhijian HuangLuciano F. HuergoMeredith A. HullarChristopher HunterRyan C. HunterYi-Xin HuoA. HurleyFilip HusnikAlan HutchisonMathilde HutinRobert HutkinsEdel Maria HylandAlex HynesZehra Esra IlhanKatherine IliaThomas R. IoergerMd. Tofazzal IslamEmoleila Ejiya ItoandonSiva Sankari Iyer Mani SankaranJonathan JacobsWilliam R. JacobsMario JacquesDieter JahnHee-Chang JangPaul R. JaschkeRobert JenqPaul R. JensenGarilyn JentarraGerdhard L. JessenMichael JewettAaron JexWei JiaShuo JiaoDiego Javier Jim\u00e9nezJay-Hyun JoJulia JohnkeAbigail J. JohnsonMichael David Leslie JohnsonTimothy J. JohnsonDaniel S. JonesHannah JordtPeter JorthChristine JosenhansSusan JosephMatthieu JulesJoshua L. JusticeNadeem O. KaakoushVladimir R. KaberdinMary E. KableTeemu KallonenDae-Wook KangRay M. KaplanS. L. Rajasekhar KarnaPeter D. KarpJustin R. KasparZain KassamShingo KatoTomomi KawaiSean M. KearneyScott T. KelleyChristina A. KelloggNabla KennedySander KerstenAman KhanHemant KhannaMegan R. KiedrowskiPatrick KieferMogens KilstrupJae Su KimYoung-Mo KimJonathan KlassenManuel KleinerStefan KlumppJen KniesPetr KohoutTyler KokjohnCarolin KolmederBethany KolodyAleksandra KolodziejczykYahya KoochJanet Cheruiyot Kosgey\u00c1kos T. Kov\u00e1csRosa Krajmalnik-BrownTino KrellArjun KrishnanAndrew M. KropinskiJia-Liang KuangJessica Z. Kubicek-SutherlandLouise KuhnAnand KumarAshwani KumarRoshan KumarDeepak KumaresanRanjith KumavathYakov KuzyakovMatthias LabrenzChristophe LacroixDaniel A. LafontaineAriadna LagunaLeo LahtiHsin-Chih LaiJohanna LampePawel LaniewskiRafael Laso-P\u00e9rezChristian L. LauberAonghus LavellePedro Humberto LebreChristopher T. LefevreLaura E. Lehtovirta-MorleyVanessa LeoneRuth E. LeyBailiang LiHoukai LiHui LiMeng LiShiming LiXiangrui LiYong LiZhiyong LiChen LiaoXin-Di LiaoTami LiebermanGeorge LiechtiZachary LiechtyRoland LillShaun LimJonathan Y. LinAbigail LindFangqiong LingNing LingJohn J. LipumaSara LittleGuangliang LiuGuodong LiuJinxin LiuJun LiuLong LiuWei LiuAndrew LongAna LongoAllison LopatkinNorberto Peporine LopesGabriel L. LozanoCatherine LozuponeXin M. LuoAndr\u00e9anne LupienLongxian LvMichael LyuBin MaYingfei MaRoderick I. MackieHannah MacLeodKaren L. MadsenRick M. MaizelsPiotr MajewskiJuraj MajtanLucie Anne MalardJacob MaloneSerena ManaraNicasio ManciniChristopher MancusoRabindra Kumar MandalNathan P. ManesRen MaoRamona MarascoJulian R. MarchesiMaria L. MarcoAbelardo MargollesMartin G. MarinusJeffrey MarlowIan P. G. MarshallMaria MartellJulia E. MartinVeronica MartinBeatriz Mart\u00ednezJos\u00e9 Luis Mart\u00ednezEsteban Mart\u00ednez-Garc\u00edaManuel Martinez-GarciaMaria Elena MartinoJon MartinsonVincent G. MartinsonPrince Peter MathaiAlison MatherDespoina MavridouXavier MayaliMelinda Jane MayerChase MayersCameron McBrideMark J. McBrideJohn P. McCutcheonAlice C. McHardyAoife J. McHughMichael J. McLarenLynn M. McMullenConor MeehanLuis C. MejiaJohn Scott MeschkeJoseph R. MihaljevicChristian MilaniIan J. MillerRobert H. MillsTanja MimmoKiwamu MinamisawaSamuel MinotBiswapriya Biswavas MisraCaroline MitchellSuparna MitraSara MitriJennifer M. MobberleyLuke A. MoeAndrew MoellerWendy MokBabak MomeniDenise MonackJonathan MonkKyung MoonJamie MortonAlexander MoschenKathy MouQu\u00e9zia MouraEnock MpofuQinghui MuC. S. MukhopadhyayCarly Muletz-WolzIssa Atanda MurainaMario MuscarellaKevin S. MyersCarey D. NadellMaya NadimpalliRavinder K. NagpalRyohei Thomas NakanoJesus Navas-CastilloDan NaylorEvgeniya V. NazarovaAndrew L. NealDavid M. NeedhamJulia NeilsonRoy NeilsonEric Jorge NelsonJiajia NiTimothy J. NiceMartina NieblerKang NingBen NiuMasaru Konishi NobuCecilia NoeckerMichael James NotoAkos NyergesSpencer V. NyholmDarren ObbardIngrid ObernostererAmanda G. OglesbyAnil OjhaAnders OmslandMarc OngenaFabini D. OrataMehmet A. OrmanDaniel Barros OrtegaCarlos R. OsorioGeorge O\u2019TooleMarc OuelletteKalon OverholtWill A. OverholtAnne-Marie OverstreetBen O. OysermanEgon Anderson OzerMarton PalatinszkyBrian PalenikFernando Lucas PalhanoRobert J. PalmerBernhard O. PalssonKevin Panke-BuisseIvan Parra-IzquierdoRaghuveer ParthasarathyLaila Partida-MartinezSally R. PartridgeJavier PascualEdoardo PasolliAlessandro PasseraVinay PathakKiran Raosaheb PatilRob PatroSushmita PatwardhanIan T. PaulsenSara PaverSamuel H. PayneTalima PearsonRoger D. PechousChristie PeeblesItsik Pe\u2019erYousong PengRita de Cassia PessottiKevin PetheWilliam A. Petri, Jr.Vjacheslav PetrovHoang Cong PhanCaroline C. PhilpottAzul Pinochet-BarrosGabin PitonAnna PlantingaMircea PodarLaurent PoirelAlessandra PolissiPhillip B. PopeWelkin H. PopeSteven L. PorterAshok PrasadAkbar Adjie PratamaSarah Pacocha PreheimMorgan N. PriceJohn R. PringleSambhawa PriyaMaraike ProbstLita ProctorBirgit M. PruessAlexandra E. PurdyYuanyuan QuRobert Andrew QuinnRalf RabusMarcela Alejandra RadiceAli RahnavardSeth Rakoff-NahoumTeppo R\u00e4m\u00e4Gayetri RamachandranHazem RamadanVijay RamakrishnanRyan RanalloDrauzio Eduardo Naretto RangelSimon RasmussenSebastian RauschJayamary Divya RavichandarKasie RaymannTimothy D. ReadGuislaine Refr\u00e9gierCong RenOlaya Rendueles-GarciaAlejandro ReyesSebasti\u00e1n Reyes-CerpaDaina L. RingusAdam RiversSteve RobbinsLeah RobertsJennifer RoccaDan D. RockeyGuillermo RodrigoJorge RodriguezMario Alberto Rodr\u00edguezMaria Carolina Rodriguez DazaFrancisco Rodriguez-ValeraRobin Rebecca RohwerFernando RojoKymberleigh A. RomanoVeronica Roman-ReynaPaola RoncadaDavid A. RosenDaniel E. RossSeth RotzHugo RoumePaul H. RoyFrancesco RubinoJakob RuessKelly V. RugglesMarc RuitenbergNatividad RuizThomas A. RussoFeargal J. RyanSamuele SabbatiniRajib SahaJason W. SahlDeepak Kumar SainiMichaela M. SalcherHoward SalisManuel Salmeron-SanchezElisa SalvettiAna SampaioJohn C. Samuelson\u00c1lvaro San MillanAlyson SantoroAlfonso Santos-LopezChristian Santos-Medell\u00ednRumakanta SapkotaMartin SappAlain SarniguetGuillaume SarrabayrouseYuko SasakiLakkakula SatishKarin SauerUwe SauerAlexei SavchenkoJimmy H. SawNeha SawhneyPatrick D. SchlossStephan Schmitz-EsserJochen SchneiderKarin SchnetzRebecca A. SchomerCarla Bianca SchubigerMonika Stefanie Sch\u00fctzBianca SclaviNinecia ScottKimberley D. SeedAnna Maria SeekatzLeopoldo SegalStephanie SeifertShlomo SelaAditi SenguptaLauren Marie SeylerYongqi ShaoMichael ShapiraGil SharonAlaullah SheikhQirong ShenZike ShengLiat ShenhavAhmed A. ShiblMichael U. ShilohWilliam ShoemakerFrancesca L. ShortSteven M. ShortNachshon SiboniJessica R. SieberPaul SiegelMitchell SingerSteven SingerSonia SinghalCarolyn M. SlupskyYounes SmaniBarth F. SmetsNicholas M. SmithSarah SmithTrever C. SmithTheo H. M. SmitsAndrea S\u00f6llingerPacifica SommersMike Seong SonUtkarsh SoodJorg SoppaPatrick SorensenDiana Zita SousaPeter SpeckSanjeeva SrivastavaEric V. StabbBlake W. StampsKenneth M. StedmanAndrew D. SteenAshley A. StegelmeierBlaire StevenLisa StinsonStephen Robert StockdaleJuergen StolzD. G. StoreyGilles StouvenakersFrancesco StratiWolfgang R. StreitGiannis StringlisRhona K. StuartXiaoquan SuZhengchang SuTatsuki SugiMuhammad SulemanSnorre SulheimChristopher S. SullivanAnne O. SummersChaomin SunZheng SunAntonet SvircevKelly S. SwansonMarc A. Sze\u00c9va SzentirmaiKazuhiro TakemotoLi TanAzuma TaokaJulien TapSuvi TaponenFlorence TardyMartin T\u00e4ubelMartin TaubertLeho TedersooNicolas TerraponHerve TettelinBas TeusinkRobert Th\u00e4nertOlivier ThasCasey M. TheriotNikhil A. ThomasMitchell G. ThompsonJ. Cameron ThrashRuth E. TimmeAnna D. TischlerHirokazu TojuMagaly ToroM\u00f3nica Torres Beltr\u00e1nMoritz TreeckLaura TreuStacey Trevathan-TackettJean-Pierre TrezziAnupriya TripathiFran\u00e7ois TrotteinAndrew W. TrumanRenee M. TsolisKieran TuohyTomasz Wojciech TurowskiJane F. TurtonShipra VaishnavaJesus ValdesJake ValenzuelaLizah Van der AartMarjan W. van der WoudeJordi van GestelMarc Warwick Van GoethemDaria Van TyneJose Vargas-Mu\u00f1izSuzan Pantaroto VasconcellosJoachim VaterBalaji VeeraraghavanNic M. VegaAlain VeilleuxNadine VeithHelianthous VermaMarco A. R. VinoloMarie-Joelle VirolleEmily VogtmannChris VoigtMartin von BergenLela VukovicJoseph Thomas WadeDavid M. WagnerIrene Wagner-DoblerJacob WaldbauerKevin John WaldronElizabeth WalkerAaron WalshDavid A. WalshWilliam A. WaltersGuanghua WangHarris WangJianjun WangJinfeng WangJun WangShulei WangSishuo WangWenmei WangXiaoxue WangXueshan WangYan WangZhenyuan WangZhong WangKenneth WasmundKarrie A. WeberTilmann WeberYulong WeiRebecca WeiserMartin WelchMalcolm F. WhiteRichard Allen White IIITimothy A. WhiteheadWilliam B. WhitmanTabor WhitneyMatthias WietzRoland Conrad WilhelmPeter WilliamsonTomasz WilmanskiJennifer R. WilsonCharles WimpeePhitchayapak WintachaiJeffrey H. WitheyPatricia G. WolfAlan J. WolfeMatthew C. WolfgangStephen WoloszynekJeffrey A. WoodsColin WorbyFelipe Christoff WoutersKelly C. WrightonFuqing WuWeihui WuSander WuytsWilliam Wenwei XiangBingbing XiaoShichao XingLing XuZhenjiang Zech XuZhi-Xiang XuKatherine XueAixin YanDongsoo YangJin-Kui YangJun YangVicky YaoMin YapLaxmi YeruvaRyland F. YoungYing YuNatalya YutinLivia S. ZaramelaKarsten ZenglerMusu ZhaKateryna ZhalninaHaoran ZhangJiachao ZhangJunling ZhangQuan-Guo ZhangRuifu ZhangJiangchao ZhaoKun ZhaoNi ZhaoYanlin ZhaoJusheng ZhengJiyong ZhouPing ZhouShungui ZhouWenhao ZhouZhemin ZhouQiyun ZhuYan ZhuStefan ZimmermannErik R. ZinserZhiyong ZongJackie ZorzThe extraordinary complexity and challenges that faced us all in 2020 fell hardest on those who are traditionally underserved, marginalized, and experiencing prejudice. The unprecedented lockdown reshaped our work environment and changed how we report the results of our scientific investigation, but it also caused huge pressure on certain groups, often disproportionately impacting early-career scientists, women, and minorities. Therefore, as 2020 finally draws to a close and we look to a brighter new year, it is a good time to extend our thanks to all the reviewers who have gone \u201cabove and beyond\u201d to ensure the integrity of scientific research reporting in the face of extreme pressure due to isolation, homeschooling, and limited Wi-Fi. Your sacrifice ensures that our truth will not be eroded and that we can still trust research reported in"} +{"text": "The correct name is: Rani Cathrine Chellappa. The correct citation is: Chellappa RC, Lukose B, Rani P (2020) G82S RAGE polymorphism influences amyloid-RAGE interactions relevant in Alzheimer\u2019s disease pathology. PLoS ONE 15(10): e0225487."} +{"text": "In the manuscript \u201cTemporal and spatial distribution of polio vaccine coverage in Brazil between 1997 and 2021\u201d, DOI: https://doi.org/10.1590/1980-549720230037, published in the Rev Bras Epidemiol. 2023; 26: e230037:Page 1, where it reads:H\u00e9vila Medeiros Ferreira Gomes BragaIt should read:H\u00e9vila Ferreira Gomes Medeiros BragaPage 1, how to cite this articleWhere it reads:Braga HMFGIt should read:Braga HFGMPage 9, authors\u2019 contributionsWhere it reads:Braga HMFGIt should read:Braga HFGM"} +{"text": "Scientific Reports 10.1038/s41598-023-42062-9, published online 15 September 2023Correction to: The original version of the Article contained an error in the Author Information statement.\u201cThese authors contributed equally: Ivan Coronado, Samiksha Pachade, Roomasa Channa, Sunil A. Sheth and Luca Giancardo.\u201dnow reads:\u201cThese authors contributed equally: Ivan Coronado\u00a0and Samiksha Pachade.\u201d\u201cThese authors jointly supervised this work: Roomasa Channa, Sunil A. Sheth and Luca Giancardo.\u201dThe original Article has been corrected."} +{"text": "DOI: 10.1111/jcmm.13119\u2009J Cell Mol Med. 2017 Sep;21(9):1989\u20131999.[2] ShRNA knock\u2010down of CXCR7 inhibits tumour invasion and metastasis in hepatocellular carcinoma after transcatheter arterial chemoembolization. DOI: Referencehttps://doi.org/10.1002/1878-0261.126031 Gao J, Dai C, Yu X, Yin X\u2010B, Zhou F. Circ\u2010TCF4.85 silencing inhibits cancer progression through microRNA\u2010486\u20105p\u2010targeted inhibition of ABCF2 in hepatocellular carcinoma. Mol Oncol. 2020;14:447\u201361. DOI: 10.1111/jcmm.13119\u2009J Cell Mol Med. 2017 Sep;21(9):1989\u20131999.[2] ShRNA knock\u2010down of CXCR7 inhibits tumour invasion and metastasis in hepatocellular carcinoma after transcatheter arterial chemoembolization. DOI: Referencehttps://doi.org/10.1002/1878-0261.126031 Gao J, Dai C, Yu X, Yin X\u2010B, Zhou F. Circ\u2010TCF4.85 silencing inhibits cancer progression through microRNA\u2010486\u20105p\u2010targeted inhibition of ABCF2 in hepatocellular carcinoma. Mol Oncol. 2020;14:447\u201361."} +{"text": "Erratum zu:HNO 202310.1007/s00106-023-01313-xIn diesem Artikel wurde die Bildunterschrift von Abb.\u00a0Die Abbildungen sollten wie folgt aussehen:Der Originalbeitrag wurde korrigiert."} +{"text": "Erratum zu:Chirurgie 202310.1007/s00104-023-01820-1In diesem Artikel fehlten die Adressdaten bzw. die Daten zur institutionellen Zugeh\u00f6rigkeit f\u00fcr die Autoren J\u00f6rg Andreas M\u00fcller, Simon Trommer, Katharina Lampe, Roland S. Croner, Dirk Vordermark und Daniel Medenwald. Bitte beachten Sie die oben genannten Adressdaten. Der Originalbeitrag wurde korrigiert."} +{"text": "Correction: Psicologia: Refex\u00e3o e Cr\u00edtica 36, 25 (2023)https://doi.org/10.1186/s41155-023-00263-1Following publication of the original article (Zanini et al., The original article (Zanini et al.,"} +{"text": "Scientific Reports 10.1038/s41598-023-44125-3, published online 09 October 2023Correction to: The original version of this Article contained an error in the Author Information section.\u201cThese authors contributed equally: Brian P. Scottoline and Jamie O. Lo.\u201dnow reads:\u201cThese authors contributed equally: Lyndsey E. Shorey-Kendrick and B. Adam Crosland.\u201d\u201cThese authors jointly supervised this work: Brian P. Scottoline and Jamie O. Lo.\u201dThe original Article has been corrected."} +{"text": "Correction: BMC Med 19, 235 (2021) https://doi.org/10.1186/s12916-021-02108-zIn Fig.\u00a0In Fig.\u00a0In our original article the multThe correct figures are given ahead.We regret the error."} +{"text": "Sci., 2023, 14, 3982\u20133989, https://doi.org/10.1039/D3SC00132F.Correction for \u2018Molybdenum chloride double perovskites: dimensionality control of optical and magnetic properties\u2019 by Devesh Chandra Binwal"} +{"text": "Caption: Grow\u2010out ponds for GIFT Nile tilapia, Malaysia.Credit: Trong Trinh (WorldFish)."} +{"text": "Fabaceae; courtesy of Caian S. Gerolamo.\u2019Upon original publication, Figure 1E legend was given as follows: \u2018(E) Asymmetrical stem resulting from atypical cambial activity (single cambium); The legend has been corrected to read:Schnella sp. Fabaceae; courtesy of Caian S. Gerolamo.\u2019(E) Non-cylindrical stem resulting from atypical cambial activity (single cambium);"} +{"text": "Correction: Psicologia: Reflex\u00e3o e Cr\u00edtica 36, 28 (2023)https://doi.org/10.1186/s41155-023-00269-9Following publication of the original article (Gupta & Kumari, The abstract has been added; the author\u2019s name Aarzoo has been corrected to Aarzoo GuptaThe original article (Gupta & Kumari,"} +{"text": "Correction: BMC Trials 24, 440\u00a0(2023)https://doi.org/10.1186/s13063-023-07462-2Following publication of the original article , we haveOriginally published Fig.\u00a01:Corrected Fig.\u00a01:The original article has been corrected."} +{"text": "DOI: 10.1107/S1600536810042455/sj5040Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Weak inter\u00admolecular C\u2014H\u22efO hydrogen bonds stabilize the crystal structure.In the title compound, [Ni(C DOI: 10.1107/S1600536811009056/hy2415Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, O\u2014H\u22efO and N\u2014H\u22efO hydrogen bonds link the components into a three-dimensional network.In the title complex, (CH DOI: 10.1107/S1600536812011439/lh5430Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Figure 1-7 were placed incorrectly in this article. The legends are placed correctly.The correct Figures are:Figure 1: Figure 2: Figure 3: Figure 4: Figure 5: Figure 6: Figure 7:"} +{"text": "The mol\u00adecules are linked by O\u2014H\u22efO hydrogen bonds, forming a chain developing parallel to [101].In the title compound, [Zn(C DOI: 10.1107/S1600536811012244/dn2671Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, weak C\u2014H\u22efN hydrogen bonds between the DMAP and azide ligands link these discrete complex mol\u00adecules into a three-dimensional supra\u00admolecular network.In the title complex, [Zn(N DOI: Click here for additional data file.10.1107/S1600536813004686/xu5676Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The two aromatic rings are almost coplanar, making a dihedral angle of 4.73\u2005(5)\u00b0. The crystal structure is stabilized by N\u2014H\u22efO hydrogen bonds, which link the mol\u00adecules into chains along the b axis.In the title compound, C DOI: 10.1107/S1600536811051944/ds2157Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811051944/ds2157Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bis-chelating dimethyl\u00adglyoximate ligands, which occupy equatorial sites, are linked by strong intra\u00admolecular O\u2014H\u22efO hydrogen bonds.In the title compound, [Co(C DOI: 10.1107/S1600536812000967/is5041Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The CoII ion is in a tetra\u00adhedral coordination geometry. The cations exhibit chair-shaped conformations. A three-dimensional supra\u00admolecular architecture is formed through N\u2014H\u22efCl and C\u2014H\u22efCl hydrogen bonds between the dianions and the cations.The title compound, (C DOI: 10.1107/S1600536811053128/pk2366Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053681002725X/jh2179Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The tetra\u00adaza\u00adcyclo\u00adtetra\u00addecane ligand inter\u00adacts with the NiII atom in the cis V configuration and the final two ligand binding sites are occupied by water.The crystal structure of the title complex, [Ni(C DOI: 10.1107/S160053681203276X/pk2429Isup2.molSupplementary material file. DOI: 10.1107/S160053681203276X/pk2429Isup3.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "It is further assembled by O\u2014H\u22efO hydrogen-bond inter\u00adactions involving both the coordinated and uncoordinated water molecules. The latter exhibits half-occupancy.The title compound, [Cu DOI: 10.1107/S1600536811022756/jh2295Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the dications and perchlorate anions are linked through N\u2014H\u22efO hydrogen bonding and weak C\u2014H\u22efO hydrogen bonding into a three-dimensional supra\u00admolecular network.In the title compound, C DOI: 10.1107/S1600536811033976/xu5296Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811033976/xu5296Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The pyridine-2,4-dicarb\u00adoxy\u00adlic acid ligands exhibit a new coordination mode. Adjacent metal centers are linked by the O atoms of the pyridine-2,4-dicarb\u00adoxy\u00adlic acid ligands, and then form a three-dimensional supra\u00admolecular polymeric framework.In the title complex, [Ba(C DOI: 10.1107/S1600536810023457/pb2031Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053681102890X/ng5198Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The morpholine ring adopts a chair conformation.In the title complex, [CuBr(C DOI: 10.1107/S160053681002670X/hb5543Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The chain motifs are oriented parallel to the c-axis direction. Individual chains are connected into a supra\u00admolecular network via O\u2014H\u22efO hydrogen bonding involving the aqua ligands.In the title compound, {[Cd(C DOI: 10.1107/S1600536811047842/ds2153Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A symmetry-related pair of six-membered hydrogen-bonded rings [graph-set motif S11(6)] are present for the terminal vanillin\u2013imine moieties. Two lattice methanol solvent mol\u00adecules are present per formula unit (Z\u2032 = 1/2), which form hydrogen-bonded chains along [010] with two orientations due to disorder of the methanol H-atom.The title compound, C DOI: 10.1107/S1600536812034940/hg5235Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S160053681103306X/gw2107Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure shows a \u03bc2-O:O\u2032-bridging mode of the four 3,4,5-tri\u00admeth\u00adoxy\u00adbenzoate ligands finally stabilizing the two ZnII atoms in the dinuclear complex in a distorted square-pyramidal environment. The fifth coord\u00adin\u00adation site in the apical position of the pyramid is occupied by a coordinating dimethyl sulfoxide solvent mol\u00adecule equally disordered over two positions.The colourless title complex, [Zn DOI: 10.1107/S1600536813023118/kj2227Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813023118/kj2227Isup3.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The complete solid-state structure can be described as a three-dimensional supra\u00admolecular framework, stabilized by extensive hydrogen-bonding inter\u00adactions involving the coordinated water mol\u00adecules, uncoordin\u00adated imidazole N atom, protonated pyridine N and carboxyl\u00adate O atoms of the H2PIDC\u2212 ligands.In the title complex, [Zn(C DOI: 10.1107/S1600536810031855/jh2196Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cobalt(II) cation is coordinated by two terminal N-bonded thio\u00adcyanate anions and two N-bonded 1,3-bis\u00ad(pyridin-4-yl)propane ligands, as well as two O atoms of methanol mol\u00adecules in a slightly distorted octa\u00adhedral coordination mode. Adjacent cations are connected into chains parallel to [10The asymmetric unit of the title compound, [Co(NCS) DOI: 10.1107/S1600536812000499/wm2581Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by O\u2014H\u22efO hydrogen bonds involving carboxyl groups, forming one-dimensional ladders. Two-dimensional layers are formed by inter\u00adpenetration of these one-dimensional ladders.In the title compound, C DOI: 10.1107/S1600536812012275/bq2343Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812012275/bq2343Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The benzene mol\u00adecule lies about a threefold rotoinversion axis.In the title compound, [Sn(C DOI: 10.1107/S1600536811055474/is5011Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, molecules are linked via pairs of O\u2014H\u22efO hydrogen bonds, forming inversion dimers.In the title compound, C DOI: 10.1107/S1600536811052275/fj2486Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811052275/fj2486Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging function of the cis ligands leads to a helical chain structure along [100].In the title coordination polymer, [HgBr DOI: 10.1107/S1600536811028066/hg5063Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811046022/hy2482Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The (pyridin-3-yl)(pyridin-4-yl)methanone ligand acts in a \u03bc2-bridging mode, linking the metal atoms, leading to an infinite chain along [-110]. O\u2014H\u22efO hydrogen bonds involving the lattice water mol\u00adecules connect these chains into a three-dimensional network.In the title complex, {[Cd(CH DOI: 10.1107/S1600536812019101/bt5902Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by C\u2014H\u22efN hydrogen bonds into chains along the c-axis direction. The asymmetric unit of the title compound, [Fe(C DOI: 10.1107/S1600536813031310/rn2116Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The Zn\u22efZn distance is 3.076\u2005(1)\u2005\u00c5. Each Zn atom is five-coordinated by two O and two N atoms from two Schiff base ligands, and by one azide N atom, forming a square-pyramidal geometry.The title compound, [Zn DOI: 10.1107/S1600536811043455/qm2038Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing is stabilized by O\u2014H\u22efO and C\u2014H\u22efO hydrogen bonds.In the title compound, [Cu(C DOI: 10.1107/S1600536811056145/hy2502Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "J. Am. DOI: 10.1107/S1600536811043820/bh2385Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The aromatic rings of the L ligand form a dihedral angle of 2.1\u2005(1)\u00b0.In the title compound, [Sn(C DOI: Click here for additional data file.10.1107/S1600536812047216/cv5361Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "No classic hydrogen bonds or inter\u00admolecular inter\u00adactions are observed in the crystal.In the title compound, [FeSn(C DOI: 10.1107/S1600536810022488/zq2044Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked into a two-dimensional network parallel to (011) by O\u2014H\u22efO hydrogen bonds.In the title complex, [Cu(C DOI: 10.1107/S1600536812022702/bx2410Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The figures in the article were corrupted. The correct figures are listed below.Figure 1: [^]Figure 2: [^]Figure 3: [^]Figure 4: [^]Figure 5: [^]Figure 6: [^]"} +{"text": "The pyridine and the pyrrole rings are nearly perpendicular to each other, making a dihedral angle of 84.83\u2005(7)\u00b0.In the title compound, [Zn(C DOI: 10.1107/S1600536810028503/dn2587Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The title complex, [CuBr(C DOI: 10.1107/S1600536811001814/hg2780Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In each, the 1,3-dioxane ring adopts an envelope conformation with the dimethyl-substituted C atom forming the flap. The crystal structure is stabilized by weak inter\u00admolecular C\u2014H\u22efO hydrogen bonds.The asymmetric unit of the title compound, C DOI: 10.1107/S1600536811002285/lh5196Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "There is a strong intra\u00admolecular O\u2014H\u22efN hydrogen bonds (which induces planarity of the structure). In the crystal, mol\u00adecules are linked by pairs of O\u2014H\u22efN hydrogen bonds, forming inversion dimers.In the title compound, C DOI: 10.1107/S1600536812001213/hg5155Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812001213/hg5155Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Bull. S DOI: 10.1107/S1600536814000361/pj2008Isup2.hklStructure factors: contains datablock(s) I. DOI: CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "In the crystal, weak inter\u00admolecular C\u2014H\u22efO hydrogen bonds link the complex cations and perchlorate anions.In the title compound, [Mn(C DOI: 10.1107/S1600536811023531/hy2441Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atoms are bridged by terephthalate ligands, generating an infinite zigzag chain along [101].In the title coordination polymer, [Zn(C DOI: 10.1107/S1600536810022385/is2548Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, numerous O\u2014H\u22efO hydrogen bonds link the mol\u00adecules into a three-dimensional network.The binuclear title complex, [Co DOI: Click here for additional data file.10.1107/S1600536813000196/tk5188Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, the solvent mol\u00adecules and anions are linked by weak O\u2014H\u22efO hydrogen bonding.In the title solvated mol\u00adecular salt, [CuCl(C DOI: 10.1107/S1600536812017941/hb6747Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812035337/vn2048Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, inter\u00admolecular O\u2014H\u22efO hydrogen bonds form a one-dimensional left-handed helical structureextending parallel to [001]. The water molecule of crystallization shows half-occupancy.In the title complex, [Cu(C DOI: 10.1107/S1600536811012049/hy2419Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The borohydride anions are situated on special positions with 4mm site symmetry and show rotational disorder around the fourfold axis.In the crystal structure of the title compound, C DOI: 10.1107/S1600536811029291/cv5120Isup2.cml Supplementary material file. DOI: 10.1107/S1600536811029291/cv5120Isup2.rtv Rietveld powder data: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials: interactive version of Fig. 1 Enhanced figure:"} +{"text": "The coordinating pyridine rings are oriented in an almost perpendicular fashion, making a dihedral angle of 83.7\u2005(5)\u00b0. In the title compound, [ZnI DOI: Click here for additional data file.10.1107/S1600536813001736/lr2093Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure features a three-dimensional hydrogen-bonding network based on a strong and distinctive pattern of O\u2014H\u22efO hydrogen-bonding inter\u00adactions.In the centrosymmetric title molecule, [Mn DOI: 10.1107/S1600536811008063/pb2059Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The distance between the CuI atoms within the dinuclear unit is 2.6723\u2005(11)\u2005\u00c5.In the centrosymmetric dinuclear title complex, [Cu DOI: 10.1107/S1600536812020843/kp2406Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The K atoms occupy the The title compound, KSn DOI: 10.1107/S1600536811035604/fi2111Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811045624/bt5698Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811045624/bt5698Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, adjacent mol\u00adecules are linked by inter\u00admolecular O\u2014H\u22efO inter\u00adactions, generating a helical hydrogen-bonded chain running along the b axis.The five-coordinate Sn atom in the title compound, [Sn(C DOI: 10.1107/S1600536810033623/bt5330Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "These ligands bridge the NiII complex units, forming chains extending along the [110] and [In the title compound, {[Ni(C DOI: 10.1107/S1600536811007021/zs2096Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The VV atom is five-coordinated by the two O and one N donor atoms of the Schiff base ligand, one methano\u00adlate O atom and one oxido O atom, forming a distorted square-pyramidal geometry.The title oxidovanadium(V) complex, [V(C DOI: 10.1107/S1600536811040207/qm2033Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are connected into a three-dimensional architecture through O\u2014H\u22efO hydrogen bonds involving water mol\u00adecules and carboxyl\u00adate groups.In the title compound, [Mn(NCS) DOI: 10.1107/S1600536814000701/bt6955Isup2.hklStructure factors: contains datablock(s) I. DOI: CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The ligands connect the metal atoms, forming layers parallel to the ab plane. O\u2014H\u22efO hydrogen bonds further assemble adjacent layers into a three-dimensional supra\u00admolecular network.In the title coordination polymer, {[Dy(C DOI: 10.1107/S1600536810041784/rz2501Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 1,3-dioxane ring is in a slightly distorted boat conformation. The crystal structure is stabilized by weak inter\u00admolecular C\u2014H\u22efO hydrogen bonds.The title compound, C DOI: 10.1107/S1600536811026201/lh5270Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811026201/lh5270Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the complex exhibits a chain structure parallel to the b axis.In the title polymeric coordination compound, [Sn(CH DOI: 10.1107/S1600536810054243/rz2544Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "One of the meth\u00adoxy side chains of the ligand is disordered over two orientations in a 0.700\u2005(6):0.300\u2005(6) ratio.In the centrosymmetric title compound, [OsCl DOI: 10.1107/S1600536811048926/hb6479Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The butane-1,2,3,4-tetra\u00adcarboxyl\u00adate ligands lie on inversion centers and bridge SrII ions, forming a three-dimensional network. Within the three-dimensional structure, there are O\u2014H\u22efO hydrogen bonds involving the water mol\u00adecules and carboxyl\u00adate O atoms.In the title compound, [Sr DOI: 10.1107/S1600536811046265/lh5368Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The purpose of this table is to provide the community with a citable record of publications of ongoing genome sequencing projects that have led to a publication in the scientific literature. While our goal is to make the list complete, there is no guarantee that we may have omitted one or more publications appearing in this time frame. Readers and authors who wish to have publications added to subsequent versions of this list are invited to provide the bibliographic data for such references to the SIGS editorial office. Thermogladius cellulolyticus\u201d 1633, sequence accession CP003531 [\u201cMethanomassiliicoccus luminyensis, sequence accession CAJE01000001 through CAJE01000026 [Pyrococcus sp. Strain ST04, sequence accession CP003534 [Leptospirillum ferrooxidans Strain C2-3, sequence accession AP012342 [Prochlorococcus marinus MED4, sequence accession BX548174 [Acinetobacter sp. Strain HA, sequence accession AJXD00000000 [00000000 Acinetobacter venetianus RAG-1T, sequence accession AKIQ00000000 [00000000 Aeromonas aquariorum, sequence accession BAFL01000001 through BAFL01000036, and AP012343 [AP012343 Agrobacterium tumefaciens CCNWGS0286, sequence accession AGSM00000000 [Alcaligenes faecalis subsp. faecalis NCIB 8687, sequence accession AKMR01000001 through AKMR01000186 [01000186 Alishewanella aestuarii Strain B11T, sequence accession ALAB00000000 [00000000 Alishewanella agri BL06T, sequence accession AKKU00000000 [00000000 Bartonella birtlesii strain IBS 135T, sequence accession AKIP00000000 [00000000 Brucella abortus A13334, sequence accession CP003176.1 (Chromosome I), CP003177.1 (Chromosome II) [Brucella canis Strain HSK A52141, sequence accession CP003174.1 (chromosome I), and CP003175.1 (chromosome II) [Brucella melitensis 16M13w, sequence accession AHWE00000000 [00000000 Brucella melitensis 16M1w, sequence accession AHWD00000000 [00000000 Brucella melitensis S66, sequence accession AHWB00000000 [00000000 Brucella melitensis16M, sequence accession AHWC00000000 [00000000 Burkholderia sp. Strain KJ006, sequence accession CP003514 (chromosome I), CP003515 (chromosome II), CP003516 (chromosome III), and CP003517 (plasmid pKJ006) [Burkholderia terrae Strain BS001, sequence accession AKAU00000000 [00000000 Burkholderia thailandensis MSMB43, sequence accession AJXB00000000 [00000000 CandidatusSulfurovum sediminum, sequence accession AJLE00000000 [00000000 Catenovulum agarivorans YM01T, sequence accession AJWM00000000 [00000000 Citrobacter sp. Strain A1, sequence accession AKTT00000000 [00000000 Citreicella aestuarii Strain 357, sequence accession AJKJ00000000 [00000000 Cronobacter sakazakii ES15, sequence accession CP003312 [CP003312 Dickeya zeae Strain ZJU1202, sequence accession AJVN00000000 [00000000 Enterobacter cloacae GS1, sequence accession AJXP00000000 [00000000 Enterobacter radicincitans DSM16656T, sequence accession AKYD00000000 [00000000 Enterobacter sp. Isolate Ag1, sequence accession AKXM00000000 [00000000 Escherichia coli J53, sequnce accession AICK00000000 [00000000 Escherichia coli LCT-EC106, sequence accession [ccession Escherichia coli NCCP15647, sequence accession AJMB00000000 [00000000 Escherichia coli W26, sequence accession AGIA00000000 [00000000 Gluconobacter oxydans WSH-003, sequence accession AHKI00000000 [00000000 Halomonas stevensii S18214T, sequence accession AJTS00000000 [00000000 Helicobacter cinaedi Strain PAGU611, sequence accession AP012344 (chromosome) and AP012345 (plasmid) [Helicobacter pylori hpEurope Strain N6, sequence accession CAHX01000001 to CAHX01000054 [01000054 Herbaspirillum lusitanum P6-12, sequence accession AJHH00000000 [00000000 Herbaspirillum sp. Strain GW103, sequence accession AJVC00000000 [00000000 Hydrocarboniphaga effusa strain AP103T, sequence accession AKGD00000000 [00000000 Hydrogenophaga sp. Strain PBC, sequence accession AJWL00000000 [00000000 Klebsiella oxytoca E718, sequence accession CP003683 [CP003683 Methylobacterium extorquens sp. strain 4-46, sequence accessions NC_010511, NC_010373, NC_010374 [C_010374 Methylobacterium extorquens strain BJ001, sequence accessions NC_010725, NC_010727, NC_010721 [C_010721 Methylobacterium extorquens strain CM4, sequence accessions NC_011757, NC_011758, NC_011760 [C_011760 Methylobacterium extorquens strain JCM 2831, sequence accessions NC_010510, NC_010509, NC_010514, NC_010517, NC_010518, NC_010502, NC_010504, NC_010507 [C_010507 Methylobacterium extorquens strain ORS 2060, sequence accessions NC_011894,NC_011892, NC_011887, NC_011893, NC_011895, NC_011888, NC_011889, NC_011890 [C_011890 Methylobacterium extorquens strain PA1, sequence accessions NC_010172 [C_010172 Methylobacterium sp. Strain GXF4, sequence accession AKFK00000000 [00000000 Methylophaga sp. Strain JAM1, sequence accession CP003390 [CP003390 Methylophaga sp. Strain JAM7 sequence accession CP003380 (chromosome), CP003381 (plasmid) [plasmid) Modestobacter marinus Strain BC501, sequence accession FO203431 [FO203431 Mycobacterium massiliense M18, sequence accession AJSC00000000 [00000000 Neisseria meningitidis Capsule Null Locus Strain, sequence accession CAJS01000001 through CAJS01000042 [01000042 Novosphingobium sp. Strain Rr 2-17, sequence accession AKFJ00000000 [00000000 Providencia stuartii Clinical Isolate MRSN 2154, sequence accession CP003488 [Pseudaminobacter salicylatoxidans KCT001, sequence accession CAIU00000000 [00000000 Pseudoalteromonas issachenkonii PAMC 22718, sequence accession AJTK00000000 [00000000 Pseudomonas aeruginosa Strain SJTD-1, sequence accession AKCM00000000 [00000000 Pseudomonas aeruginosa Strain XMG, sequence accession AJXX00000000 [00000000 Pseudomonas fuscovaginae CB98818, sequence accession ALAQ00000000 [00000000 Pseudomonas pseudoalcaligenes KF707, sequence accession AJMR00000000 [00000000 Pseudomonas putida Strain ND6, sequence accession CP003588 [CP003588 Pseudomonas putida Strain SJTE-1, sequence accession AKCL00000000 [00000000 Pseudomonas sp. Strain HYS, sequence accession AJJP00000000 [00000000 Pseudomonas sp. Strain M47T1, sequence accession AJWX00000000 [00000000 Pseudomonas stutzeri TS44, sequence accession AJXE00000000 [00000000 Pseudomonas stutzeri Strain JM300, sequence accession CP003725 [CP003725 Ralstonia sp. strain PBA, sequence accession AJWL00000000 [00000000 Rhodanobacter DSM 17631, sequence accession AJXT00000000 [00000000 Rhodanobacter DSM 18449, sequence accession AJXU00000000 [00000000 Rhodanobacter DSM 18863, sequence accession AJXW00000000 [00000000 Rhodanobacter DSM 24678, sequence accession AJXV00000000 [00000000 Rhodanobacter strain 115, sequence accession AJXS00000000 [00000000 Rhodanobacter strain DSM 23569, sequence accession AGIL00000000 [00000000 Rickettsia australis strain PhillipsT, sequence accession AKVZ00000000 [00000000 Rickettsia conorii subsp. caspia, sequence accession AJUR00000000 [00000000 Rickettsia conorii subsp. israelensis, sequence accession AJVP00000000 [00000000 Rickettsia sp. Strain MEAM1, sequence accession AJWD00000000 [00000000 Salmonella enterica serotype Newport CVM19443, sequence accession AHUB00000000 [00000000 Salmonella enterica serotype Newport CVM19470, sequence accession AHUE00000000 [00000000 Salmonella enterica serotype Newport CVM19593, sequence accession AHUD00000000 [00000000 Salmonella enterica serotype Newport CVM21538, sequence accession AHTV00000000 [00000000 Salmonella enterica serotype Newport CVM21550, sequence accession AHTT00000000 [00000000 Salmonella enterica serotype Newport CVM33953, sequence accession AHTM00000000 [00000000 Salmonella enterica serotype Newport CVM35185, sequence accession AHTJ00000000 [00000000 Salmonella enterica serotype Newport CVM37978, sequence accession AHUC00000000 [00000000 Salmonella enterica serovar Typhi UJ308A, sequence accession AJTD00000000 [00000000 Salmonella enterica Serovar Typhi UJ816A, sequence accession AJTE00000000 [00000000 Serratia marcescens strain LCT-SM213, seqeunce accession AJUV00000000 [00000000 Serratia plymuthica Strain PRI-2C, sequence accession AJTB00000000 [00000000 Serratia sp. Strain M24T3, sequence accession [ccession Sinorhizobium fredii USDA257, sequence accession CP003563 through CP003582 [CP003582 Sphingobium indicum B90A, sequence accession AJXQ00000000 [00000000 Stenotrophomonas maltophilia PML168, sequence accession CAJH01000001 through CAJH01000097 [01000097 Sulfuricella denitrificans skB26, sequence accession BAFJ01000001 through BAFJ01000023 [01000023 Xanthomonas campestris JX, sequence accession AJVO00000000 [00000000 Yersinia pestis Strain 2501, sequence accession AKVQ00000000 [00000000 Geobacillus thermoglucosidans\u201d TNO-09.020, sequence accession AJJN00000000 [\u201c00000000 Aerococcus viridans LL1, sequence accession AJTG00000000 [00000000 Bacillus anthracis H9401, sequence accession CP002091.1 ( chromosome), CP002092.1.1 (plasmid pXO1), and CP002093.1 (plasmid pXO2) [id pXO2) Bacillus atrophaeus C89, sequence accession AJRJ00000000 [00000000 Bacillus cereus NC7401, sequence accession AP007209 (chromosome), AP007210 (plasmid pNCcld), AP007211 , AP007212 , AP007213 , and AP007214 [4, 3 kb) Bacillus methanolicus MGA3, sequence accession ADWW00000000 [00000000 Bacillus methanolicus PB1, sequence accession AFEU00000000 [00000000 Bacillus siamensis KCTC 13613T, sequence accession AJVF00000000 [00000000 Bacillus sp. Strain 5B6, sequence accession AJST00000000 [00000000 Bacillus sp. Strain 916, sequence accession AFSU00000000 [00000000 Clostridium beijerinckii Strain G117, sequence acceession AKWA00000000 [00000000 Corynebacterium pseudotuberculosis Strain 1/06-A, sequence accession CP003082 [CP003082 Enterococcus faecalis D32, sequence accession CP003726 through CP003728 [CP003728 Enterococcus faecalis strain NP-10011, sequence accession AB712291 [Enterococcus faecium Clinical Isolate LCT-EF128, sequence accession AJUP00000000 [00000000 Enterococcus hirae ATCC 9790, sequence accession CP003504 (chromosome), NC_015845 (plasmid pTG9790) [pTG9790) Lactobacillus mucosae LM1, sequence accession AHIT00000000 [00000000 Lactobacillus rossiae DSM 15814, sequence accession AKZK00000000 [00000000 Lactococcus garvieae IPLA 31405, sequence accession AKFO00000000 [00000000 Paenibacillus polymyxa OSY-DF, sequence accession AIPP00000000 [00000000 Pediococcus pentosaceus strain IE-3, sequence accession CAHU01000001 through CAHU01000091 [01000091 Pelosinus fermentans A11, sequence accession AKVM00000000 [00000000 Pelosinus fermentans B4, sequence accession AKVJ00000000 [00000000 Pelosinus fermentans JBW45, sequence accession AKVO00000000 [00000000 Pelosinus fermentans R7, sequence accession AKVN00000000 [00000000 Planococcus antarcticus DSM 14505, sequence accession AJYB00000000 [00000000 Rhodococcus sp. strain DK17, sequence accession AJLQ00000000 [00000000 Staphylococcus aureus Strain LCT-SA112, sequence accession AJLP00000000 [00000000 Staphylococcus capitis QN1, sequence accession AJTG00000000 [00000000 Staphylococcus equorum subsp. equorum Mu2, sequence accession CAJL01000001 to CAJL01000030 [01000030 Staphylococcus hominis ZBW5, sequence accession AKGC00000000 [00000000 Staphylococcus saprophyticus subsp. saprophyticus M1-1, sequence accession AHKB00000000 [00000000 Streptococcus mutans GS-5, sequence accession CP003686 [CP003686 Streptococcus pyogenes M1 476, sequence accession AP012491 [AP012491 Streptococcus salivarius PS4, sequence accession AJFW00000000 [00000000 Streptococcus thermophilus Strain MN-ZLW-002, sequence accession CP003499 [CP003499 Ureibacillus thermosphaericus Strain Thermo-BF, sequence accession AJIK00000000 [00000000 Mycoplasma leachii Strain PG50T, sequence accession CP002108.1 [002108.1 Mycoplasma mycoides subsp. mycoides, sequence accession CP002107.1 [002107.1 Mycoplasma wenyonii Strain Massachusetts, sequence accession CP003703 [CP003703 Actinomyces massiliensis Strain 4401292T, sequence accession AKIO00000000 [00000000 Bifidobacterium animalis subsp. lactis B420, sequence accesion CP003497 [CP003497 Bifidobacterium animalis subsp. lactisBi-07, sequence accesion CP003498 [CP003498 Bifidobacterium bifidum strain BGN4, sequence accession CP001361 [CP001361 Brevibacterium massiliense Strain 541308T, sequence accession CAJD00000000 [00000000 Corynebacterium bovis DSM 20582, sequence accession AENJ00000000 [00000000 Corynebacterium diphtheriae Biovar Intermedius NCTC 5011, sequence accession AJVH00000000 [00000000 Corynebacterium pseudotuberculosis strain 1/06-A, sequence accession CP003082 [CP003082 Corynebacterium pseudotuberculosis strain 3/99-5 sequence accession CP003152.1 [003152.1 Corynebacterium pseudotuberculosis strain 42/02-A, sequence accession CP003062 [CP003062 Microbacterium yannicii, sequence accession CAJF01000001 through CAJF01000067 [01000067 Micromonospora lupini Lupac 08, sequence accession CAIE01000001 [01000001 Mycobacterium bolletii Strain M24, sequence accession AJLY00000000 [00000000 Mycobacterium intracellulare Clinical Strain MOTT-36Y, sequence accession CP003491 [CP003491 Mycobacterium massiliense M18, sequence accession AJSC00000000 [00000000 Mycobacterium massiliense strain GO 06, sequence accession CP003699 [CP003699 Mycobacterium massiliense strain M154, sequence accession AJMA00000000 [00000000 Mycobacterium tuberculosis RGTB327, sequence accession CP003233 [CP003233 Mycobacterium tuberculosis MTB423, sequence accession CP003234 [CP003234 Parascardovia denticolens IPLA 20019, sequence accession AKII00000000 [00000000 Saccharothrix espanaensis DSM 44229T, sequence accession HE804045 [HE804045 Streptomyces auratus Strain AGR0001, sequence accession AJGV00000000 [00000000 Streptomyces cattleya\u201d DSM46488T, sequence accession FQ859185 and FQ859184 [\u201cFQ859184 Streptomyces globisporus C-1027, sequence accession AJUO00000000 [00000000 Streptococcus mutans GS-5, sequence accession CP003686 [CP003686 Streptomyces sp. Strain AA1529, sequence accession ALAP00000000 [00000000 Streptomyces sulphureus L180, sequence accession AJTQ0000000 [Q0000000 Borrelia crocidurae, sequence accession CP003426 (chromosome), CP003427 to CP003465 (plasmids) [lasmids) Treponema sp. Strain JC4, sequence accession JQ783348 [JQ783348 Flavobacterium sp. Strain F52, sequence accession AKZQ00000000 [00000000 Fusobacterium nucleatum subsp. fusiforme ATCC 51190T, sequence accession AKXI00000000 [00000000 Imtechella halotolerans\u201d\u201c K1T, sequence accession AJJU00000000 [00000000 Actinophage PIS136, sequence accession JX006077 Aeromonas hydrophila Phage CC2, sequence accession JX123262 [JX123262 Bacteriophage BC-611, sequence accession AB712291 Bacteriophage SSU5, sequence accession JQ965645 Blattabacterium sp. strain BGIGA, sequence accession [ccession Caulobacter crescentus Bacteriophage \u03c6CbK, sequence accession JX163858 [JX163858 Celeribacter Bacteriophage P12053L, sequence accession JQ809650 [JQ809650 Croceibacter Bacteriophage P2559S, sequence accession JQ867099 [JQ867099 Cronobacter sakazakii Temperate Bacteriophage phiES15 JQ780327 [JQ780327 Marinomonas Bacteriophage P12026, sequence accession JQ867100 [JQ867100 Pectobacterium carotovorum subsp. carotovorum Bacteriophage PP1, sequence accession JQ837901 [JQ837901 Persicivirga bacteriophages P12024L, sequence accession JQ823123 [JQ823123 Persicivirga bacteriophages P12024S, sequence accession JQ823122 [JQ823122 phage clP1, sequence accession JN051154 Pseudomonas aeruginosa Siphophage MP1412, sequence accession JX131330 [JX131330 Pseudomonas aeruginosa Temperate Phage MP29, sequence accession EU272036 [EU272036 Pseudomonas aeruginosa Temperate Phage MP42, sequence accession JQ762257 [JQ762257 Pseudomonas Phage \u03a6-S1, sequence accession JX173487 [JX173487 Siphophage MP1412, sequence accession JX131330 Staphylococcus aureus Bacteriophage GH15, sequence accession JQ686190 [JQ686190 Vibrio vulnificus Bacteriophage SSP002, sequence accession JQ692107 [JQ692107 African bovine rotaviruses RVA/Cow-wt/ZAF/1603/2007/G6P, sequence accession S9(VP7) JN831209, S4(VP4) JN831210, S6(VP6) JN831211, S1(VP1) JN831212, S2(VP2) JN831213, S3(VP3) JN831214, S5(NSP1) JN831204, S8(NSP2) JN831205, S7(NSP3) JN831206, S10(NSP4) JN831207, S11(NSP5) JN831208 African bovine rotaviruses RVA/Cow-wt/ZAF/1604/2007/G8P, sequence accession S9(VP7) JN831220, S4(VP4) JN831221, S6(VP6) JN831222, S1(VP1) JN831223, S2(VP2) JN831224, S3(VP3) JN831225, S5(NSP1) JN831215, S8(NSP2) JN831216, S7(NSP3) JN831217, S10(NSP4) JN831218, S11(NSP5) JN831219 African bovine rotaviruses RVA/Cow-wt/ZAF/1605/2007/G6P, sequence accession S9(VP7) JN831231, S4(VP4) JN831232, S6(VP6) JN831233, S1(VP1) JN831234, S2(VP2) JN831235, S3(VP3) JN831236, S5(NSP1) JN831226, S8(NSP2) JN831227, S7(NSP3) JN831228, S10(NSP4) JN831229, S11(NSP5) JN831230 Avian Leukosis Virus, sequence accession JX254901 Avian Influenza Virus H3N2, sequence accession JX175250 through JX175257 Avian Influenza Virus H5N2, sequence accession JQ990145 through JQ990152 Avian-Like H4N8 Swine Influenza, sequence accession JX151007 through JX151014 Avian Paramyxovirus, sequence accession JQ886184 Avian Tembusu-Related Virus Strain WR, sequence accession JX196334 Bluetongue Virus Serotype 9, sequence accession JX003687 to JX003696 Bluetongue Virus Serotype 16, sequence accession Bombyx mori Nucleopolyhedrovirus, sequence accession JQ991009 Bovine Viral Diarrhea Virus 2, sequence accession JF714967 Bovine Foamy Viruses, sequence accession JX307861 Canine Noroviruses, sequence accession FJ692500 and FJ692501 Chicken Anemia Virus, sequence accession JX260426 Chikungunya Virus, sequence accession JX088705 Chinese Virulent Avian Coronavirus GX-YL5, sequence accession HQ848267 Chinese Virulent Avian Coronavirus GX-YL9, sequence accession HQ850618 Coxsackievirus B4, sequence accession JX308222 Enterovirus C (HEV-C117), sequence accession JX262382 Genotype 4 Hepatitis E Virus Strain, sequence accession JQ993308 H10N8 Avian Influenza Virus, sequence accession JQ924786 to JQ924793 H9N2 Subtype Influenza Virus FJG9, sequence accession JF715008.1, JN869514.1 through JN869520.1 .Herpes Simplex Virus 1 Strain McKrae, sequence accession JX142173 Human Coronavirus NL63, sequence accession JX104161 Human G10P Rotavirus, sequence accession AB714258 through AB714268 Ikoma Lyssavirus, sequence accession JX193798 Korean sacbrood viruses AmSBV-Kor19, sequence accession JQ390592 Korean sacbrood viruses AmSBV-Kor21, sequence accession JQ390591 , sequence accession JN835456 [Mitochondrion of Frankliniella occidentalisJN835456 New Circular DNA Virus from Grapevine, sequence accession JQ901105 Novel Porcine Epidemic Diarrhea Virus, sequence accession JX112709 Pararetrovirus, sequence accession JQ926983 Parechovirus, sequence accession JX050181 Peste des Petits Ruminants Virus, sequence accession JX217850 Polyomavirus, sequence accession JQ412134 Porcine Circovirus 2b Strain CC1, sequence accession JQ955679 Porcine circovirus type 2 (PCV2), sequence accession JX294717 Porcine Epidemic Diarrhea Virus Strain AJ1102, sequence accession JX188454 Porcine Sapelovirus Strain YC2011, sequence accession JX286666 [Respiratory Syndrome Virus Strain QY2010, sequence accession JQ743666 SAT 2 Foot-and-Mouth Disease Virus, sequence accession JX014255 SAT 2 Foot-and-Mouth Disease Virus PAT, sequence accession JX014256 Street Rabies Virus, sequence accession HQ450386 Waterfowl aviadenovirus goose adenovirus 4, sequence accession JF510462 , sequence accession NC_015104 [cpDNA of Smilax chinaC_015104 , sequence accession JQ310743 [Elodea canadensisJQ310743 Ogura-type mitochondrial genome, sequence accession AB694743 Aspergillus oryzae Strain 3.042, sequence accession AKHY00000000 [00000000 Rhodosporidium toruloides MTCC 457, sequence accession AJMJ00000000 [00000000 Helicoverpa armigera, sequence accession HQ613271 [HQ613271 plasmidIncN plasmid pRSB201, sequence accession JN102341 plasmidIncN plasmid pRSB203, sequence accession JN102342 plasmidIncN plasmid pRSB205, sequence accession JN102343 plasmidIncN plasmid pRSB206, sequence accession JN102344"} +{"text": "In the crystal, the components are linked through N\u2014H\u22efO and O\u2014H\u22efO hydrogen bonds, forming [100] chains of alternating hydrazone and methanol mol\u00adecules.In the title compound, C DOI: 10.1107/S1600536811029394/hb6324Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811029394/hb6324Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Neighbouring pairs of CuII atoms are linked by four basally coordinating bridging acetate ligands as in the crystal structure of copper acetate monohydrate. The fifth, apically coordinating ligand links two of the dicopper tetra\u00adacetate paddlewheel-units together, thus building a linear coordination polymer which extends along [10-1]. Each apical acetate ligand is linked by an N\u2014H\u22efO hydrogen bond to a triethyl\u00adammonium cation. Weak C\u2014H\u22efO hydrogen bonding interactions also occur.In the title compound, {[(C DOI: 10.1107/S1600536812033405/hp2044Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812033405/hp2044Isup3.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "One of the two independent Cl\u2212 counter-anions sits on a special position (site symmetry In the title complex, [CrCl DOI: 10.1107/S1600536811039328/wm2515Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811018228/rn2085Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the mol\u00adecule is located on an inversion center. The Mo atom is equally disordered over two positions; the range of Mo\u2014C distances is 2.2244\u2005(19)\u20132.3400\u2005(17)\u2005\u00c5 for both components of the disorder.The title compound, [Mo(C DOI: 10.1107/S1600536812002504/tk5041Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812002504/tk5041Isup3.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, water O\u2014H\u22efCl and imidazole N\u2014H\u22efCl hydrogen bonds give rise to a three-dimensional structure.In the title compound, [Mg(C DOI: 10.1107/S1600536813021478/zs2271Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The benzoyl and aniline benzene rings are tilted relative to each other by 82.8 (1)\u00b0. In the crystal, inter\u00admolecular N\u2014H\u22efO hydrogen bonds link the mol\u00adecules into infinite chains running along the c-axis direction.In the title compound, C DOI: 10.1107/S1600536811041651/bt5668Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811041651/bt5668Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure features N\u2014H\u22efO hydrogen bonds, which link the mol\u00adecules into C(4) chains running along the a axis.In the title compound, C DOI: 10.1107/S1600536811045107/bt5692Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811045107/bt5692Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bipyridine ligands also lies on a twofold rotation axis and bridge the CoII ions, forming chains extending along [010]. An intra\u00adchain O\u2014H\u22efO hydrogen bond is observed.In the title compound, [Co(C DOI: 10.1107/S1600536811046149/lh5365Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810047793/hg2742Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, there are no identifiable directional inter\u00adactions between cations and anions except for Coulombic forces.In the title mol\u00adecular salt, (C DOI: 10.1107/S1600536812023008/hb6797Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Eight NdIII ions and 12 pda ligands form a large [Nd8(pda)12] ring, and four NdIII ions and six pda ligands form a small [Nd4(pda)6] ring. These rings are further connected by the coordination inter\u00adactions of pda ligands and NdIII, generating a three-dimensional supra\u00admolecular framework.In the title coordination polymer, [Nd DOI: 10.1107/S1600536811006817/wm2461Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two CuII atoms are separated by 2.6850\u2005(7)\u2005\u00c5, and together with the four formate ligands they form a paddle-wheel unit. The hexa\u00admine ligand uses only two of its four N atoms to link Cu2 cluster units, affording a zigzag chain running along the b-axis direction. The hexa\u00admine ligand lies on a mirror plane.In the title polymeric compound, [Cu DOI: 10.1107/S160053681303184X/ng5345Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S160053681303184X/ng5345Isup3.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Extensive O\u2014H\u22efO hydrogen bonding connects the mol\u00adecules into a three-dimensional supra\u00admolecular structure.In the centrosymmetric binuclear title compound, [Ni DOI: 10.1107/S1600536810049718/ds2071Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "An intra\u00admolecular N\u2014H\u22efO hydrogen bond occurs. The hy\u00addroxy group is hydrogen bonded to the double-bond S atom of an inversion-related mol\u00adecule, generating a hydrogen-bonded dimer in the crystal structure.In the title compound, C DOI: 10.1107/S1600536811012736/xu5185Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each PrIII ion is nine-coordinated by one 1,10-phenanthroline mol\u00adecule, one bidentate carboxyl\u00adate group and four bridging carboxyl\u00adate groups in a distorted PrN2O7 monocapped square-anti\u00adprismatic geometry. The title compound is isotypic with its terbium- and dysprosium-containing analogues.In the centrosymmetric binuclear title complex, [Pr DOI: 10.1107/S1600536811034702/hb6378Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, N\u2014H\u22efBr hydrogen bonds link the N,N-di\u00admethyl\u00adanilinium cations and both Br\u2212 anions and [SnBr6]2\u2212 dianions into a layered arrangement parallel to (001). In the title compound, (C DOI: Click here for additional data file.10.1107/S1600536813012403/nk2205Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813012403/nk2205Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The compound has crystallographic mirror symmetry with both the cation and the tetrahedral anion located across a mirror plane. The cation and anion are linked by a C\u2014H\u22efO hydrogen bond.The title compound, (C DOI: 10.1107/S1600536811050677/ez2273Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811050677/ez2273Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination around the RuII atom can thus be considered as octa\u00adhedral with slight trigonal distortion.In the title complex, [RuCl DOI: 10.1107/S1600536811035379/im2311Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Weak C\u2014H\u22efN inter\u00adactions contribute to the crystal packing stability.The structure of the title compound, [Mn(NCS) DOI: 10.1107/S1600536811051282/hg5141Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811051282/hg5141Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The six-coordinate metal atom displays a distorted octa\u00adhedral geometry.In the crystal structure of the title compound, [Ir(C DOI: 10.1107/S1600536811034222/si2371Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536813019570/lr2111Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The CoIII atom is coordinated by a methyl group, an N-bonded pyridine and two N,N\u2032-bidentate dimethyl\u00adglyoximate ligands in a distorted octa\u00adhedral geometry. The glyoximate ligands exhibit intra\u00admolecular O\u2014H\u22efO hydrogen bonds, which is very common in cobaloxime derivatives.The title compound, [Co(C DOI: 10.1107/S1600536812001092/fk2049Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The structure contains voids of 113\u2005(19)\u2005\u00c53, but no solvent mol\u00adecule could reasonably be located there.The crystal structure of the title salt, [Sn(C DOI: 10.1107/S1600536810039450/xu5034Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by inter\u00admolecular C\u2014H\u22efO hydrogen bonds into chains parallel to the b axis.In the title compound, C DOI: 10.1107/S1600536811018332/rz2596Isup2.hkl Structure factors: contains datablocks I. DOI: 10.1107/S1600536811018332/rz2596Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cyclo\u00adhexyl group is disordered over two orientations with site-occupancy factors of 0.600\u2005(14) and 0.400\u2005(14).In the title compound, [Bi(C DOI: 10.1107/S1600536811002510/lx2186Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Weak inter\u00admolecular C\u2014H\u22efO hydrogen bonds link cations and anions into a three-dimensional structure.The asymmetric part of the title compound, (C DOI: 10.1107/S1600536811043091/cv5168Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811043091/cv5168Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "AbstractMicatagla Argaman (Bradynobaenidae: Apterogyninae) is reviewed from Egypt, based on specimens collected from Wadi Allaqi and Kom Osheim (Fayoum) and those deposited in Egyptian insect collections as well as recorded data from the literature. A single species, Micatagla klugi (Andr\u00e9), was previously recorded from Egypt. Micatagla allaqiensissp. n., Micatagla ezzatisp. n. and Micatagla pseudoraineriisp. n. are described here. Micatagla antropovi Pagliano is also newly recorded from the Egyptian fauna. An illustrated key and a faunistic list comprising all Micatagla species recorded from Egypt are given.The genus PageBreakMicatagla Argaman, 1994 is a relatively large genus in the subfamily Apterogyninae, with 47 recorded species from Namibia. Members of the genus are widely distributed in Africa; only two species were recorded from Asia of female without basal tegumental yellow spot; eyes small, distant from occipital carina at least by their own diameter; hind trochanter with ventral lamella; forewing with closed brachial cell (except open in Micatagla noorti). Both sexes are normally quite colourful as they consist of red mixed with ferruginous to black, only few species have individuals all black.Members of the genus Micatagla is represented by a single species, Micatagla klugi . In the Micatagla species in the different Egyptian localities is plotted and Kom Osheim (Fayoum) and those deposited in the Egyptian insect collections as well as previous records from Egypt. Sampling was done by means of pitfall traps. Morphological terms are based on plotted using DICollection sites. Aswan: 24\u00b005'26\"N, 32\u00b054'00\"E; Bir Um Reiga: 29\u00b032'28\"N, 32\u00b021'45\"E; Kafr Hakim: 30\u00b004'54\"N, 31\u00b007'00\"E; Kom Osheim: 29\u00b033'46\"N, 30\u00b054'36\"E; Massara: 30\u00b004'15\"N, 31\u00b014'43\"E; Mokattam: 30\u00b001'00\"N, 31\u00b017'16\"E; Wadi Allaqi: 22\u00b050'20\"N, 33\u00b011'54\"E; Wadi Assiouti: 27\u00b012'30\"N, 31\u00b018'50\"E; Wadi Digla: 29\u00b057'30\"N, 31\u00b020'06\"E; Wadi el-Tih: 29\u00b009'00\"N, 33\u00b032'00\"E; Wadi Garawi: 29\u00b048'02\"N, 31\u00b027'39\"E. Wadi Hoff: 29\u00b053'22\"N, 31\u00b020'25\"E.Collection repositories (BMNH).Egypt, 1 \u2640, Kom Osheim (Fayoum), 30.v.2013 (leg. Ahmad M. Soliman) [CUE].Saudi Arabia, Yemen ; Egypt http://species-id.net/wiki/Micatagla_klugiApterogyna klugi Andr\u00e9, 1899: 69, holotype \u2640: Aswan (Egypt), (probably in MNHN).Apterogyna klugimocsaryi). : Apterogyna gridelliiMicatagla klugi by Invrea, 1959: 117, holotype \u2640: Egypt; synonymized with Utapitoca klugi : Egypt, 8 \u2640, Wadi Assiouti (Assiout), 1\u20132.iv.1917 (leg. Andr\u00e9) [PPDD]; 1\u2640, Cairo, with no date (leg. Adair) [PPDD]; 1\u2640, Mokattam (Cairo), April (leg. Innes Bey) [ESEC]; 1\u2640, without locality or date (leg. Ferrant) [ESEC].Wadi Hoff (Helwan), Bir Um Reiga (Red Sea), Massara (Cairo), Wadi Digla (Cairo), Wadi Garawi (Helwan), Wadi el-Tih (Sinai) .Egypt; Saudi Arabia .PageBreakGadallah & Solimansp. n.http://zoobank.org/EACEA2EE-E24B-49DB-8F48-64465128B1D5http://species-id.net/wiki/Micatagla_pseudorainerii27\u00b012'30\"N, 31\u00b018'50\"E], 13.iv.1934 (leg. ?) [CUE].Holotype \u2640: Egypt, Wadi Assiouti, Assiout .Holotype \u2640: Southern Egypt, Wadi Allaqi, Aswan , 8.v.1932 (leg.?) [CUE].Holotype \u2640: Egypt, Kafr Hakim, Giza [Female (Holotype). Body length 6 mm.Colour. Red, except mandible reddish brown distally, maxillary and labial palpi pale; mid and hind tibial spurs waxy white; 2nd & 3rd metasomal segments blackish red , T4 & T5 pale red, T6 reddish brown.Pubescence. Body including legs clothed with fine erect to recumbent whitish hairs, relatively longer on mesopleuron and distinctly denser on face and vertex of head, T4 and T5 than elsewhere. Posterior margin of T1 with fringe of irregular and inwardly directed whitish hairs; T2 and T3 with apical fascia of silvery inwardly directed hairs that are much denser than that of T1.Head ."} +{"text": "DOI: 10.1107/S1600536810023378/rk2207Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecule lies on a sixfold inversion axis.In the crystal structure of the title compound, [Hf(C DOI: 10.1107/S1600536811014516/ng5148Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the components are linked by C\u2014H\u22efCl inter\u00adactions.In the title solvated complex, [NiCl DOI: 10.1107/S1600536811042759/hb6452Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The [SnCl6]2\u2212 anion exhibits almost perfect octa\u00adhedral geometry. The 3-aza\u00adniumylpyridin-1-ium and chloride ions are connected via medium\u2013strong charge-supported N\u2014H\u22efCl hydrogen bonds, forming undulating layers in the (110) plane. The [SnCl6]2\u2212 ions are located between these layers and occupy cavities formed by two facing layer puckers.The asymmetric unit of the title compound, (C DOI: Click here for additional data file.10.1107/S1600536813006806/pk2471Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536813030286/fj2648Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each 1,3-di-4-pyridyl\u00adpropane ligand displays a monodentate coordinating mode. In the crystal, there exist O\u2014H\u22efO, O\u2014H\u22efN and C\u2014H\u22efO hydrogen bonds. The perchlorate anions and the coordinated and lattice water mol\u00adecules play an important role in the formation of these hydrogen bonds. One of the two lattice water molecules shows half-occupancy.In the title complex, [Mn(C DOI: 10.1107/S1600536811041511/pv2456Isup2.cdx Supplementary material file. DOI: 10.1107/S1600536811041511/pv2456Isup3.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The anion bridges adjacent metal atoms, forming zigzag polymeric chains parallel to [011] and [0In the title coordination polymer, [Sn(CH DOI: 10.1107/S1600536811055176/rz2693Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The ligands link the CdII ions into a zigzag chain extending along [0In the title compound, {[CdBr DOI: 10.1107/S160053681101662X/hy2426Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atom is five-coordinated in a distorted square-pyramidal geometry by five O atoms from four bpdc ligands. The dihedral angle between the benzene rings is 52.32\u2005(12)\u00b0.The crystal structure of the polymeric title complex, [Zn(C DOI: 10.1107/S1600536812038901/hy2581Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The m-BDC ligand is located over a twofold rotation axis. The CdII atoms are bridged by the m-BDC ligands, leading to a wave-shaped chain structure along [010]. N\u2014H\u22efO hydrogen bonds connect the chains.In the title coordinaltion polymer, [Cd(C DOI: 10.1107/S1600536811001243/hy2397Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, O\u2014H\u22efO and O\u2014H\u22efN hydrogen bonds help to establish the packing.In the title compound, [Mg(C DOI: 10.1107/S1600536810039437/hb5638Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The presence of two bulky tert-butyl groups on the carboxyl\u00adate prevents any hydrogen-bonding inter\u00adactions involving the hy\u00addroxy group.The title compound, [Sn(C DOI: 10.1107/S1600536810021884/hy2317Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, C\u2014H\u22efBr inter\u00adactions link the mol\u00adecules.The asymmetric unit of the title compound, [ZnBr DOI: 10.1107/S1600536810028692/hb5556Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The tetra\u00adhedral angles are in the range 104.93\u2005(9)\u2013118.81\u2005(9)\u00b0.In the title compound, [Zn(C DOI: 10.1107/S1600536811054821/bv2196Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812016777/zs2193Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The word \"Factor\" is misspelled in the article title. The correct title is: Intranasal \"painless\" Human Nerve Growth Factor Slows Amyloid Neurodegeneration and Prevents Memory Deficits in App X PS1 Mice. The correct citation is: Capsoni S, Marinelli S, Ceci M, Vignone D, Amato G, et al. (2012) Intranasal \u201cpainless\u201d Human Nerve Growth Factor Slows Amyloid Neurodegeneration and Prevents Memory Deficits in App X PS1 Mice. PLoS ONE 7(5): e37555. doi:10.1371/journal.pone.0037555"} +{"text": "The bridging ligand, which is completed by crystallographic twofold symmetry, links the CoII atoms into [10In the title one-dimensional coordination polymer, [Co(C DOI: 10.1107/S160053681004715X/hb5708Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Sb and N atoms are trans to each other.In the title compound, [FePdCl(C DOI: 10.1107/S1600536813015109/vn2072Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: Click here for additional data file.10.1107/S1600536812046648/xu5650Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "C. R. H DOI: 10.1107/S1600536813018588/br2229Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810049007/bq2246Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each AlO4 unit shares four O atoms with four adjacent PO4 units, leading to an anionic chain along [100]. The negative charge of the chain is compensated by doubly protonated camphoric amine cations. N\u2014H\u22efO hydrogen bonds connect the cations and the anionic chains. O\u2014H\u22efO hydrogen bonds are present in the chain.In the title compound, {(C DOI: 10.1107/S1600536812028826/hy2556Isup2.molSupplementary material file. DOI: 10.1107/S1600536812028826/hy2556Isup3.cdxSupplementary material file. DOI: 10.1107/S1600536812028826/hy2556Isup4.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812028826/hy2556Isup5.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by weak C\u2014H\u22efO inter\u00adactions.In the mononuclear title complex, [Cu(C DOI: 10.1107/S1600536811045636/ff2036Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angles between the benzene rings and the pyrazine ring are 14.66\u2005(8) and 49.76\u2005(12)\u00b0.In the title complex, [Ir(C DOI: 10.1107/S1600536812031546/hy2570Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The cage consists of a mononuclear CuII unit [Cu(Hm-dtc)2], three \u03bc4-bridging Hm-dtc\u2212 ligands, eight CuI ions with distorted tetra\u00adhedral or trigonal pyramidal coordination geometries and four \u03bc2-bridging bromide anions. The incorporated central bromide anion inter\u00adacts with nine Cu ions with shorter Cu\u2014Br separations than the sum of the van der Waals radii for Cu and Br.The reaction of Cu(Hm-dtc) DOI: Click here for additional data file.10.1107/S1600536813009938/is5263Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813009938/is5263Isup4.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811004466/jj2075Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII ion is coordinated by four S atoms of two mnt2\u2212 ligands and exhibits a square-planar coordination geometry.The asymmetric unit of the title complex, (C DOI: 10.1107/S1600536812008161/tk5062Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812033004/lr2073Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The NaI atom has a six-coordinate distorted-octa\u00adhedral environment. Isatine-3-oximate O atoms and water mol\u00adecules bridge adjacent Na atoms, forming a one-dimensional polymeric structure parallel to [100]. Each isatine-3-oxime dimerizes through N\u2014H\u22efO interactions and in addition each oxime is linked to a coordination polymer. Thus, coordination polymers are linked by O\u2014H\u22efO and O\u2014H\u22efN interactions from isatine-3-oxime dimers, building a two-dimensional network parallel to [110]. The reaction of hydroxyl\u00adamine hydro\u00adchloride with isatin in ethanol, catalysed with HCl and neutralized with Na DOI: 10.1107/S1600536811018290/bt5520Isup2.mol Supplementary material file. DOI: 10.1107/S1600536811018290/bt5520Isup3.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CuII ion adopts a CuO2N3 distorted square-pyramidal coordination. An O\u2014H\u22efO hydrogen bond is formed between the methanol solvent mol\u00adecule and the hydrazide O atom of the L 2\u2212 ligand.The title mononuclear complex, [Cu(C DOI: 10.1107/S1600536811054316/kp2374Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecules are connected into a three-dimensional architecture by O\u2014H\u22efO hydrogen bonds. The perchlorate anion is disordered over two positions; the major component has a site-occupancy factor of 0.525\u2005(19).In the structure of the title complex, [Ni(CH DOI: 10.1107/S1600536812007970/tk5060Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812007970/tk5060Isup3.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure is stabilized by van der Waals inter\u00adactions.The Sn atom in the title compound, [Sn(CH DOI: 10.1107/S160053681102561X/bx2356Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Pairs of CdII ions are bridged by two end-to-end inversely bridging \u03bc-NCS-N:S thio\u00adcyanate groups, forming a two-dimensional network with the remaining two trans positions of the octa\u00adhedrally coordinated CdII ions occupied by the N atoms of two neutral 2-meth\u00adoxy\u00adaniline ligands. The crystal structure is stabilized by intra\u00adlayer N\u2014H\u22efS hydrogen bonds.The structure of the title compound, [Cd(NCS) DOI: Click here for additional data file.10.1107/S1600536813010738/rz5058Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813010738/rz5058Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The phenyl ring is rotated by 62.16\u2005(4)\u00b0 with respect to the plane of the quinoline system. In the crystal, O\u2014H\u22efO hydrogen bonds link mol\u00adecules into infinite chains running along the b-axis direction.In the title compound, C DOI: Click here for additional data file.10.1107/S1600536813000226/fy2079Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813000226/fy2079Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The two benzene rings of the biphenyl unit form a dihedral angle of 49.08\u2005(11)\u00b0. In the crystal, mol\u00adecules are linked into [100] chains by C\u2014H\u22efO hydrogen bonds.In the title compound, C DOI: 10.1107/S1600536812018053/hb6749Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812018053/hb6749Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The 4-methoxybenzenesulfonate anions act as bis-chelating and bridging ligands, forming a two-dimensional polymer parallel to (001), which is further linked into a three-dimensional network by weak C\u2014H\u22efO hydrogen bonds.In the title complex, [Na(C DOI: 10.1107/S1600536813025919/lh5648Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810051342/bt5431Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In contrast to the first polymorph , the current study revealed monoclinic symmetry for the second polymorph. The configuration of the tetra\u00adhedral mol\u00adecule shows approximate sC symmetry. Strong O\u2014H\u22efO hydrogen bonds connect the mol\u00adecules to infinite zigzag chains along [010], which are further connected by weak inter\u00admolecular C\u2014H\u22efO contacts into a three-dimensional network.The title compound, C DOI: 10.1107/S1600536811025505/wm2504Isup2.cdx Supplementary material file. DOI: 10.1107/S1600536811025505/wm2504Isup3.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811025505/wm2504Isup4.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, extensive O\u2014H\u22efO and N\u2014H\u22efO hydrogen bonds link the complex cations, nitrate anions and lattice water mol\u00adecules into a three-dimensional network.In the centrosymmetric title compound, [Co(C DOI: Click here for additional data file.10.1107/S1600536813012968/hy2611Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Adjacent SnIV atoms are bridged by the ligands, thereby forming a chain propagating in [010]. In the title polymeric coordination compound, [Sn(CH DOI: 10.1107/S1600536811049713/hb6523Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure displays O\u2014H\u22efO and N\u2014H\u22efO hydrogen bonds, which connect the components into an extended three-dimensional network.In the title complex, [Ni(C DOI: 10.1107/S1600536813032169/jj2177Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The bridging ligand, which is completed by crystallographic inversion symmetry, links the ZnII atoms into zigzag chains propagating in [101]. Within the ligand, the dihedral angle between the central benzene ring and terminal imidazole ring is 27.82\u2005(13)\u00b0.In the title one-dimensional coordination polymer, [ZnCl DOI: 10.1107/S1600536810044429/hb5712Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ligands link the CdII ions into a ribbon-like structure running along [201]. One O atom of the nitrate anion is disordered over two positions with site-occupancy factors of 0.59\u2005(2) and 0.41\u2005(2).In the title compound, [Cd(NO DOI: 10.1107/S1600536811032697/hy2453Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, inter\u00admolecular O\u2014H\u22efO hydrogen bonds link mol\u00adecules into a two-dimensional supramolecular structure parallel to (001).In the title complex, [Zn(C DOI: 10.1107/S1600536811021623/hg5046Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two perchlorate anions are disordered over two sites with a refined occupancy ratio of 0.528\u2005(19):0.472\u2005(19).In the title compound, [Ni(C DOI: 10.1107/S1600536810051627/nk2079Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Coordinated and uncoordinated water mol\u00adecules form O\u2014H\u22efO hydrogen bonds, leading to a three-dimensional framework.In the title compound, [Zn(C DOI: 10.1107/S1600536810017538/is2541Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Adjacent mol\u00adecules are linked by O\u2014H\u22efO hydrogen bonds, forming a chain running along [001].In the title compound, [Sn(C DOI: 10.1107/S1600536813031401/ng5348Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "N\u2014H\u22efCl and O\u2014H\u22efCl hydrogen bonding leads to the formation of layers parallel to (100).The title salt, [Ru(Tp)(CH DOI: Click here for additional data file.10.1107/S1600536812042110/ng5297Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811011226/ru2002Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The organic ligands link inorganic MnII nodes, forming a zigzag chain along the c axis.In the title compound, [Mn(C DOI: 10.1107/S1600536810045587/jh2224Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecule, which has non-crystallographic C2-symmetry, consists of a core structure of two CuI ions, bridged by two iodide ions. Each CuI ion is also coordinated by one equivalent of the chiral bidentate (R)-BINAP ligand . Thus, both cations show a distorted tetra\u00adhedral geometry being surrounded by two I atoms and two P atoms from the (R)-BINAP ligands. The complex consists of isolated butterfly-shaped mol\u00adecules featuring an angle of 146.11\u2005(2)\u00b0 between adjacent CuI2 planes. The structure displays intra\u00admolecular C\u2014H\u22efI hydrogen bonding and contains disordered water. The absolute configuration of this chiral complex was determined by anomalous dispersion effects.The structure of the title compound, [Cu DOI: 10.1107/S1600536812011051/bt5845Isup2.molSupplementary material file. DOI: 10.1107/S1600536812011051/bt5845Isup3.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812011051/bt5845Isup4.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the guanidinate-bridged THF-stabilized dimer the Li\u22efLi separation is short at 2.479\u2005(8)\u2005\u00c5.In the dinuclear centrosymmetric title complex, [Li DOI: 10.1107/S1600536810046477/jj2061Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the structure, centrosymmetrically related mol\u00adecules are linked into dimers by pairs of C\u2014H\u22efN hydrogen bonds.In title compound, C DOI: 10.1107/S1600536813031152/rz5092Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813031152/rz5092Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each YbIII ion is eight-coordinated by two O atoms from two bridging L ligands, four O atoms from two chelating L groups and two N atoms from one chelating phen mol\u00adecule in a distorted YbN2O6 dodeca\u00adhedral geometry.In the centrosymmetric binuclear title complex, [Yb DOI: 10.1107/S1600536811036105/wm2528Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, a dimeric structure is observed as a result of N\u2014H\u22efCl inter\u00adactions between two symmetry-related mol\u00adecules.The single-crystal X-ray structure analysis of [RuCl DOI: 10.1107/S1600536811043170/ff2034Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The methyl group is disordered over two equally occupied positions. In the crystal, N\u2014H\u22efO hydrogen bonds link the mol\u00adecules into infinite C(4) chains running along the a axis.In the title compound, C DOI: 10.1107/S1600536811043315/bt5681Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811043315/bt5681Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by N\u2014H\u22efO hydrogen bonds into a C(4) chain propagating in the b-axis direction.In the title compound, C DOI: 10.1107/S1600536811037123/hb6394Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811037123/hb6394Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure is stabilized by weak inter\u00admolecular C\u2014H\u22efO hydrogen bonds.In the title complex, [Co(C DOI: 10.1107/S160053681102410X/lh5253Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each L ligand is situated on an inversion center and bridges two CoII atoms, forming a zigzag polymeric chain propagating in [10In the title coordination polymer, [Co(C DOI: 10.1107/S1600536810053742/cv5012Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The InIII coordination centers are bridged head-to-head via In\u2014O bonds, yielding four-membered In2O2 rings and zigzag polymeric chains along [001].The title compound, [In DOI: 10.1107/S1600536813028985/lh5663Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813028985/lh5663Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure shows intermolecular N\u2014H\u22efO hydrogen bonds.The title mononuclear complex, [Ni(C DOI: 10.1107/S1600536812019502/im2371Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The bridging mode of the O atoms results in the formation of a three-dimensional framework, stabilized by two O\u2014H\u22efO hydrogen-bonding inter\u00adactions.The title compound, Pr(SO DOI: 10.1107/S1600536811000298/mg2113Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The \u03bc3-2-fluoro\u00adbenzoate ligand bridges three symmetry-related SrII atoms, giving rise to a chain structure extending along [010]. The polymeric chains are connected via O\u2014H\u22efO hydrogen bonds into a two-dimensional supra\u00admolecular structure parallel to (100).In the title compound, {[Sr(C DOI: 10.1107/S1600536811008397/hy2410Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The sixth author's name was written incorrectly. The correct name is: Jalal Nourlil. In the author contributions, \"Performed the experiments\" should read: CT PL MAS EA ME JN AF JEE SVM AR NC AJT ECH HB; \"Analyzed the data\" should read: CT PL MAS EA ME JN AF JEE SVM AR NC AJT ECH HB; \"Contributed reagents/materials/analysis tools\" should read: CT PL MAS EA ME JN AF JEE SVM AR NC AJT ECH HB; and \"Wrote the paper\" should read: CT PL MAS EA ME JN AF JEE SVM AR NC AJT ECH HB."} +{"text": "The eight-membered ring has a slightly distorted boat conformation.The title mol\u00adecule, C DOI: 10.1107/S1600536811014851/lh5233Isup2.hkl Structure factors: contains datablocks I. DOI: 10.1107/S1600536811014851/lh5233Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure is stabilized by N\u2014H\u22efO and C\u2014H\u22efO hydrogen-bonding inter\u00adactions.In the title complex, [Cd(C DOI: 10.1107/S160053681104596X/pv2474Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S160053681104596X/pv2474Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Carene\u2014Si distances are significantly longer than in the analogous non-fluorinated compound. The packing of the mol\u00adecules results in a herringbone motif in the ac plane.The asymmetric unit of the title compound, C DOI: 10.1107/S1600536812010677/mw2055Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812010677/mw2055Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The two aromatic rings make a dihedral angle of 88.5\u2005(3)\u00b0. In the crystal, N\u2014H\u22efO hydrogen bonds link the mol\u00adecules into C(4) chains propagating in [010].In the title compound, C DOI: 10.1107/S1600536811047805/ds2154Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811047805/ds2154Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The MnIII atom possesses a distorted trans-MnO4N2 octa\u00adhedral coordination environment. The bridging ligands lead to [010]-chain polymeric cations {[Mn(HL)2]+}n in the crystal. The charge-balancing iodide ions are disordered over two sites in a 0.690\u2005(2):0.310\u2005(2) ratio and a weak O\u2014H\u22efI hydrogen bond occurs. The crystal studied was found to be a racemic twin.In the title one-dimensional coordination polymer, {[Mn(C DOI: Click here for additional data file.10.1107/S1600536813012695/hb7060Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "One nitro O atom of one picrate ion is disordered over two sites with occupancies of 0.54\u2005(5) and 0.46\u2005(5).In the title complex, [Mn(C DOI: 10.1107/S1600536812026037/bh2434Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The anions bridge adjacent TbIII ions into double chains. Adjacent chains are further connected into sheets parallel to (10In the title coordination polymer, {[Tb(C DOI: 10.1107/S1600536811005447/wm2449Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each DyIII ion is nine-coordinated by one 1,10-phenanthroline mol\u00adecule, one bidentate carboxyl\u00adate group and four bridging carboxyl\u00adate groups in a distorted DyN2O7 monocapped square-anti\u00adprismatic geometry. The title compound is isotypic with its terbium-containing analogue.In the centrosymmetric binuclear title complex, [Dy DOI: 10.1107/S1600536811034696/hb6365Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The correct Reference 45 is:45. Lawson ND, Weinstein BM (2002) In vivo imaging of embryonic vascular development using transgenic zebrafish. Dev Biol 248:307\u2013318."} +{"text": "The HPAA ligands coordinate in a bridging tridentate mode. In the crystal, inter\u00admolecular O\u2014H\u22efO hydrogen bonds form a three-dimensional network which consolidates the packing.In the title compound, {[Ce(C DOI: 10.1107/S1600536810047239/cv2794Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Such dimers are connected via bidentate hydrogen squarate groups [HC4O4]\u2212, leading to chains that propagate along the b axis. Inter- and intra\u00admolecular O\u2014H\u22efO hydrogen bonds maintain the crystal packing through a three-dimensional network.The title structure, {[Ba DOI: 10.1107/S1600536811002996/bq2274Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The C atoms of the THF molecule are disordered over two positions in a 0.55\u2005(2):0.45\u2005(2) ratio.In the mononuclear title compound, [MoCl DOI: 10.1107/S1600536810021690/ez2211Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "These chains are further linked through N\u2014H\u22efO, O\u2014H\u22efO and C\u2014H\u22efO hydrogen bonds to the nitrate anions, forming well-separated infinite planar layers parallel to (001).In the crystal structure of the title compound, C DOI: 10.1107/S1600536811027978/lx2193Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811027978/lx2193Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The perchlorate O-atoms are disordered over two positions in a 0.584\u2005(14):0.416\u2005(14) ratio.In the title complex, [Ag(C DOI: 10.1107/S1600536810025171/su2189Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053681104520X/bt5685Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Difference electron density maps indicate a disorder of the Br atom over two positions in an approximate 0.95:0.05 ratio. However, this disorder could not be resolved satisfactorily with the present data.In the title compound, [Rh(C DOI: 10.1107/S1600536812011944/mw2054Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The ZnII atom shows trigonal\u2013prismatic coordination.In the title coordination polymer, [Zn(C DOI: 10.1107/S1600536812019836/ng5269Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, the mol\u00adecules are linked into a zigzag chain along the a axis via N\u2014H\u22efO hydrogen bonds.In the title compound, C DOI: 10.1107/S1600536812009257/is5084Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812009257/is5084Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Dissertauer 2007. Dissert DOI: 10.1107/S1600536811041237/hp2013Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, strong N\u2014H\u22efO and weak C\u2014H\u22efO hydrogen bonds link the mol\u00adecules into chains running parallel to [010].In the title mol\u00adecule, C DOI: 10.1107/S1600536814003936/hg5385Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814003936/hg5385Isup3.cmlSupporting information file. DOI: 987953CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The nitrate anions form a ring around one pair of double-stacked dications. An intricate three-dimensional N\u2014H\u22efO and N\u2014H\u22ef hydrogen-bonding network exists in the crystal structure.In the title molecular salt, C DOI: 10.1107/S1600536811042917/ez2262Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811042917/ez2262Isup3.mol Supplementary material file. DOI: 10.1107/S1600536811042917/ez2262Isup4.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atom and the two Br atoms are located on a threefold axis.In the title compound, [ZnBr(C DOI: 10.1107/S1600536811011809/rn2081Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The apical positions are occupied by two C atoms of 4-fluoro\u00adbenzyl groups.In the title complex, [Sn(C DOI: 10.1107/S1600536811054274/hp2022Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the components are linked by C\u2014H\u22efBr inter\u00adactions, thereby generating a three-dimensional network.In the title mol\u00adecular salt, (C DOI: 10.1107/S1600536811034830/hb6385Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each CuI atom displays a tetra\u00adhedral coordination environment, formed by one S atom and three N atoms from one 2-(pyridin-2-yldisulfan\u00adyl)pyridine and two dicyanamide ligands. The crystal structure is stabilized by C\u2014H\u22efN hydrogen bonds, forming a three-dimensional network.In the title compound, [Cu(C DOI: 10.1107/S1600536811002728/zq2085Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure represents a second crystal form of the salt, the first being an acetonitrile solvate [Watton :0.1385\u2005(17).The title compound, [Cu(CHtton 2009. Acta Cr DOI: 10.1107/S1600536810042285/fj2351Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The chains are arranged along the b-axis direction, forming a layer structure extending in the bc plane. O\u2014H\u22efO hydrogen bonding between the layers results in the formation of a three-dimensional supra\u00admolecular framework. The structure is isotypic with the Zn analogue .The water-coordinated Ni DOI: 10.1107/S1600536812001900/hp2024Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812001900/hp2024Isup4.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The complex polymeric chains are inter\u00adconnected via inter\u00admolecular water O\u2014H\u22efN hydrogen bonds into a three-dimensional network. In the title compound, [Cd(C DOI: 10.1107/S1600536812014626/kp2399Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The linear mol\u00adecule L acts as a bidente bridging ligand, connecting the metal atoms into a chain along [101].In the title compound, [Cu(CHO DOI: 10.1107/S1600536811024019/rn2086Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The methyl-bearing C atom in the cyclo\u00adpentane ring is disordered over two positions with a site-occupation factor of 0.899\u2005(8) for the major occupied site.The exocyclic C=C double-bond in the title compound, C DOI: 10.1107/S1600536811033708/bt5619Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811033708/bt5619Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each terephthalate ligand acts as a bis-monodentate ligand that binds two CuII atoms, thus forming two unique chains extending parallel to [110]. The imidazole ligands are attached on both sides of the chains.In the title compound, [Cu(C DOI: 10.1107/S1600536811024822/jh2303Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The purpose of this table is to provide the community with a citable record of publications of ongoing genome sequencing projects that have led to a publication in the scientific literature. While our goal is to make the list complete, there is no guarantee that we may have omitted one or more publications appearing in this time frame. Readers and authors who wish to have publications added to this subsequent versions of this list are invited to provide the bibliometric data for such references to the SIGS editorial office. CrenarchaeotaPhylum \u201cMetallosphaera cuprina\u201d Ar-4, sequence accession CP002656 [CP002656 Thermoproteus uzoniensis 768-20, sequence accession CP002590 [\u201cVulcanisaeta moutnovskia\u201d 768-28, sequence accession CP002529 [CP002529 EuryarchaeotaPhylum Methanosaeta concilii, sequence accession CP002565 (chromosome), CP002566 (plasmid) [plasmid) Pyrococcus sp. NA2, sequence accession CP002670 [CP002670 Thermococcus barophilus MP, sequence accession CP002372 (chromosome) and CP002373 plasmid) [plasmid) ChloroflexiPhylum Oscillochloris trichoides DG-6, sequence accession ADVR00000000 [00000000 ProteobacteriaPhylum Achromobacter xylosoxidans A8, sequence accession CP002287 (chromosome), CP002288 (plasmid pA81), and CP002289 (plasmid pA82) [Acinetobacter baumannii 3990, sequence accession AEOY00000000 [Acinetobacter baumannii ST78, sequence accession AEPA00000000 [00000000 Acinetobacter baumannii, sequence accession AEPA00000000 [00000000 Acinetobacter baumannii MDR-TJ, sequence accession AEOE00000000 [00000000 Acinetobacter baumannii TCDC-AB0715, sequence accession CP002522 (chromosome), CP002523 (p1ABTCDC0715) and CP002524 (p2ABTCDC0715) [CDC0715) Salmonella enterica serovar Typhimurium UK-1 ATCC 68169, sequence accession CP002614 (chromosome), CP002615 (plasmid) [plasmid) Acinetobacter calcoaceticus PHEA-2, sequence accession CP002177 [CP002177 Aeromonas caviae Ae398, sequence accession CACP01000001 to CACP01000149 [Aeromonas veronii B565, sequence accession CP002607 [CP002607 Bordetella pertussis CS, sequence accession CP002695 [CP002695 Brucella melitensis M111, sequence accession AFFB00000000 [00000000 Brucella melitensis M28-12, sequence accession AFFA00000000 [00000000 Brucella melitensis M5, sequence accession AFEZ00000000 [00000000 Brucella suis S2, sequence accession AFFC00000000 [00000000 Brucella melitensis M5-90, sequence accession CP001851 and CP001852 [Brucella melitensis M28, sequence accession CP002459 and CP002460 [CP002460 Burkholderia gladioli BSR3, sequence accession CP002599 to CP002604 [CP002604 Burkholderia phytofirmans, sequence accession CP001052 to CP001054 [CP001054 Burkholderia rhizoxinica HKI 0454, sequence accession FR687359 (chromosome), FR687360 (pBRH01), FR687361 (pBRH02) [(pBRH02) Campylobacter jejuni S3, sequence accession CP001960 (chromosome) CP001961 (plasmid) [plasmid) Liberibacter solanacearum, sequence accession CP002371 [Candidatus \u201cCitromicrobium sp.\u201d JLT1363, sequence accession AEUE01000000 [01000000 Cronobacter turicensis LMG 23827, sequence accession NC_013282 to NC_013285 [C_013285 Desulfovibrio africanus Walvis Bay, sequence accession AFHE00000000 [00000000 Desulfovibrio desulfuricans ND132, sequence accession AEUJ00000000 [00000000 Dickeya dadantii 3937, sequence accession CP002038 [CP002038 \u201cEnterobacter mori\u201d LMG 25706, sequence accession AEXB01000000 [01000000 Erwinia amylovora, sequence accession [ccession Erwinia sp. Ejp617, sequence accession CP002124 (chromosome), CP002125 (pJE01), CP002126 (pJE02), CP002127 (pJE03), CP002128 (pJE04), and CP002129 (pJE05) [ (pJE05) Escherichia coli AA86 KACC15541, sequence accession AFET00000000 [00000000 Escherichia coli UM146, sequence accession CP002167 [CP002167 \u201cGallibacterium anati\u201d UMN179, sequence accession CP002667, CP002668 [CP002668 Gluconacetobacter sp. SXCC-1, sequence accession AFCH0000000 [H0000000 Haemophilus para\t SH0165 serovar 5, sequence accession CP001321 [CP001321 Herbaspirillum seropedicae SmR1, sequence accession [ccession Ketogulonicigenium vulgare Y25, sequence accession CP002224 (chromosome), CP002225 (plasmid), and CP002226 (plasmid) [plasmid) Methylocystis sp. sp. Rockwell, sequence accession AEVM00000000 [00000000 Methylophaga thiooxydans DSM010, sequence accession ABXT00000000 [00000000 Methylovorus sp. MP688, sequence accession CP002258 [CP002258 Neisseria gonorrhoeae TCDC-NG08107, sequence accession CP002440 and CP002441 [CP002441 Neisseria meningitidis H44/76, sequence accession AEQZ00000000 [00000000 Neisseria meningitidis WUE2594, sequence accession FR774048 [FR774048 Oceanicaulis sp. HTCC2633, sequence accession AAMQ00000000 [00000000 Paracoccus sp. sp. TRP, sequence accession AEPN00000000 [00000000 Parvularcula bermudensis HTCC2503T, sequence accession CP002156 [CP002156 \u201cPhotobacterium mandapamensis\u201d svers. 1.1, sequence accession BACE01000001 to BACE01000031 [01000031 \u201cPolymorphum gilvum\u201d SL003B-26A1T LMG 25793T, sequence accession CP002568, CP002569 [CP002569 Pseudomonas savastanoi pv. glycinea (Psg) B076, sequence accession AEGG01000000 [01000000 Pseudomonas savastanoi pv. glycinea (Psg) race 4, sequence accession AEGH01000000 [01000000 Pseudomonas sp. S9, sequence accession AFFX00000000 [00000000 Pseudomonas stutzeri DSM4166, sequence accession CP002622 [CP002622 Pusillimonas sp. T7-7, sequence accession [ccession Rhizobium etli CNPAF512, sequence accession AEYZ00000000 [00000000 Rhodobacter sphaeroides WS8N, sequence accession AFER00000000 [00000000 Roseobacter sp. HTCC2038, sequence accession ABXE00000000 [00000000 Rubrivivax benzoatilyticus JA2T, sequence accession AEWG00000000 [00000000 Ruegeria TW15, sequence accession AEYW01000000 [01000000 Salmonella enterica serovar Choleraesuis SCSA50, sequence accession CM001062-CM001063 [CM001063 Salmonella enterica serovar Dublin SD3246, sequence accession CM001151-CM001152 [CM001152 Salmonella enterica serovar Typhimurium 4/74, sequence accession CP002487 - CP002490 [CP002490 Sphingomonas sp. S17, sequence accession AFGG01000000 [01000000 Taylorella equigenitalis MCE9, sequence accession CP002456 [CP002456 Unnamed strain IMCC1989, sequence accession AEVK00000000 Unnamed strain IMCC2047, sequence accession AEGL00000000 Unnamed strain IMCC3088, sequence accession AEIG00000000 Unnamed strain IMCC9063 SAR11 subgroup 3, sequence accession CP002511 Variovorax paradoxus S110, sequence accession [ccession Vibrio anguillarum pJM1, sequence accession AEZA00000000, AEZB00000000, AEZC00000000 [00000000 Vibrio furnissii NCTC 11218, sequence accession CP002377 (chromosome I) and CP002378 (chromosome II) [some II) Vibrio parahaemolyticus clinical O4:K12 serotype, sequence accession AFBW00000000 [00000000 Vibrio rotiferianus strain DAT722, sequence accession [ccession Vibrio vulnificus MO6-24/O, sequence accession CP002469 and CP002470 [CP002470 Yersinia pestis KIM D27, sequence accession ADDC00000000 [00000000 Yersinia enterocolitica 3/O:9, sequence accession CP002246 (chromosome)_CP002247 (pYV plasmid) [plasmid) Yersinia enterocolitica subsp. palearctica 2 serogroup O:3, sequence accession FR729477 (chromosome) FR745874 (plasmid) [FirmicutesPhylum Bacillus amyloliquefaciens LL3, sequence accession CP002634, CP002635 [CP002635 Bacillus amyloliquefaciens TA208, sequence accession CP002627 [CP002627 Bacillus subtilis BSn5, sequence accession CP002468 [CP002468 Bacillus subtilis subsp. spizizenii gtP20b, sequence accession AEHM00000000 [00000000 Bacillus thuringiensis YBT-020, sequence accession CP002508 (chromosome), CP002509 (plasmid pBMB26), CP002510 , CP002654 (pLBU02), CP002655 (pLBU03) [(pLBU03) Lactobacillus casei (EP 164209630B1), sequence accession CP002616 and CP002617 [ EP 1642030B1, seqLactobacillus casei BD-II, sequence accession CP002618 and CP002619 [CP002619 Lactobacillus coryniformis subsp. coryniformis KCTC 3167, sequence accession AELK00000000 [00000000 Lactobacillus delbrueckii subsp. bulgaricus, sequence accession CP000156 [CP000156 Lactobacillus delbrueckii subsp. bulgaricus ND02, sequence accession CP002341 and CP002342 [CP002342 Lactobacillus farciminis KCTC 3681, sequence accession AEOT00000000 [00000000 Lactobacillus helveticus H10, sequence accession CP002429 (chromosome) and CP002430 (plasmid) [plasmid) Lactobacillus plantarum ST-III, sequence accession CP002222 [CP002222 Lactobacillus reuteri ATCC 53608, sequence accession CACS02000000 [02000000 Lactococcus garvieae 21881, sequence accession AFCC01000000 [01000000 Lactococcus garvieae UNIUD074, sequence accession AFHF01000000 [01000000 Lactococcus lactis subsp. lactis CV56, sequence accession CP002365 through CP002370 [CP002370 Leuconostoc fallax KCTC 3537, sequence accession AEIZ00000000 [00000000 Leuconostoc gelidum KCTC 3527, sequence accession AEMI00000000 [00000000 Leuconostoc inhae KCTC 3774, sequence accession AEMJ00000000 [00000000 Listeria monocytogenes J1-220, sequence accession AFBU00000000 [00000000 Listeria monocytogenes J1816, sequence accession AFBU00000000 [00000000 Listeria monocytogenes HCC23, sequence accession CP001175 [CP001175 Melissococcus plutonius ATCC 35311, sequence accession AP012200 (chromosome), AP012201 (plasmid) [plasmid) Ornithinibacillus TW25, sequence accession AEWH00000000 [00000000 Paenibacillus polymyxa SC2, sequence accession CP002213 (chromosome) and CP002214 (plasmid) [plasmid) Staphylococcus aureus O11, sequence accession AEUQ01000000 [01000000 Staphylococcus aureus straub O46, sequence accession AEUR01000000 [01000000 Staphylococcus aureus T0131, ST239-MRSA-SCCmec type III, sequence accession CP002643 [CP002643 Staphylococcus pseudintermedius ED99, sequence accession CP002478 [CP002478 Staphylococcus pseudintermedius HKU10-03, sequence accession CP002439 [CP002439 Streptococcus parauberis KCTC11537BP, sequence accession CP002471 [CP002471 Streptococcus suis JS14, sequence accession CP002465 [CP002465 Streptococcus thermophilus ND03, sequence accession CP002340 [CP002340 Turicibacter sanguinis PC909, sequence accession ADMN00000000 [00000000 Weissella cibaria KACC 11862, sequence accession AEKT01000000 [01000000 TenericutesPhylum Mycoplasma alligatoris A21JP2T, sequence accession NZ_ADNC01000000 [01000000 Mycoplasma crocodyli MP145T, sequence accession CP001991 [CP001991 Mycoplasma bovis PG45 (ATCC 25523), sequence accession CP002188 [CP002188 Mycoplasma haemofelis, sequence accession FR773153 [FR773153 Mycoplasma haemofelis Ohio2, sequence accession AEVA00000000 [00000000 Mycoplasma suis Illinois, sequence accession ADWK01000001 [01000001 Mycoplasma suis KI3806, sequence accession FQ790233 [FQ790233 ActinobacteriaPhylum Bifidobacterium bifidum S17, sequence accession CP002220 [CP002220 Bifidobacterium longum subsp. longum BBMN68, sequence accession CP002286 [CP002286 Corynebacterium pseudotuberculosis I19, sequence accession CP002251 [CP002251 Janibacter sp. HTCC2649, sequence accession AAMN00000000 [00000000 Microbacterium testaceum StLB037, sequence accession AP012052 [AP012052 Mycobacterium bovis BCG, sequence accession later [on later Nocardioides sp. JS614, sequence accession CP000509, CP000508 [CP000508 Saccharopolyspora spinosa NRRL 18395, sequence accession AEYC00000000 [00000000 Streptomyces griseoaurantiacus, sequence accession AEYX01000000 [01000000 Streptomyces griseus XyelbKG-1, sequence accession ADFC00000000 [00000000 Streptomyces sp. PP-C42, sequence accession AEWS01000000 [01000000 Verrucosispora maris AB-18-032, sequence accession CP002638, CP002639 [CP002639 ChlamydiaePhylum Chlamydia pecorum E58, sequence accession CP002608 [CP002608 Chlamydia psittaci 6BC, sequence accession CP002586 (chromosome), CP002587 (plasmid) [plasmid) Chlamydia psittaci Cal10, sequence accession AEZD00000000 [00000000 Chlamydophila psittaci RD1, sequence accession FQ482149 (chromosome) FQ482150 (plasmid) [plasmid) SpirochaetesPhylum Borrelia burgdorferi, sequence accession ABJZ02000001-5 (chromosome) CP001519 (Ip17) CP001518 (IP28-2) CP001523 (Ip28-4) CP001524 (Ip54) CP001522 (for cp26)_CP001517 (cp32-3) CP001520 (cp32-4) ABJZ02000006-7(Ip32-6) CP001521 (cp32-7)_CP001516 (cp32-12) [cp32-12) Treponema paraluiscuniculi Cuniculi A, sequence accession CP002103 [CP002103 FibrobacteresPhylum Fibrobacter succinogenes S85 S85, sequence accession CP001792 [CP001792 BacteroidetesPhylum Algoriphagus sp. PR1, sequence accession AAXU01000000 [01000000 Bacteroides vulgatus PC510, sequence accession ADKO01000000 [01000000 Kordia algicida OT-1, sequence accession ABIB00000000 [00000000 Maribacter sp. HTCC2170, sequence accession CP002157 [CP002157 Riemerella anatipestifer RA-GD, sequence accession CP002562 [CP002562 Riemerella anatipestifer RA-YM, sequence accession AENH00000000 [00000000 VerrucomicrobiaPhylum Akkermansia muciniphila ATCC BAA-835, sequence accession NC_010655 [C_010655 Opitutus terrae PB90-1, sequence accession CP001032 [CP001032 \u201cChthoniobacter flavus\u201d Ellin428, sequence accession ABVL00000000 [00000000 \u201cPedosphaera parvula\u201d Ellin514, sequence accession ABOX00000000 [00000000 LentisphaeraePhylum Victivallis vadensis ATCC BAA-548, sequence accession ABDE02000001-ABDE02000027 [02000027"} +{"text": "Two L ligands coordinate the GdIII ion in a monodentate mode, while the third coordinates it in a bidentate\u2013chelating coordination mode. An extensive three-dimensional O\u2014H\u22efO hydrogen-bonding network consolidates the crystal packing.In the title compound, [Gd(C DOI: 10.1107/S1600536811016163/cv5069Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both the S and Br atoms act as bridging ligands, connecting pairs of CuI atoms and generating chains propagating in [100]. Inter-chain N\u2014H\u22efN hydrogen bonds generate layers in the ac plane. Weak intra-chain N\u2014H\u22efBr inter\u00adactions also occur. In the title coordination polymer, [CuBr(C DOI: 10.1107/S1600536812014444/hb6718Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Inter\u00admolecular N\u2014H\u22efO hydrogen bonding forms a one-dimensional motif parallel to the cell ab diagonal.In the title complex, [Co(NCS) DOI: 10.1107/S1600536811029060/qm2016Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing is stabilized by N\u2014H\u22efCl hydrogen bonds, forming a layered arrangement parallel to (1-10). In the title compound, [CoCl(C DOI: Click here for additional data file.10.1107/S1600536813004650/bt6888Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Both types of DCT ligands act as bridging, forming a one-dimensional polymeric structure propagating parallel to [10In the title compound, {(C DOI: 10.1107/S1600536810051366/lh5182Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The binuclear anion exhibits a pseudo-threefold symmetry and contains two six-coordinate Mn atoms. Each metal atom is coordinated by three facially oriented CO ligands and three doubly-bridging phenolate ligands. The average O\u2014Mn\u2014O bond angle is 74.9\u2005(7)\u00b0 in the Mn2O3 metal\u2013phenolate dimeric core, yielding a distorted octa\u00adhedron for each metal.The title compound, (C DOI: 10.1107/S1600536811029266/bg2415Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Aeromonas sp. MDS8 strain MCC2167) with the ability to produce ammonia during 16 h of growth at 37\u00b0C, isolated from dairy sludge, with a size of 4,841,753 bp and a G+C content of 63.1%, is reported here.The draft genome sequence of an amylase-, protease-, lipase-, oxidase-, and catalase-producing Gram-negative bacillus ( The contigs were submitted to the Rapid Annotations using Subsystems Technology (RAST) ; type IV pilus biogenesis protein PilF; phosphoribosylformylglycinamidine synthase, synthetase subunit (EC 6.3.5.3)/phosphoribosylformylglycinamidine synthase, glutamine amidotransferase subunit (EC 6.3.5.3); small-subunit (SSU) ribosomal protein S1p (accession no. AOTK0100001); DNA mismatch repair protein MutS; ammonium transporter (accession no. AOTK01000007); decarboxylase family protein; DNA polymerase IV; DNA polymerase I (accession no. AOTK01000008); pantothenate:Na+ symporter (TC 2.A.21.1.1) (accession no. AOTK01000018); arsenic resistance protein ACR3 (accession no. AOTK01000020); nitrite reductase [NAD(P)H] large subunit; nitrite reductase [NAD(P)H] small subunit; nitrite transporter NirC (accession no. AOTK01000057); proteinase inhibitor (accession no. AOTK01000070); tRNA binding protein YgjH (accession no. AOTK01000074); putative plasmid replication protein RepB (accession no. AOTK01000104); alkaline phosphatase; NrfC protein; and NrfD protein (accession no. AOTK01000006).The important genes contained in the different contigs are as follows: genes for the ribosome hybernation protein YfiA; ferric uptake regulation protein FUR; NaAOTK01000000. The version described in this paper is the first version, AOTK01000001.This whole-genome shotgun project has been deposited at DDBJ/EMBL/GenBank under the accession no."} +{"text": "The cyclo\u00adpentyl ring in L is disordered over two conformations in a 0.640\u2005(19):0.360\u2005(19) ratio.In the title compound, [Co(C DOI: 10.1107/S1600536811002194/cv5039Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The seven-membered ring adopts a distorted half-chair conformation.In the crystal structure of the title compound, C DOI: 10.1107/S1600536810052888/bt5422Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536813025464/hp2061Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The term \"A\u03b240/42\" is incorrect in the article title.The correct title is: Differential Regulation of Amyloid Precursor Protein/Presenilin 1 Interaction during A\u03b240/42 Production Detected Using Fusion ConstructsThe correct citation is: Sato N, Okochi M, Shinohara M, Thinakaran G, Takeda S, et al. (2012) Differential Regulation of Amyloid Precursor Protein/Presenilin 1 Interaction during A\u03b240/42 Production Detected Using Fusion Constructs. PLoS ONE 7(11): e48551. doi:10.1371/journal.pone.0048551"} +{"text": "DOI: 10.1107/S1600536810025225/hb5520Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure exhibits disorder in one of the ethyl chains, which was refined using a two-site model with 0.70\u2005(6):0.30\u2005(6) occupancy.In the title complex, [Co(NCS) DOI: 10.1107/S1600536812021988/ez2290Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The dihedral angle between the mean planes of the two bipyridine ligands is 87.67\u2005(6)\u00b0.In the title compound, [Cd(C DOI: Click here for additional data file.10.1107/S1600536812044108/lh5540Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The mol\u00adecule contains two fused six-membered rings both in chair conformations. In the crystal, mol\u00adecules are linked into chains running parallel to the a axis by O\u2014H\u22efO hydrogen bonds.The title compound, C DOI: 10.1107/S1600536811053712/bt5751Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811053712/bt5751Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Supporting Information Tables S1-S4 were erroneously omitted. Please see the missing Tables below.Table S1: Click here for additional data file.Table S2: Click here for additional data file.Table S3: Click here for additional data file.Table S4: Click here for additional data file."} +{"text": "The crystal packing exhibits no classical inter\u00admolecular contacts.The asymmetric unit of the title compound, C DOI: 10.1107/S1600536810048981/cv5005Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 3,5-dinitropyridin-4-oxido N-oxide ligand is formally a zwitterionic anion; the anion binds to the metal atom through the N-oxide O atom. The chains are connected into a three-dimensional network by O\u2014H\u22efO hydrogen bonds involving the coordinated and uncoordinated water mol\u00adecules.In the title coordination polymer, {[Nd(C DOI: 10.1107/S1600536810041139/xu5029Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Z. Anor DOI: 10.1107/S1600536812027857/wm2643Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811031199/tk2775Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811031199/tk2775Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810024773/ng2792Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each anion acts as a \u03bc3-bridge, linking symmetry-related CdII ions into a layer parallel to (010). In the crystal, numerous O\u2014H\u22efO and C\u2014H\u22efO hydrogen bonds occur. The coordinated water mol\u00adecules and carboxyl\u00adate O atoms act as donors or acceptors in the formation of these hydrogen-bonding inter\u00adactions.In the title polymer, [Cd(C DOI: 10.1107/S1600536811044187/pv2458Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811044187/pv2458Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In \u201cSerogroup W-135 Meningococcal Disease during the Hajj, 2000,\u201d p. 665, author Sahar Makki was inadvertently not included. The correct author list should read as follows:Jairam R. Lingappa,* Abdullah M. Al-Rabeah,\u2020 Rana Hajjeh,* Tajammal Mustafa,\u2020 Adel Fatani,\u2020 Tami Al-Bassam,\u2020 Amira Badukhan,\u2020 Abdulhafiz Turkistani,\u2020 Sahar Makki,\u2020 Nassen Al-Hamdan,\u2020 Mohamed Al-Jeffri,\u2020 Yaqoub Al Mazrou,\u2020 Bradley A. Perkins,* Tonja Popovic,* Leonard W. Mayer,* and Nancy E. Rosenstein**Centers for Disease Control and Prevention, Atlanta, Georgia, USA\u2020\u2020Saudi Arabian Ministry of Health, Riyadh, Kingdom of Saudi Arabia"} +{"text": "In the crystal, anions and cations are inter\u00adconnected by N\u2014H\u22efBr hydrogen bonds, forming ribbons parallel to [0-11].The structure of the title salt, (C DOI: 10.1107/S1600536812011117/bh2418Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Intra\u00admolecular O\u2014H\u22efO hydrogen bonds are observed in the DHB ligands.In the mononuclear title complex, [Nd(C DOI: 10.1107/S1600536810042583/hy2364Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The anions bridge adjacent HoIII ions into double chains. Adjacent chains are further connected into sheets. O\u2014H\u22efO hydrogen bonds involving both coordinated and uncoordinated water mol\u00adecules generate a three-dimensional supra\u00admolecular framework.In the title coordination polymer, {[Ho(C DOI: 10.1107/S1600536811016953/sj5136Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The PbII atom is in a \u03a8-square-anti\u00adprismaic coordination.In the centrosymmetric binuclear title compound, [Pb DOI: 10.1107/S1600536810032125/ci5151Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the title complex, [Ni(C DOI: 10.1107/S1600536812024749/ru2036Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Some formatting errors occurred in Tables 1, 2, and 3. Please review the correctly formatted tables here:Table 1: [^]Table 2: [^]Table 3: [^]"} +{"text": "The major contributions to the cohesion and the stability of this two-dimensional polymeric structure are the covalent Cd\u2014S,N bonds and one weak intra\u00adlayer N\u2014H\u22efS hydrogen bond.The structure of the title polymeric compound, [Cd(SCN) DOI: 10.1107/S1600536813031255/vn2078Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813031255/vn2078Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The Na+ ion is eight-coordinated by four ligand O atoms and four nitrate O atoms. The ligand links the CuII and Na ions, forming a layered arrangement extending parallel to (001). In the title heterodinuclear complex, [CuNa(C DOI: 10.1107/S1600536811040025/ng5236Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "\u00c5 between pairs of inversion-related mol\u00adecules.The title compound, [Mn(C al. 2006. Inorg. DOI: 10.1107/S1600536810048270/lh5164Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked via pairs of N\u2014H\u22efO hydrogen bonds, forming inversion dimers.In the title compound, [Zn(CH DOI: 10.1107/S1600536812017564/su2407Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Weak cation-to-anion C\u2014H\u22efCl inter\u00adactions generate a three-dimensional network.In the crystal structure of the title mol\u00adecular salt, (C DOI: 10.1107/S1600536811048823/hb6492Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The piperazine-1,4-dicarbodithio\u00adate linker has an almost ideal chair conformation. The geometry about the gold atoms is severely distorted tetra\u00adhedral punctuated by a very acute S\u2014Au\u2014S bite angle.In the title compound, [Au DOI: 10.1107/S1600536811044229/ng5253Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Its structure is isotypic with the MnII, FeII, CoII, NiII, CuII and ZnII analogues. The MgII cation has a slightly distorted octa\u00adhedral geometry containing four N atoms from two 1,10-phenanthroline mol\u00adecules and two N atoms from two thio\u00adcyanate anions. The asymmetric unit contains one-half mol\u00adecule, and the complete complex has 2 symmetry.The title compound, [Mg(NCS) DOI: 10.1107/S1600536810027054/bh2298Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular C\u2014H\u22ef\u03c0 inter\u00adactions are observed in the crystal structure.In the title compound, [Cd(C DOI: 10.1107/S1600536812038433/hy2583Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812038433/hy2583Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The benzene solvent mol\u00adecule is located about a crystallographic inversion centre. The title complex is isostructural with trans-dichloridobis(triphenyl\u00adphosphane)\u00adpalladium(II) 1,4-dichloro\u00adbenzene sesquisolvate .The title complex, [PdCl al. 1983. Acta Cr DOI: 10.1107/S1600536812012494/tk5074Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The central six-membered ring in both mol\u00adecules has a chair conformation with equatorial substituents. In the crystal, mol\u00adecules are linked into [100] C(4) chains of alternating A and B mol\u00adecules by N\u2014H\u22efO hydrogen bonds.The title compound, C DOI: 10.1107/S160053681103515X/hb6389Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S160053681103515X/hb6389Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The TbIII ion adopts a doubly-capped square-anti\u00adprismatic coord\u00adination environment defined by three chelating nitrate anions and two N,O-bidentate nitronyl nitroxide radical ligands. Weak C\u2014H\u22efO hydrogen bonds connect the molecules into a three-dimensional framework. The title structure is isotypic with the Ho analogue .The title compound, [Tb(NO [Li 2012. Acta Cr DOI: Click here for additional data file.10.1107/S1600536812040287/mw2078Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The bridging ligands link metal centres, forming a three-dimensional network which is stabilized by inter\u00admolecular O\u2014H\u22efN hydrogen-bonding inter\u00adactions.In the title polymeric complex, [Cd(C DOI: 10.1107/S1600536810027406/rz2474Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812011749/ff2059Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The ferrocenyl\u00adimine moieties are trans to each other.The title compound, [Fe DOI: 10.1107/S1600536812009191/pk2391Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The two benzene rings of the biphenyl unit form a dihedral angle of 55.99\u2005(8)\u00b0. There are no significant hydrogen bonds observed in the crystal of this compound.In the title compound, C DOI: 10.1107/S1600536812018065/hb6748Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812018065/hb6748Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The octa\u00adhedra are connected by malonate anions, forming chains along the c-axis direction. O\u2014H\u22efO hydrogen bonds link these chains into a three-dimensional network.In the title compound, [Mg(C DOI: 10.1107/S1600536813034193/kj2236Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The crystal structure is characterized by polymeric zigzag chains running parallel to [2-10] and is stabilized by O\u2014H\u22efO hydrogen bonds.In the title complex, {[Zn(C DOI: 10.1107/S1600536812025068/bt5933Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "A NiP2N rhombus occurs within the chelating ligand.In the title complex, [NiCl DOI: 10.1107/S1600536811042760/hb6453Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure exhibits alternating organic and inorganic layers parallel to and 3.9340\u2005(15)\u2005\u00c5].In the title compound, (C DOI: 10.1107/S1600536811007252/hy2408Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cation is connected to the anion via three-center N\u2014H\u22efCl hydrogen bonds.In the title compound, (C DOI: 10.1107/S1600536811025347/gk2387Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811001759/ng5084Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the anion, three BiIII ions adopt an octa\u00adhedral coordination constructed by six I\u2212 ligands. The three BiI6 octa\u00adhedra are fused together through trans face-sharing.In the title complex, [Co(C DOI: 10.1107/S1600536811033460/om2460Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The morpholine ring adopts a chair conformation.In the title complex, [ZnBr DOI: 10.1107/S1600536811002753/su2250Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the fluoro\u00adbenzene rings is 69.10\u2005(15).In the title mol\u00adecule, C DOI: 10.1107/S1600536812010744/hb6677Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812010744/hb6677Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Weak inter\u00admolecular C\u2014H\u22efO hydrogen bonding is present in the crystal structure.In the title compound, [Bi(C DOI: 10.1107/S1600536811021039/xu5208Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811021039/xu5208Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "These ligands bridge the NiII complex units, forming zigzag chains along the c axis. Adjacent chains are linked by O\u2014H\u22efO hydrogen bonds, forming a three-dimensional supra\u00admolecular network.In the title compound, [Ni(CHO DOI: 10.1107/S1600536811012281/bq2289Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810027236/lh5081Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Hydrogen bonding between hy\u00addroxy H and carboxyl\u00adate O atoms results in a layer structure parallel to the ab plane.In the title compound, [Cu(C DOI: 10.1107/S1600536811023038/om2435Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the components are connected by O\u2014H\u22efN hydrogen bonds, forming a chain in the b-axis direction.The title co-crystal, C DOI: 10.1107/S1600536811029308/vm2111Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymmetric unit comprises one Zr, one La and four S atoms. The Zr and three S atoms are situated on mirror planes. The structure consists of LaS8 face-sharing bicapped distorted trigonal prisms and ZrS7 edge-sharing monocapped octa\u00adhedra.Zirconium(IV) dilanthanum(III) penta\u00adsulfide, ZrLa DOI: 10.1107/S1600536811045193/wm2549Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the molecules are linked by C\u2014H\u22efO and C\u2014H\u22efBr inter\u00adactions.The non-H atoms of the title compound, C DOI: 10.1107/S1600536811030960/bt5592Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811030960/bt5592Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, complex mol\u00adecules are linked via inter\u00admolecular O\u2014H\u22efO hydrogen bonds, forming chains along [100].In the title complex, [Sn(C DOI: 10.1107/S1600536811011184/lh5223Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "III atom in the anion of the title complex, (C9H14N)[Ni(C4N2S2)2], is coordinated by four S atoms of two maleonitrile\u00addithiol\u00adate ligands, and exhibits a square-planar coordination geometry.The Ni DOI: 10.1107/S1600536811042103/tk2798Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the mol\u00adecules pack in layers parallel to (10The title compound, C DOI: 10.1107/S1600536810024311/fk2020Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the 2-[(propan-2-yl\u00adoxy)\u00adcarbon\u00adyl]quinolin-1-ium cation is linked to the Sn complex anion by an N\u2014H\u22efO hydrogen bond.In the title salt, (C DOI: 10.1107/S1600536812019496/xu5530Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The overall coordination sphere of the Hg+ atom is a considerably distorted octa\u00adhedron. The crystal specimen under investigation was twinned by non-merohedry with a refined twin domain fraction of 0.853\u2005(14):0.147\u2005(14).The crystal structure of mercurous iodide, Hgurst 1926. J. Am. DOI: 10.1107/S1600536811056339/wm2566Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, the mol\u00adecules are connected by O\u2014H\u22efN hydrogen bonds into centrosymmetric dimers. The amino H atom is not involved in hydrogen bonding.The dihedral angle between the two phenyl rings in the title compound, C DOI: 10.1107/S1600536812002012/bt5789Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812002012/bt5789Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, the carboxyl\u00adate groups act as bridging ligands, forming a two-dimensional polymer parallel to (001). The aqua ligand, which lies on a twofold rotation axis, forms inter\u00admolecular O\u2014H\u22efO hydrogen bonds within these layers. In the title compound, [K DOI: 10.1107/S1600536812008963/lh5422Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Conventional O\u2014H\u22efO hydrogen bonds link the complex mol\u00adecules, forming layers parallel to the ab plane.In the monomeric title complex, [Cu(C DOI: 10.1107/S160053681100064X/bt5450Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each GdIII ion is nine-coordinated by one 1,10-phenanthroline mol\u00adecule, one bidentate chelating carboxyl\u00adate group and four bridging carboxyl\u00adate groups in a distorted GdN2O7 monocapped square-anti\u00adprismatic geometry.In the centrosymmetric binuclear title complex, [Gd DOI: 10.1107/S1600536811036130/wm2524Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811042061/ng5233Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complete dianionic ligand is generated by crystallographic twofold symmetry. In the crystal, a two-dimensional supra\u00admolecular structure parallel to (001) is formed through O\u2014H\u22efO hydrogen-bond inter\u00adactions between the coordinated water mol\u00adecules and the O atoms of nearby carboxyl\u00adate groups.In the title compound, [Ni(C DOI: 10.1107/S1600536811016400/hb5864Isup2.hkl Structure factors: contains datablocks I. DOI: 10.1107/S1600536811016400/hb5864Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053681100849X/jh2269Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure is stabilized by inter\u00admolecular N\u2014H\u22efO hydrogen bonds, which link the mol\u00adecules into chains running along the c axis.In the title compound, C DOI: 10.1107/S1600536811044904/bt5690Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811044904/bt5690Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each TbIII ion is nine-coordinated by one 1,10-phenanthroline mol\u00adecule, one bidentate carboxyl\u00adate group and four bridging carboxyl\u00adate groups in a distorted TbN2O7 monocapped square-anti\u00adprismatic geometry.In the centrosymmetric binuclear title complex, [Tb DOI: 10.1107/S1600536811032041/hb6349Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked via O\u2014H\u22efO hydrogen bonds into a two-dimensional network parallel to (10In the title complex, [Ni(C DOI: 10.1107/S1600536811041134/lh5343Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811033800/lh5314Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Within the two-dimensional complex polymer which is parallel to (100), coordinating water mol\u00adecules form inter\u00admolecular O\u2014H\u22efO hydrogen bonds with carboxyl\u00adate and phen\u00adoxy O-atom acceptors, as well as with the partial-occupancy solvent water mol\u00adecules.In the title compound, {[Mg(C DOI: 10.1107/S1600536812035246/lh5512Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812035246/lh5512Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812018831/aa2053Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, weak C\u2014H\u22efO hydrogen bonds between the meth\u00adoxy groups connect adjacent mol\u00adecules, giving chains which extend along [001].In the title compound, C DOI: 10.1107/S1600536812036288/zs2220Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812036288/zs2220Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The solvent mol\u00adecules are linked by hydrogen bonds.The title dinuclear centrosymmetric complex, [Hg DOI: 10.1107/S160053681102040X/kp2329Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A supra\u00admolecular chain aligned along [101] mediated by charge-assisted O/N\u2014H\u22efCl\u2212 hydrogen bonds features in the crystal packing. Chains are connected into a three-dimensional architecture by C\u2014H\u22efO(hy\u00addroxy) inter\u00adactions.In the title salt, C DOI: 10.1107/S1600536814004565/hg5387Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814004565/hg5387Isup3.cmlSupporting information file. DOI: 988939CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The resulting cationic complex and the 3,5-dimethyl\u00adbenzoate anion are inter\u00adconnected by N\u2014H\u22efO hydrogen bonds.In the title compound, [Pd(C DOI: 10.1107/S1600536810028369/bt5293Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812013049/mw2060Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal N\u2014H\u22efN hydrogen bonds link the mol\u00adecules into chains. Weak C\u2014H\u22efN inter\u00adactions are also present.In the title compound, C DOI: 10.1107/S1600536812037816/xu5598Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812037816/xu5598Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The metal atoms each show a distorted square-pyramidal coordination geometry. Intra\u00admolecular O\u2014H\u22efO hydrogen bonds occur. In the crystal, O\u2014H\u22efO hydrogen bonds join the components into a chain extending along the a axis.In the title compound, [Cu DOI: 10.1107/S1600536811041481/gk2407Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular O\u2014H\u22efO hydrogen bonds form an extensive three-dimensional hydrogen-bonding network, which consolidates the crystal packing.In the dinuclear title complex, [Fe DOI: 10.1107/S1600536810041966/cv2763Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecule contains two fused (trans) six-membered rings which both exibit a chair conformation. In the crystal, mol\u00adecules are linked into chains along [100] by weak C\u2014H\u22efO hydrogen bonds involving the methyl and carbonyl groups.The title compound, C DOI: 10.1107/S1600536812029303/fj2573Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812029303/fj2573Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The zinc cation is coordinated by four N atoms of two terminal N-bonded thio\u00adcyanate anions and of two symmetry-related 3-methyl\u00adpyridine co-ligands, defining a slightly distorted tetra\u00adhedral coordination polyhedron.The asymmetric unit of the title compound, [Zn(NCS) DOI: 10.1107/S1600536811024561/wm2500Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the constituent units are linked into a two-dimensional network parallel to the ab plane by N\u2014H\u22efO and O\u2014H\u22efO hydrogen bonds.In the title compound, C DOI: 10.1107/S1600536811035537/ci5198Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811035537/ci5198Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the complex mol\u00adecules are linked by O\u2014H\u22efO hydrogen bonds between the water and sulfato ligands, forming a three-dimensional network.The title complex, [Mn al. 1995. Inorg. al. 1996. Polyhed DOI: 10.1107/S160053681103604X/is2772Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The carboxyl\u00adate group and the hy\u00addroxy group form O\u2014H\u22efO hydrogen bonds, generating a head-to-tail chain along the b axis. Neighbouring hydrogen-bonded chains are linked by the water mol\u00adecule, generating two independent O\u2014H\u22efO donor hydrogen bonds. The carboxyl\u00adate group thus constructs a hydrogen-bonded host layer parallel to (10In the title compound, C DOI: 10.1107/S1600536811024044/fj2433Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811024044/fj2433Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The nuclei are 3.122\u2005(2)\u2005\u00c5 apart. The mol\u00adecule exhibits a twofold rotation axis.The title compound, [Au DOI: 10.1107/S1600536811028856/bg2412Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII atom is coordinated by three N atoms and one O atom [Ni\u2014O = 1.859\u2005(2)\u2005\u00c5], resulting in a pseudo-square-planar coordination environment.The title compound, [Ni(C DOI: 10.1107/S1600536812026827/im2378Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811011974/gk2354Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The five-membered chelate ring adopts a twisted conformation. In the crystal, weak C\u2014H\u22efCl hydrogen bonds link the mol\u00adecules into (001) sheets.In the title complex, [PtCl DOI: Click here for additional data file.10.1107/S1600536812048295/hb7001Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the complex, the two coordinated benzotriazole rings rings are nearly perpendicular, the dihedral angle between their planes being 87.08\u2005(6)\u00b0.In the crystal structure of the title coordination compound, [Ag(NO DOI: 10.1107/S1600536812006368/vn2026Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The TiIV atom is coordinated by two fully deprotonated O,N,O\u2032-tridentate phen\u00adoxy\u00adamine ligands in a distorted octa\u00adhedral environment. Within this arrangement the O atoms occupy the equatorial sites and the N atoms the axial sites. One of the toluene mol\u00adecules is disordered over two sets of sites in a 0.628\u2005(18):0.372\u2005(18) ratio.The title compound, [Ti(C DOI: Click here for additional data file.10.1107/S1600536813007022/br2221Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813007022/br2221Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The methyl groups are disordered over two equally occupied positions. In the crystal, inter\u00admolecular N\u2014H\u22efO hydrogen bonds link the mol\u00adecules into infinite chains running along the a axis.In the title compound, C DOI: 10.1107/S1600536811040967/bq2308Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811040967/bq2308Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "One of the thienyl groups and the bound THF are disordered with 0.5:0.5 occupancy. The free THF is disordered around the threefold axis.In the mononuclear title compound, [Tb(C DOI: 10.1107/S160053681104623X/nc2251Isup2.cdx Supplementary material file. DOI: 10.1107/S160053681104623X/nc2251Isup3.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination around the Rh atom shows a slightly distorted square-planar arrangement.In the title compound, DOI: 10.1107/S1600536811038505/mw2021Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810047628/zq2074Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Mol\u00adecules are packed in positions of least steric hindrance, with the phosphane ligands positioned above and below the Rh\u2013acetyl\u00adacetonate backbone.The title compound, [Rh(C DOI: 10.1107/S1600536811050483/mw2037Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, weak C\u2014H\u22efO inter\u00adactions link the mol\u00adecules into zigzag chains propagating in [100].In the title compound, C DOI: 10.1107/S160053681303033X/cv5435Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S160053681303033X/cv5435Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The VV atom is five-coordinated by N,O,O\u2032-donor atoms of the Schiff base ligand, one meth\u00adoxy O atom and one oxide O atom, forming a square-pyramidal geometry.The title oxidovanadium(V) complex, [V(C DOI: 10.1107/S1600536811050173/qm2035Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Adjacent Sn atoms are bridged by the two O atoms of the carboxylate ligand, forming a chain structure along the a-axis direction.In the title polymeric coordination compound, [Sn(CH DOI: 10.1107/S160053681104918X/kp2369Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bond lengths and bond angles are within normal ranges. The dihedral angle between the least-squares planes of the aromatic rings within each ligand is 82.76\u2005(17)\u00b0.In the title Schiff base complex, [Zn(C DOI: Click here for additional data file.10.1107/S1600536812043930/ds2215Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812011786/bt5848Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The mol\u00adecules assume an approximate propellar shape, with the three aromatic rings being bent with respect to the plane formed by the C atoms that are connected to the methine C atom .The title compound, C DOI: 10.1107/S1600536812003698/bt5804Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812003698/bt5804Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Extensive hydrogen bonds establish a layered network structure extending parallel to (001).In the three-dimensional tetra\u00adchloro\u00adphthalate-bridged title complex [Er(C DOI: 10.1107/S1600536812016923/bt5856Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810047501/nc2197Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each LaIII ion is nine-coordinated by one 1,10-phenanthroline mol\u00adecule, one bidentate chelating carboxyl\u00adate group and four bridging carboxyl\u00adate groups in a distorted LaN2O7 monocapped square-anti\u00adprismatic geometry.In the centrosymmetric binuclear title complex, [La DOI: 10.1107/S1600536811036117/wm2525Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Correction to:British Journal of Cancer (2011) 104, 188\u2013192; doi:10.1038/sj.bjc.6605911Upon publication in early 2011, the authors noticed a small error in the Methods section regarding the ATC codes for genotoxic and non-genotoxic TCA drugs, which may have caused some confusion for readers. The corrected text is presented below:The list of ATC codes for TCA drugs should read:TCAs (genotoxic) : desipramine (N06AA01), imipramine (N06AA02), imipramine oxide (N06AA03), clomipramine (N06AA04), opipramol (N06AA05), trimipramine (N06AA06), doxepine (N06AA12), amoxapine (N06AA17), lofepramine (N06AA07); TCAs (non-genotoxic) : amitriptyline (N06AA09), nortriptyline (N06AA10), protriptyline (N06AA11), dosulepine (N06AA16)\u2019.\u2018"} +{"text": "In the crystal structure, symmetry-related mol\u00adecules are linked by N\u2014H\u22efO hydrogen bonds, generating a three-dimensional network.In the title complex, [Ni(C DOI: 10.1107/S1600536810041577/lh5153Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The resulting graph-set descriptor of this ring system is R22(10). The nitrate counter-anions connect the dicationic dimers via N\u2014H\u22efO hydrogen bonds, forming two-dimensional networks in the bc plane.In the crystal of the title salt, C DOI: 10.1107/S1600536813027694/lh5656Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813027694/lh5656Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811043972/ff2038Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the complex exhibits a zigzag chain structure running parallel to the c axis. An intra\u00adchain C\u2014H\u22efO hydrogen bond is observed.In the polymeric title coordination compound, [Sn(C DOI: 10.1107/S1600536811049245/rz2663Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymmetric unit comprises one Eu3+ cation, two aqua ligands and one and a half thiophene-2,5-dicarboxylate anions . The Eu3+ cation is eight-coordinated in a distorted dodeca\u00adhedral geometry. The crystal structure features O\u2014H\u22efO hydrogen bonds.The three-dimensional coordination polymer, [Eu DOI: 10.1107/S1600536812029546/rk2364Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "A weak intra\u00admolecular C\u2014H\u22efO inter\u00adaction is noted. The crystal studied was a racemic twin.The structure of the title compound, [Pd(C DOI: 10.1107/S1600536812040068/tk5150Isup2.molSupplementary material file. DOI: 10.1107/S1600536812040068/tk5150Isup3.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal structure, C\u2014H\u22efCl hydrogen-bonding inter\u00adactions connect the mol\u00adecules into a three-dimensional network.In the title compound, [CdCl DOI: 10.1107/S1600536810043163/pv2344Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination geometry at the RhI ion is distorted square-planar. The toluene solvent mol\u00adecule is disordered over two different orientations, with site-occupation factors of 0.810\u2005(2) and 0.190\u2005(2).The reaction of (\u03b7 DOI: 10.1107/S1600536812002851/bt5795Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810021859/hg2685Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The water mol\u00adecules and the organic cations inter\u00adact with the [ZnCl4]2\u2212 complex anions, building up a two-dimensional hydrogen-bonded network parallel to (100).In the title compound, (C DOI: 10.1107/S1600536811017478/dn2685Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII atom is coordinated in a slightly distorted square-planar geometry by two O atoms and two N atoms from two 2-[imino\u00ad(phen\u00adyl)meth\u00adyl]-5-meth\u00adoxy\u00adphenolate ligands. The dihedral angle between the symmetry-unique phenyl and benzene rings is 73.2\u2005(1)\u00b0.The title complex, [Ni(C DOI: Click here for additional data file.10.1107/S1600536812043061/lh5543Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536812043061/lh5543Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure exhibits parallel stacking of the diammonium dication in its packing arrangement, together with inorganic\u2013organic layering that is typical of these n-alkyl\u00addiammonium salts. An intricate three-dimensional hydrogen-bonding network exists in the crystal structure where the hydrogen bonds link the cation and anion layers together through the sulfate anions and the water mol\u00adecules.The crystal structure of the title compound, C DOI: 10.1107/S1600536811030030/zk2015Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811030030/zk2015Isup3.mol Supplementary material file. DOI: 10.1107/S1600536811030030/zk2015Isup4.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure features polymeric chains running along the b axis which are stabilized by N\u2014H\u22efN hydrogen bonds.In the title coordination polymer, [Hg(NCS) DOI: 10.1107/S1600536812016790/bt5873Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the chain, the Cd2+ cation is coordinated by four bridging Cl\u2212 ligands in equatorial positions and two N atoms from symmetry-related and likewise bridging 1,3-bis\u00ad(imidazol-1-yl)propane ligands in axial positions, forming a distorted CdCl4N2 octa\u00adhedron.The title complex, [CdCl DOI: 10.1107/S1600536812021083/wm2624Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each L ligand also lies across an inversion center and bridges two CdII ions, forming infinite two-dimensional recta\u00adngular layers running parallel to (010).In the title coordination polymer, [CdCl DOI: 10.1107/S1600536811027036/gw2103Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cd atom in the complex [Cd(Se4)2]2\u2212 anion is tetra\u00adhedrally coordinated by two chelating tetra\u00adselenide ligands, and both CdSe4 rings exhibit an envelope conformation.The title compound, (EtMe DOI: 10.1107/S1600536811007227/zl2349Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, O\u2014H\u22efO hydrogen bonds link the mol\u00adecules into a layer structure parallel to (-101).In the title compound, [Zn(C DOI: Click here for additional data file.10.1107/S1600536812045357/vn2058Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure is stabilized by intermolecular O\u2014H\u22efN hydrogen bonds involving the coordinated water mol\u00adecules and the N atoms of the tetra\u00adzolide group.In the title complex, [Mn(C DOI: 10.1107/S1600536811047428/pv2481Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811047428/pv2481Isup4.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The TbIII atom displays a dodecahedral geometry, while the MoV ion exhibits a distorted square-anti\u00adprismatic geometry. The Tb atoms are located on a special position of site symmetry In the title compound, [Tb(C DOI: 10.1107/S1600536811020022/bt5505Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two H2mbidc ligands bridge two ZnII atoms, generating a double-chain along [In the title compound, {[Zn(C DOI: 10.1107/S1600536811006532/hy2396Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The pyrazole rings have a 21.09\u2005(5)\u00b0 angle between their mean planes and exhibit a trans-like geometry in which the in-plane lone pairs of electrons on the 2-N nitrogen atoms point in opposite directions. The title compound, C DOI: 10.1107/S1600536812032801/zq2175Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812032801/zq2175Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Multiple figures in the article contain errors. Please see corrected versions of those figures here: Figure 1: Figure 2: Figure 3: Figure 4: Figure 5: Figure 6: Figure 7: Figure 8: Figure 9:"} +{"text": "The 4,4\u2032-bpy ligand has an inversion center at the mid-point of the central C\u2014C bond. The PbII atoms are linked by bidentate bridging 4,4\u2032-bpy into a chain along [101]. These chains are further connected into layers via C\u2014H\u22efO hydrogen bonds.In the title complex, [Pb(C DOI: 10.1107/S1600536811035021/hy2458Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536812035362/tk5138Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812035362/tk5138Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal structure, carboxyl\u00adate bridges link the metal atoms, forming zigzag chains parallel to the b axis.In the title polymeric coordination compound, [Sn(CH DOI: 10.1107/S1600536810047835/rz2525Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecular structure is comprised of two hydro\u00adtris\u00ad(1-pyrazol\u00adyl)borate ligands (Tp\u2212) and a central FeII ion, which is coordinated by six pyrazole N atoms from two two Tp\u2212 ligands, yielding a distorted bipyramidal FeN6 geometry. The complete molecule exhibits symmetry 2/m.The title compound, [Fe(C al. 1980. Inorg. DOI: 10.1107/S1600536811025839/hg5058Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both Ni atoms are located on crystallographic centres of inversion.The title compound, [Ni(C DOI: 10.1107/S1600536811028510/im2294Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging ligands generate a three-dimensional structure.In the title coordination polymer, [Zn(C DOI: 10.1107/S1600536810042406/ng5050Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each heptanedioato ligand bridges three Mg atoms, generating polymeric layers parallel to the bc plane. The polymeric layers related by translation along the a axis inter\u00adact further via O\u2014H\u22efO hydrogen bonds, which consolidate the crystal packing.In the title compound, [Mg DOI: 10.1107/S1600536811015492/cv5076Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, O\u2014H\u22efCl hydrogen bonds link the mol\u00adecules into [100] chains.In the title compound, [NiCl DOI: 10.1107/S160053681103128X/hb6336Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810038298/hb5649Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "C\u2014H\u22efO\u2014H inter\u00adactions.The title compound, [Fe(C al. 2006. Acta Cr DOI: 10.1107/S1600536811047775/tk5015Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "An intramolecular C\u2014H\u22efO hydrox\u00adyl\u2013carboxyl hydrogen bond occurs in the anion.In the structure of the title salt, C DOI: 10.1107/S1600536810024888/ez2219Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecular conformation is stabilized by intra\u00admolecular O\u2014H\u22efO hydrogen bonds.In the title compound, [Ni(HCOO) DOI: 10.1107/S1600536811050859/vm2139Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the pyridine and the cyclo\u00adpropyl rings is 95.4\u2005(8)\u00b0.In the title compound, [ZnBr DOI: 10.1107/S1600536810025201/hb5526Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, weak C\u2014H\u22efF hydrogen bonds link the complex cations and hexa\u00adfluorido\u00adphosphate anions into a three-dimensional supra\u00admolecular structure.In the title compound, [CoRu(C DOI: 10.1107/S1600536813028195/hy2638Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The dihedral angle between the mean planes of the two coordinating ligands is 83.65\u2005(5)\u00b0. The crystal packing is consolidated by weak C\u2014H\u22efN hydrogen-bonding inter\u00adactions.In the title compound, [Zn(C DOI: 10.1107/S1600536812009592/wm2598Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, extensive O\u2014H\u22efO hydrogen-bonding inter\u00adactions result in a three-dimensional supra\u00admolecular architecture.In the title compound, [Ce(C DOI: 10.1107/S1600536811052688/ez2275Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 1,1\u2032-methyl\u00adenebis(1H-imidazole) ligands adopt a bis-monodentate bridging mode linking two CoII atoms.The title compound, [Co DOI: 10.1107/S1600536811010610/jh2275Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular O\u2014H\u22efO hydrogen bonds generate a three-dimensional hydrogen-bonding network, which consolidates the crystal packing.The asymmetric unit of the title compound, [Co(C DOI: 10.1107/S1600536810023810/cv2723Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the mean planes of the two coordinating ligands is 85.65\u2005(5)\u00b0. Weak C\u2014H\u22efS hydrogen bonds are also observed.The title compound, [Zn(C DOI: 10.1107/S1600536812013529/wm2612Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The octahedral [Zn(H2O)6]2+ cations, solvent water mol\u00adecules and anions inter\u00adact via O\u2014H\u22efO hydrogen bonds, forming a three-dimensional network.The title compound, [Zn(H DOI: 10.1107/S1600536810027972/jh2181Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 4,4\u2032-diazenediyldibenzoate anions do not coordinate to Ag. O\u2014H\u22efO hydrogen bonds stabilize the crystal structure.In the title compound, [Ag DOI: 10.1107/S1600536811008816/bt5474Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The purpose of this table is to provide the community with a citable record of publications of ongoing genome sequencing projects that have led to a publication in the scientific literature. While our goal is to make the list complete, there is no guarantee that we may have omitted one or more publications appearing in this time frame. Readers and authors who wish to have publications added to this subsequent versions of this list are invited to provide the bibliometric data for such references to the SIGS editorial office. CrenarchaeotaPhylum EuryarchaeotaPhylum Pyrococcus yayanosii CH1, sequence accession CP002779 Pantoea ananatis LMG20103, sequence accession CP001875 [Helicobacter bizzozeronii strain CIII-1, sequence accession FR871757 (chromosome) and FR871758 (HBZ-1) [ (HBZ-1) Vibrio anguillarum 775, sequence accession CP002284 to CP002285 [CP002285 Zymomonas mobilis subsp. pomaceae, sequence accession CP002865 (chromosome), CP002866 (p29192_1), CP002867 (p29192_2) [29192_2) Agrobacterium sp. strain ATCC 31749, sequence accession AECL01000000 [01000000 Xanthomonas spp. strain Xrc, sequence accesssion CP002789 [CP002789 Xanthomonas spp. strain Xoc, sequence accesssion AAQN00000000 [00000000 Glaciecola sp. Strain 4H-3-7+YE-5, sequence accession CP002526 (chromosome) and CP002527 (plasmid) [plasmid) Escherichia coli Strain HM605, sequence accession CADZ01000001 through CADZ01000154 [01000154 Salinisphaera shabanensis, sequence accession AFNV00000000 [00000000 Methyloversatilis universalis FAM5T, sequence accession AFHG00000000 [00000000 Alicycliphilus denitrificans Strain BC, sequence accession CP002449 (chromosome), CP002450 (megaplasmid), CP002451 (plasmid) [plasmid) .Alicycliphilus denitrificans K601T, sequence accession CP002657 (chromosome) and CP002658 (plasmid) [plasmid) Oligotropha carboxidovorans Strain OM4, sequence accession CP002821 (chromosome), CP002822 (pHCG3b), CP002823 (pOC167B) [pOC167B) Oligotropha carboxidovorans Strain OM5, sequence accession CP002826 (chromosome), CP002827 (pHCG3), and CP002828 (pOC167) Bradyrhizobiaceae strain SG-6C, sequence accession AFOF01000000 [01000000 Hyphomicrobium sp. Strain MC1, sequence accession FQ859181 [FQ859181 Shewanella sp. Strain HN-41, sequence accession AFOZ01000000 [01000000 Myxococcus fulvus HW-1, sequence accession CP002830 [CP002830 Nitrosomonas sp. Strain AL212, sequence accession NC_015222 (chromosome), NC_015223 pNAL21201), NC_015221 (pNAL21202) [AL21202) Ruegeria sp. Strain KLH11, sequence accession ACCW00000000 [00000000 Acidovorax avenae subsp. avenae RS-1, sequence accession AFPT01000000 [01000000 Escherichia coli (ExPEC), sequence accession AFAT00000000 [00000000 Vibrio mimicus SX-4, sequence accession ADOO01000000 [01000000 Agrobacterium tumefaciens Strain F2, sequence accession AFSD00000000 [00000000 Pasteurella multocida subsp. gallicida AFRR01000001 to AFRR01000489 [01000489 Pseudomonas aeruginosa 138244, sequence accession AEVV00000000 [00000000 Pseudomonas aeruginosa 152504, sequence accession AEVW00000000 [00000000 Campylobacter jejuni strain 305, sequence accession ADHL00000000 [00000000 Campylobacter jejuni strain DFVF1099, sequence accession ADHK00000000 [00000000 Xanthomonas campestris pv. raphani strain 756C, sequence accession CP002789 [CP002789 Xanthomonas campestris pv. raphani strain BLS256, sequence accession AAQN01000001 [01000001 Rickettsia heilongjiangensis, sequence accession CP002912 [CP002912 Acidiphilium sp. Strain PM (DSM 24941), sequence accession AFPR00000000 [00000000 Pseudomonas putida Strain S16, sequence accession CP002870 [CP002870 Acinetobacter lwoffii, sequence accession AFQY01000000 [01000000 FirmicutesPhylum Caldalkalibacillus thermarum strain TA2.A1, sequence accession AFCE00000000 [00000000 Listeria monocytogenes Scott A, sequence accession AFGI00000000 [00000000 Lactococcus garvieae 8831, sequence accession AFCD00000000 [00000000 Natranaerobius thermophilus JW/NM-WN-LF, sequence accession CP001034 (chromosome), CP001035 (plasmid) [plasmid) Melissococcus plutonius ATCC 35311, sequence accession AP012200 (chromosome) and AP012201 (plasmid) [plasmid) Lactobacillus buchneri NRRL B-30929, sequence accession CP002652 (chromosome), CP002653 (plasmid pLBU01), CP002654 (plasmid pLBU02), and CP002655 (plasmid pLBU03) [Lactobacillus kefiranofaciens ZW3 , sequence accession CP002764 (chromosome), CP002765 (plasmid), and CP002766 (plasmid) [plasmid) Bacillus megaterium strain QM B1551, sequence accession CP001983 (chromosome), CP001984 to CP001990 (plasmids pBM100 through pBM700) [Bacillus megaterium strain DSM319, sequence accession CP001982 (chromosome) [omosome) Listeria monocytogenes serovar 4a strain M7, sequence accession CP002816 [CP002816 Bacillus coagulans 2-6, sequence accession CP002472 [CP002472 Streptococcus salivarius strain CCHSS3, sequence accession FR873481 [FR873481 Paenibacillus elgii B69, sequence accession AFHW01000000 [01000000 Lactobacillus pentosus MP-10, sequence accession FR871759 through FR871848 [FR871848 Leuconostoc pseudomesenteroides KCTC 3652, sequence accession AEOQ00000001 through AEOQ00001160 [00001160 Lactobacillus mali KCTC 3596, sequence accession BACP01000001 through BACP01000122 [01000122 Paenibacillus polymyxa Type Strain ATCC 842T, sequence accession AFOX01000000 [01000000 Streptococcus salivarius strain JIM8777, sequence accssion FR873482 [FR873482 Lactobacillus cypricasei KCTC 13900, sequence accession BACS01000001 to BACS01000487 [01000487 Lactobacillus zeae KCTC 3804, sequence accession BACQ01000001 to BACQ101000113 [01000113 Listeria monocytogenes Serovar 4a Strain M7, sequence accession CP002816 [CP002816 Lactobacillus salivarius GJ-24, sequence accession AFOI00000000 [00000000 Lactobacillus johnsonii PF01, sequence accession AFQJ01000000 [01000000 Clostridium acetobutylicum DSM 1731, sequence accession CP002660 through CP002662 [CP002662 Lactobacillus suebicus KCTC 3549, sequence accession BACO01000000 [01000000 Brevibacillus laterosporus LMG 15441, sequence accession AFRV00000000 [00000000 Lactobacillus salivarius NIAS840, sequence accession AFMN00000000 [00000000 Bifidobacterium animalis subsp. lactis CNCM I-2494, sequence accession CP002915 [CP002915 Megasphaera elsdenii, sequence accession HE576794 [HE576794 Lactobacillus versmoldensis KCTC 3814, sequence accession BACR01000001 to BACR01000102 [01000102 Lactobacillus pentosus IG1, sequence accession FR874848 to FR874860 [FR874860 Alicyclobacillus acidocaldarius Strain Tc-4-1, sequence accession CP002902 [CP002902 Streptococcus thermophilus Strain JIM8232, sequence accession FR875178 [FR875178 Streptococcus equi subsp. zooepidemicus Strain ATCC 35246, sequence accession CP002904 [CP002904 Bacillus amyloliquefaciens XH7, sequence accession CP002927 [CP002927 Leuconostoc kimchii Strain C2, sequence accession CP002898 [CP002898 Lactobacillus malefermentans KCTC 3548, sequence accession BACN01000001 to BACN01000172 [01000172 Weissella koreensis KACC 15510, sequence accession CP002900 [CP002900 TenericutesPhylum Mycoplasma bovis Strain Hubei-1, sequence accession CP002513 [CP002513 Mycoplasma fermentans Strain M64, sequence accession NC_014921 [C_014921 Haloplasma contractile, sequence accession AFNU00000000 [00000000 Mycoplasma ovipneumoniae Strain SC01, sequence accession AFHO01000000 [01000000 ActinobacteriaPhylum Kocuria rhizophila P7-4, sequence accession AFID00000000 [00000000 Streptomyces S4, sequence accession CADY01000000 [01000000 Corynebacterium nuruki S6-4T, sequence accession AFIZ00000000 [00000000 Propionibacterium humerusii, sequence accession AFAM00000000.1 [000000.1 Strain JDM601, sequence accession CP002329 Streptomyces sp. strain T\u00fc6071, sequence accession AFHJ01000000 [01000000 Bifidobacterium breve UCC2003, sequence accession CP000303 [CP000303 Propionibacterium acnes, sequence accession CP002815 [CP002815 Amycolicicoccus subflavus DQS3-9A1T, sequence accession CP002786 (chromosome), CP002787 (plasmid pAS9A-1), and CP002788 (plasmid pAS9A-2). [AS9A-2). Gordonia neofelifaecis NRRL B-59395, sequence accession AEUD01000000 [01000000 Pseudonocardia dioxanivorans strain CB1190, sequence accession NC_015312-4 and CP002595-7 [002595-7 Bifidobacterium longum subsp. longum KACC 91563, sequence accession CP002794 to CP002796 [CP002796 Streptomyces cattleya NRRL 8057, sequence accession FQ859185 (chromosome) and FQ859184 (megaplasmid) [plasmid) Rhodococcus sp. Strain R04, sequence accession AFAQ01000000 [01000000 Mycobacterium bovis BCG Moreau, sequence accession [ccession Saccharopolyspora spinosa NRRL 18395, sequence accession [ccession Mycobacterium tuberculosis CCDC5079, sequence accession [ccession Mycobacterium tuberculosis CCDC5180, sequence accession [ccession Amycolatopsis mediterranei S699, sequence accession CP002896 [CP002896 Nesterenkonia sp. Strain F, sequence accession AFRW01000000 [01000000 Streptomyces xinghaiensis NRRL B24674T, sequence accession AFRP01000000 [01000000 ChlamydiaePhylum Chlamydophila abortus variant strain LLG, sequence accession AFHM01000000 [01000000 Chlamydia psittaci 6BC, sequence accession CP002586 (chromosome), CP002587 (plasmid) [plasmid) Chlamydia psittaci Cal10, sequence accession AEZD00000000 (draft chromosome and plasmid) [plasmid) Chlamydia trachomatis, sequence accession CP002024 [CP002024 SpirochaetesPhylum Spirochaeta thermophila DSM 6192, sequence accession CP001698 [CP001698 Brachyspira intermedia, sequence accession CP002874 (chromosome) and CP002875 (plasmid) [plasmid) FibrobacteresPhylum BacteroidetesPhylum Porphyromonas gingivalis TDC60, sequence accession AP012203 [AP012203 Krokinobacter sp. strain 4H-3-7-5, sequence accession CP002528 [CP002528 Lacinutrix sp. strain 5H-3-7-4, sequence accession CP002825 [CP002825 Bacterium HQM9, sequence accession AFPB00000000 [00000000 Anaerophaga sp. Strain HS1, sequence accession AFSL00000000 [00000000 Capnocytophaga canimorsus Strain 5, sequence accession CP002113 [CP002113 Mesoflavibacter zeaxanthinifaciens strain S86, sequence accession AFOE00000000 [00000000 VerrucomicrobiaPhylum LentisphaeraePhylum ThermotogaePhylum Kosmotoga olearia Strain TBF 19.5.1, sequence accession CP001634 [CP001634 ArchaeaDomain Nitrosoarchaeum koreensis\" MY1, sequence accession AFPU00000000 [\"Candidatus 00000000 Cucumis sativus L., sequence accession FI132140\u2013FI136208, GS765762\u2013GS766880, GS815969\u2013GS874855 [North-European Cucumber GS874855 Ricinus communis organelle genome, sequence accession JF937588(chloroplast), HQ874649 (mitochondria) [Castor bean hondria) Umatilla, sequence accession HQ842619 through HQ842628 [Stretch Lagoon Orbivirus HQ842628 Gadus morhua, sequence accession CAEA01000001 through CAEA01554869 [Atlantic cod 01554869 Solanum tuberosum L., sequence accession GS025503 through GS026177 [Potato GS026177 \u03a6CA82, sequence accession HQ264138 Paramecium caudatumreveals mitochondria, sequence accession NC001324 [NC001324 bacteriophage IME08, sequence accession NC_014260 virus (ILTV), sequence accession HQ_630064 Macropus eugenii, sequence accession ABQO000000000 [Australian kangaroo 00000000 Aichi virus, sequence accession FJ890523 \"Candidatus Tremblaya princeps\" Strain PCVAL, sequence accession CP002918"} +{"text": "The [SnCl6]2\u2212 anion undergoes a slight distortion from octa\u00adhedral symmetry as the result of the formation of four unforked charge-supported N\u2014H\u22efCl hydrogen bonds. The hydrogen bonds between the cations and anions form layers perpendicular to [101]. These layers are built by 24-membered rings which can be classified with an R88(24) graph-set descriptor. According to this hydrogen-bonding motif, the title compound is isostructural with (C6H16N)2[IrCl6].The title compound, (C DOI: Click here for additional data file.10.1107/S1600536812043371/mw2089Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536812043371/mw2089Isup3.molSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Two trans-N:S-bridging thio\u00adcyanates complete the N5S donor set around the Cd atom. In the crystal, adjacent CdII ions are linked by the thio\u00adcyanate N:S-bridges into polymeric chains along the c axis.In the title compound, [Cd(NCS) DOI: 10.1107/S1600536811010063/om2412Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complex displays a nano-sized porous metal\u2013organic framework that belongs to a topological network.The solvothermal reaction of Co(NO DOI: 10.1107/S1600536811017661/tk2740Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810027595/bt5296Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "N\u2014H\u22efBr hydrogen bonds link the organic cations and bioctahedral face-sharing anions into a three-dimensional network.In the title compound, (C DOI: Click here for additional data file.10.1107/S1600536813014335/vn2071Isup2.cdxSupplementary material file. DOI: 10.1107/S1600536813014335/vn2071Isup3.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The complex mol\u00adecules are stabilized by intra\u00admolecular O\u2014H\u22efCl hydrogen bonds.In the title compound, [NdCl DOI: 10.1107/S1600536812014055/zs2190Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The solvent water mol\u00adecules are lodged in the channels.In the crystal structure of the title monohydrate salt, [ZnCl(C DOI: 10.1107/S1600536810052682/bg2383Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the two bromo-substituted benzene rings is 10.1\u2005(3)\u00b0.In the title complex, [Ni(C DOI: 10.1107/S1600536812004321/lh5411Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "One of the bridging Hg\u2014Cl bonds is significantly longer than the other.In the centrosymmetric dinuclear title complex, [Hg DOI: 10.1107/S1600536811004703/gk2347Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The purpose of this table is to provide the community with a citable record of publications of ongoing genome sequencing projects that have led to a publication in the scientific literature. While our goal is to make the list complete, there is no guarantee that we may have omitted one or more publications appearing in this time frame. Readers and authors who wish to have publications added to subsequent versions of this list are invited to provide the bibliographic data for such references to the SIGS editorial office. Thermogladius cellulolyticus\u201d 1633, sequence accession CP003531 [\u201cMethanomassiliicoccus luminyensis, sequence accession CAJE01000001 through CAJE01000026 [Pyrococcus sp. Strain ST04, sequence accession CP003534 [Leptospirillum ferrooxidans Strain C2-3, sequence accession AP012342 [Prochlorococcus marinus MED4, sequence accession BX548174 [Acinetobacter sp. Strain HA, sequence accession AJXD00000000 [00000000 Acinetobacter venetianus RAG-1T, sequence accession AKIQ00000000 [00000000 Agrobacterium tumefaciens CCNWGS0286, sequence accession AGSM00000000 [Alcaligenes faecalis subsp. faecalis NCIB 8687, sequence accession AKMR01000001 through AKMR01000186 [01000186 Alishewanella agri BL06T, sequence accession AKKU00000000 [00000000 Alishewanella aestuarii Strain B11T, sequence accession ALAB00000000 [Bacillus methanolicus MGA3, sequence accession ADWW00000000 [00000000 Bacillus methanolicus PB1, sequence accession AFEU00000000 [00000000 CandidatusSulfurovum sediminum\u201d, sequence accession AJLE00000000 [\u201c00000000 Bartonella birtlesii strain IBS 135T, sequence accession AKIP00000000 [00000000 Brucella abortus A13334, sequence accession CP003176.1 (Chromosome I),CP003177.1 (Chromosome II) [some II) Brucella canis Strain HSK A52141, sequence accession CP003174.1 (chromosome I), and CP003175.1 (chromosome II) [some II) Brucella melitensis S66, sequence accession AHWB00000000 [00000000 Brucella melitensis16M, sequence accession AHWC00000000 [00000000 Brucella melitensis 16M1w, sequence accession AHWD00000000 [00000000 Brucella melitensis 16M13w, sequence accession AHWE00000000 [00000000 Burkholderia sp. Strain KJ006, sequence accession CP003514 (chromosome I), CP003515 (chromosome II), CP003516 (chromosome III), and CP003517 (plasmid pKJ006) [ pKJ006) .Burkholderia terrae Strain BS001, sequence accession AKAU00000000 [00000000 Burkholderia thailandensis MSMB43, sequence accession AJXB00000000 [00000000 Catenovulum agarivorans YM01T, sequence accession AJWM00000000 [00000000 Citrobacter sp. Strain A1, sequence accession AKTT00000000 [00000000 Cronobacter sakazakii ES15, sequence accession CP003312 [CP003312 Dickeya zeae Strain ZJU1202, sequence accession AJVN00000000 [00000000 Enterobacter cloacae GS1, sequence accession AJXP00000000 [00000000 Enterococcus faecium Clinical Isolate LCT-EF128, sequence accession AJUP00000000 [00000000 Enterobacter radicincitans DSM16656T, sequence accession AKYD00000000 [00000000 Escherichia coli J53, sequnce accession AICK00000000 [00000000 Escherichia coli LCT-EC106, sequence accession [ccession Escherichia coli NCCP15647, sequence accession AJMB00000000 [00000000 Escherichia coli W26, sequence accession AGIA00000000 [00000000 Gluconobacter oxydans WSH-003, sequence accession AHKI00000000 [00000000 Halomonas stevensii S18214T, sequence accession AJTS00000000 [00000000 Helicobacter cinaedi Strain PAGU611, sequence accession AP012344 (chromosome) and AP012345 (plasmid) [plasmid) Helicobacter pylori hpEurope Strain N6, sequence accession CAHX01000001 to CAHX01000054 [01000054 Herbaspirillum lusitanum P6-12, sequence accession AJHH00000000 [00000000 Herbaspirillum sp. Strain GW103, sequence accession AJVC00000000 [00000000 Hydrocarboniphaga effusa strain AP103T, sequence accession AKGD00000000 [00000000 Hydrogenophaga sp. Strain PBC, sequence accession AJWL00000000 [00000000 Klebsiella oxytoca E718, sequence accession CP003683 [CP003683 Methylobacterium extorquens sp. strain 4-46, sequence accessions NC_010511, NC_010373, NC_010374 [C_010374 Methylobacterium extorquens strain BJ001, sequence accessions NC_010725, NC_010727, NC_010721 [C_010721 Methylobacterium extorquens strain CM4, sequence accessions NC_011757, NC_011758, NC_011760 [C_011760 Methylobacterium extorquens strain JCM 2831, sequence accessions NC_010510, NC_010509, NC_010514, NC_010517, NC_010518, NC_010502, NC_010504, NC_010507 [C_010507 Methylobacterium extorquens strain ORS 2060, sequence accessions NC_011894,NC_011892, NC_011887, NC_011893, NC_011895, NC_011888, NC_011889, NC_011890 [C_011890 Methylobacterium extorquens strain PA1, sequence accessions NC_010172 [C_010172 Methylobacterium sp. Strain GXF4, sequence accession AKFK00000000 [00000000 Methylophaga sp. Strain JAM1, sequence accession CP003390 [CP003390 Methylophaga sp. Strain JAM7 sequence accession CP003380 (chromosome), CP003381 (plasmid) [plasmid) Modestobacter marinus Strain BC501, sequence accession FO203431 [FO203431 Mycobacterium massiliense M18, sequence accession AJSC00000000 [00000000 Neisseria meningitidis Capsule Null Locus Strain, sequence accession CAJS01000001 through CAJS01000042 [01000042 Novosphingobium sp. Strain Rr 2-17, sequence accession AKFJ00000000 [00000000 Providencia stuartii Clinical Isolate MRSN 2154, sequence accession CP003488 [CP003488 Pseudaminobacter salicylatoxidans KCT001, sequence accession CAIU00000000 [00000000 Pseudomonas aeruginosa Strain SJTD-1, sequence accession AKCM00000000 [00000000 Pseudomonas aeruginosa Strain XMG, sequence accession AJXX00000000 [00000000 Pseudomonas fuscovaginae CB98818, sequence accession ALAQ00000000 [00000000 Pseudoalteromonas issachenkonii PAMC 22718, sequence accession AJTK00000000 [00000000 Pseudomonas sp. Strain HYS, sequence accession AJJP00000000 [00000000 Pseudomonas pseudoalcaligenes KF707, sequence accession AJMR00000000 [00000000 Pseudomonas putida Strain ND6, sequence accession CP003588 [CP003588 Pseudomonas putida Strain SJTE-1, sequence accession AKCL00000000 [00000000 Pseudomonas sp. Strain M47T1, sequence accession AJWX00000000 [00000000 Pseudomonas stutzeri TS44, sequence accession AJXE00000000 [00000000 Ralstonia sp. strain PBA, sequence accession AJWL00000000 [00000000 Rhodanobacter strain DSM 23569, sequence accession AGIL00000000 [00000000 Rhodanobacter strain 115, sequence accession AJXS00000000 [00000000 Rhodanobacter DSM 17631, sequence accession AJXT00000000 [00000000 Rhodanobacter DSM 18449, sequence accession AJXU00000000 [00000000 Rhodanobacter DSM 18863, sequence accession AJXW00000000 [00000000 Rhodanobacter DSM 24678, sequence accession AJXV00000000 [00000000 Rickettsia conorii subsp. caspia, sequence accession AJUR00000000 [00000000 Rickettsia australis strain PhillipsT, sequence accession AKVZ00000000 [00000000 Rickettsia sp. Strain MEAM1, sequence accession AJWD00000000 [00000000 Rickettsia conorii subsp. israelensis, sequence accession AJVP00000000 [00000000 Serratia plymuthica Strain PRI-2C, sequence accession AJTB00000000 [00000000 Serratia marcescens strain LCT-SM213, seqeunce accession AJUV00000000 [00000000 Sinorhizobium fredii USDA257, sequence accession CP003563 through CP003582 [CP003582 Sphingobium indicum B90A, sequence accession AJXQ00000000 [00000000 Stenotrophomonas maltophilia PML168, sequence accession CAJH01000001 through CAJH01000097 [01000097 Salmonella enterica serotype Newport CVM35185, sequence accession AHTJ00000000 [00000000 Salmonella enterica serotype Newport CVM33953, sequence accession AHTM00000000 [00000000 Salmonella enterica serotype Newport CVM21550, sequence accession AHTT00000000 [00000000 Salmonella enterica serotype Newport CVM21538, sequence accession AHTV00000000 [00000000 Salmonella enterica serotype Newport CVM37978, sequence accession AHUC00000000 [00000000 Salmonella enterica serotype Newport CVM19593, sequence accession AHUD00000000 [00000000 Salmonella enterica serotype Newport CVM19443, sequence accession AHUB00000000 [00000000 Salmonella enterica serotype Newport CVM19470, sequence accession AHUE00000000 [00000000 Salmonella enterica serovar Typhi UJ308A, sequence accession AJTD00000000 [00000000 Salmonella enterica Serovar Typhi UJ816A, sequence accession AJTE00000000 [00000000 Serratia sp. Strain M24T3, sequence accession [ccession Sulfuricella denitrificans skB26, sequence accession BAFJ01000001 through BAFJ01000023 [01000023 Xanthomonas campestris JX, sequence accession AJVO00000000 [00000000 Yersinia pestis Strain 2501, sequence accession AKVQ00000000 [00000000 Aeromonas aquariorum, sequence accession BAFL01000001 through BAFL01000036, and AP012343 [AP012343 Aerococcus viridans LL1, sequence accession AJTG00000000 [00000000 Bacillus anthracis H9401, sequence accession CP002091.1 ( chromosome), CP002092.1.1 (plasmid pXO1), and CP002093.1 (plasmid pXO2) [id pXO2) Bacillus atrophaeus C89, sequence accession AJRJ00000000 [00000000 Bacillus cereus NC7401, sequence accession AP007209 (chromosome), AP007210 (plasmid pNCcld), AP007211 , AP007212 , AP007213 , and AP007214 [4, 3 kb) Bacillus siamensis KCTC 13613T, sequence accession AJVF00000000 [00000000 Bacillus sp. Strain 5B6, sequence accession AJST00000000 [00000000 Bacillus sp. Strain 916, sequence accession AFSU00000000 [00000000 Citreicella aestuarii Strain 357, sequence accession AJKJ00000000 [00000000 Clostridium beijerinckii Strain G117, sequence acceession AKWA00000000 [00000000 Corynebacterium pseudotuberculosis Strain 1/06-A, sequence accession CP003082 [CP003082 Enterobacter sp. Isolate Ag1, sequence accession AKXM00000000 [00000000 Enterococcus faecalis D32, sequence accession CP003726 through CP003728 [CP003728 Enterococcus faecalis strain NP-10011, sequence accession AB712291 [Enterococcus hirae ATCC 9790, sequence accession CP003504 (chromosome), NC_015845 (plasmid pTG9790) [pTG9790) Geobacillus thermoglucosidans\u201d TNO-09.020, sequence accession AJJN00000000 [\u201c00000000 Lactococcus garvieae IPLA 31405, sequence accession AKFO00000000 [00000000 Lactobacillus mucosae LM1, sequence accession AHIT00000000 [00000000 Lactobacillus rossiae DSM 15814, sequence accession AKZK00000000 [00000000 Paenibacillus polymyxa OSY-DF, sequence accession AIPP00000000 [00000000 Pediococcus pentosaceus strain IE-3, sequence accession CAHU01000001 through CAHU01000091 [01000091 Pelosinus fermentans A11, sequence accession AKVM00000000 [00000000 Pelosinus fermentans B4, sequence accession AKVJ00000000 [00000000 Pelosinus fermentans JBW45, sequence accession AKVO00000000 [00000000 Pelosinus fermentans R7, sequence accession AKVN00000000 [00000000 Planococcus antarcticus DSM 14505, sequence accession AJYB00000000 [00000000 Pseudomonas stutzeri Strain JM300, sequence accession CP003725 [CP003725 Rhodococcus sp. strain DK17, sequence accession AJLQ00000000 [00000000 Staphylococcus aureus Strain LCT-SA112, sequence accession AJLP00000000 [00000000 Staphylococcus capitis QN1, sequence accession AJTG00000000 [00000000 Staphylococcus equorum subsp. equorum Mu2, sequence accession CAJL01000001 to CAJL01000030 [01000030 Staphylococcus hominis ZBW5, sequence accession AKGC00000000 [00000000 Staphylococcus saprophyticus subsp. saprophyticus M1-1, sequence accession AHKB00000000 [00000000 Streptococcus mutans GS-5, sequence accession CP003686 [CP003686 Streptococcus pyogenes M1 476, sequence accession AP012491 [AP012491 Streptococcus salivarius PS4, sequence accession AJFW00000000 [00000000 Streptococcus thermophilus Strain MN-ZLW-002, sequence accession CP003499 [CP003499 Ureibacillus thermosphaericus Strain Thermo-BF, sequence accession AJIK00000000 [00000000 Mycoplasma leachii Strain PG50T, sequence accession CP002108.1 [002108.1 Mycoplasma mycoides subsp. mycoides, sequence accession CP002107.1 [002107.1 Mycoplasma wenyonii Strain Massachusetts, sequence accession CP003703 [CP003703 Actinomyces massiliensis Strain 4401292T, sequence accession AKIO00000000 [00000000 Bifidobacterium animalis subsp. lactis B420, sequence accesion CP003497 [CP003497 Bifidobacterium animalis subsp. lactisBi-07, sequence accesion CP003498 [CP003498 Bifidobacterium bifidum strain BGN4, sequence accession CP001361 [CP001361 Brevibacterium massiliense Strain 541308T, sequence accession CAJD00000000 [00000000 Corynebacterium bovis DSM 20582, sequence accession AENJ00000000 [00000000 Corynebacterium diphtheriae Biovar Intermedius NCTC 5011, sequence accession AJVH00000000 [00000000 Corynebacterium pseudotuberculosis strain 1/06-A, sequence accession CP003082 [CP003082 Corynebacterium pseudotuberculosis strain 3/99-5 sequence accession CP003152.1 [003152.1 Corynebacterium pseudotuberculosis strain 42/02-A, sequence accession CP003062 [CP003062 Microbacterium yannicii, sequence accession CAJF01000001 through CAJF01000067 [01000067 Micromonospora lupini Lupac 08, sequence accession CAIE01000001 [01000001 Mycobacterium bolletii Strain M24, sequence accession AJLY00000000 [00000000 Mycobacterium intracellulare Clinical Strain MOTT-36Y, sequence accession CP003491 [CP003491 Mycobacterium massiliense M18, sequence accession AJSC00000000 [00000000 Mycobacterium massiliense strain GO 06, sequence accession CP003699 [CP003699 Mycobacterium massiliense strain M154, sequence accession AJMA00000000 [00000000 Mycobacterium tuberculosis RGTB327, sequence accession CP003233 [CP003233 Mycobacterium tuberculosis MTB423, sequence accession CP003234 [CP003234 Parascardovia denticolens IPLA 20019, sequence accession AKII00000000 [00000000 Saccharothrix espanaensis DSM 44229T, sequence accession HE804045 [HE804045 Streptomyces auratus Strain AGR0001, sequence accession AJGV00000000 [00000000 Streptomyces cattleya\u201d DSM46488T, sequence accession FQ859185 and FQ859184 [\u201cFQ859184 Streptomyces globisporus C-1027, sequence accession AJUO00000000 [00000000 Streptococcus mutans GS-5, sequence accession CP003686 [CP003686 Streptomyces sp. Strain AA1529, sequence accession ALAP00000000 [00000000 Streptomyces sulphureus L180, sequence accession AJTQ0000000 [Q0000000 Borrelia crocidurae, sequence accession CP003426 (chromosome), CP003427 to CP003465 (plasmids) [lasmids) Treponema sp. Strain JC4, sequence accession JQ783348 [JQ783348 Flavobacterium sp. Strain F52, sequence accession AKZQ00000000 [00000000 Fusobacterium nucleatum subsp. fusiforme ATCC 51190T, sequence accession AKXI00000000 [00000000 Imtechella halotolerans\u201d\u201c K1T, sequence accession AJJU00000000 [00000000 Actinophage PIS136, sequence accession JX006077 Aeromonas hydrophila Phage CC2, sequence accession JX123262 [JX123262 Bacteriophage BC-611, sequence accession AB712291 Bacteriophage SSU5, sequence accession JQ965645 Blattabacterium sp. strain BGIGA, sequence accession [ccession Caulobacter crescentus Bacteriophage \u03c6CbK, sequence accession JX163858 [JX163858 Celeribacter Bacteriophage P12053L, sequence accession JQ809650 [JQ809650 Croceibacter Bacteriophage P2559S, sequence accession JQ867099 [JQ867099 Cronobacter sakazakii Temperate Bacteriophage phiES15 JQ780327 [JQ780327 Marinomonas Bacteriophage P12026, sequence accession JQ867100 [JQ867100 Pectobacterium carotovorum subsp. carotovorum Bacteriophage PP1, sequence accession JQ837901 [JQ837901 Persicivirga bacteriophages P12024L, sequence accession JQ823123 [JQ823123 Persicivirga bacteriophages P12024S, sequence accession JQ823122 [JQ823122 phage clP1, sequence accession JN051154 Pseudomonas aeruginosa Siphophage MP1412, sequence accession JX131330 [JX131330 Pseudomonas aeruginosa Temperate Phage MP29, sequence accession EU272036 [EU272036 Pseudomonas aeruginosa Temperate Phage MP42, sequence accession JQ762257 [JQ762257 Pseudomonas Phage \u03a6-S1, sequence accession JX173487 [JX173487 Siphophage MP1412, sequence accession JX131330 Staphylococcus aureus Bacteriophage GH15, sequence accession JQ686190 [JQ686190 Vibrio vulnificus Bacteriophage SSP002, sequence accession JQ692107 [JQ692107 African bovine rotaviruses RVA/Cow-wt/ZAF/1603/2007/G6P, sequence accession S9(VP7) JN831209, S4(VP4) JN831210, S6(VP6) JN831211, S1(VP1) JN831212, S2(VP2) JN831213, S3(VP3) JN831214, S5(NSP1) JN831204, S8(NSP2) JN831205, S7(NSP3) JN831206, S10(NSP4) JN831207, S11(NSP5) JN831208 African bovine rotaviruses RVA/Cow-wt/ZAF/1604/2007/G8P, sequence accession S9(VP7) JN831220, S4(VP4) JN831221, S6(VP6) JN831222, S1(VP1) JN831223, S2(VP2) JN831224, S3(VP3) JN831225, S5(NSP1) JN831215, S8(NSP2) JN831216, S7(NSP3) JN831217, S10(NSP4) JN831218, S11(NSP5) JN831219 African bovine rotaviruses RVA/Cow-wt/ZAF/1605/2007/G6P, sequence accession S9(VP7) JN831231, S4(VP4) JN831232, S6(VP6) JN831233, S1(VP1) JN831234, S2(VP2) JN831235, S3(VP3) JN831236, S5(NSP1) JN831226, S8(NSP2) JN831227, S7(NSP3) JN831228, S10(NSP4) JN831229, S11(NSP5) JN831230 Avian Leukosis Virus, sequence accession JX254901 Avian Influenza Virus H3N2, sequence accession JX175250 through JX175257 Avian Influenza Virus H5N2, sequence accession JQ990145 through JQ990152 Avian-Like H4N8 Swine Influenza, sequence accession JX151007 through JX151014 Avian Paramyxovirus, sequence accession JQ886184 Avian Tembusu-Related Virus Strain WR, sequence accession JX196334 Bluetongue Virus Serotype 9, sequence accession JX003687 to JX003696 Bluetongue Virus Serotype 16, sequence accession Bombyx mori Nucleopolyhedrovirus, sequence accession JQ991009 Bovine Viral Diarrhea Virus 2, sequence accession JF714967 Bovine Foamy Viruses, sequence accession JX307861 Canine Noroviruses, sequence accession FJ692500 and FJ692501 Chicken Anemia Virus, sequence accession JX260426 Chikungunya Virus, sequence accession JX088705 Chinese Virulent Avian Coronavirus GX-YL5, sequence accession HQ848267 Chinese Virulent Avian Coronavirus GX-YL9, sequence accession HQ850618 Coxsackievirus B4, sequence accession JX308222 Enterovirus C (HEV-C117), sequence accession JX262382 Genotype 4 Hepatitis E Virus Strain, sequence accession JQ993308 H10N8 Avian Influenza Virus, sequence accession JQ924786 to JQ924793 H9N2 Subtype Influenza Virus FJG9, sequence accession JF715008.1, JN869514.1 through JN869520.1 .Herpes Simplex Virus 1 Strain McKrae, sequence accession JX142173 Human Coronavirus NL63, sequence accession JX104161 Human G10P Rotavirus, sequence accession AB714258 through AB714268 Ikoma Lyssavirus, sequence accession JX193798 Korean sacbrood viruses AmSBV-Kor19, sequence accession JQ390592 Korean sacbrood viruses AmSBV-Kor21, sequence accession JQ390591 , sequence accession JN835456 [Mitochondrion of Frankliniella occidentalisJN835456 New Circular DNA Virus from Grapevine, sequence accession JQ901105 Novel Porcine Epidemic Diarrhea Virus, sequence accession JX112709 Pararetrovirus, sequence accession JQ926983 Parechovirus, sequence accession JX050181 Peste des Petits Ruminants Virus, sequence accession JX217850 Polyomavirus, sequence accession JQ412134 Porcine Circovirus 2b Strain CC1, sequence accession JQ955679 Porcine circovirus type 2 (PCV2), sequence accession JX294717 Porcine Epidemic Diarrhea Virus Strain AJ1102, sequence accession JX188454 Porcine Sapelovirus Strain YC2011, sequence accession JX286666 [Respiratory Syndrome Virus Strain QY2010, sequence accession JQ743666 SAT 2 Foot-and-Mouth Disease Virus, sequence accession JX014255 SAT 2 Foot-and-Mouth Disease Virus PAT, sequence accession JX014256 Street Rabies Virus, sequence accession HQ450386 Waterfowl aviadenovirus goose adenovirus 4, sequence accession JF510462 , sequence accession NC_015104 [cpDNA of Smilax chinaC_015104 , sequence accession JQ310743 [Elodea canadensisJQ310743 Ogura-type mitochondrial genome, sequence accession AB694743 Aspergillus oryzae Strain 3.042, sequence accession AKHY00000000 [00000000 Rhodosporidium toruloides MTCC 457, sequence accession AJMJ00000000 [00000000 Helicoverpa armigera, sequence accession HQ613271 [HQ613271 plasmidIncN plasmid pRSB201, sequence accession JN102341 plasmidIncN plasmid pRSB203, sequence accession JN102342 plasmidIncN plasmid pRSB205, sequence accession JN102343 plasmidIncN plasmid pRSB206, sequence accession JN102344"} +{"text": "The asymmetric unit comprises one half-mol\u00adecule, the structural dimeric unit being generated by inversion symmetry with an Mg\u22efMg distance of 3.469\u2005(2)\u2005\u00c5. The Mg(II) atom exhibits a distorted tetrahedral coordination geometry. The crystal packing is defined by van der Waals inter\u00adactions only.The title benzyl Grignard reagent, [Mg DOI: 10.1107/S1600536812025445/kp2423Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The gold(I) atoms are 3.4873\u2005(7)\u2005\u00c5 apart. The mol\u00adecule exhibits a crystallographic twofold rotation axis.The title compound, [Au DOI: 10.1107/S1600536810050506/br2152Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The diphosphadiborane mol\u00adecule consists of an ideal planar four-membered B2P2 ring with an additional phenyl and a \u2013PPh2 group attached to each B atom.In the title compound, C DOI: 10.1107/S1600536812011361/yk2048Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: Click here for additional data file.10.1107/S1600536812045461/sj5274Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The absolute configuration at the stereogenic S-atom center was determined as S. The crystal structure is stabilized by inter\u00admolecular C\u2014H\u22efO contacts.In the title compound, C DOI: 10.1107/S1600536811041420/bt5660Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811041420/bt5660Isup3.cdx Supplementary material file. DOI: 10.1107/S1600536811041420/bt5660Isup4.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, pairs of bifurcated O\u2014H\u22ef hydrogen bonds link adjacent mol\u00adecules, forming centrosymmetric dimers. The acetonitrile solvent mol\u00adecule shows 0.5 occupancy.In the title complex, [Co(C DOI: 10.1107/S160053681105330X/xu5401Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "An iodide ligand completes the coordination sphere, with the seven-coordinate BiIII atom adopting a highly distorted monocapped octa\u00adhedral geometry.The title compound, [Bi(C DOI: 10.1107/S1600536813033515/sj5375Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "DOI: 10.1107/S1600536811013274/bt5511Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CuII atom is four-coordinated by the phenolate O atoms and imine N atoms from two Schiff base ligands, in a highly distorted square-planar geometry. The O- and N-donor atoms are mutually trans and the dihedral angle between the two benzene rings is 55.8\u2005(3)\u00b0.The title compound, [Cu(C DOI: 10.1107/S1600536810025481/sj5030Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymetric unit consists of an [Fe(phen)3]2+ cation, two [Cr(phen)(NCS)4]\u2212 anions, three acetonitrile solvent mol\u00adecules and a water mol\u00adecule. The Fe and Cr atoms both show a slightly distorted octa\u00adhedral FeN6 and CrN6 coordination geometry with adjacent angles in the range 79.67\u2005(12)\u201395.21\u2005(12)\u00b0. No classical hydrogen bonding involving the water molecule is observed.Single crystals of the title heterometallic compound, [Fe(C DOI: 10.1107/S1600536812012949/ru2031Isup2.cdxSupplementary material file. DOI: 10.1107/S1600536812012949/ru2031Isup3.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Extensive O\u2014H\u22efO hydrogen-bonding inter\u00adactions between the cations, anions and water mol\u00adecules stabilize the three-dimensional network.In the title compound, [Mn(H DOI: 10.1107/S1600536810022300/hy2318Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Br aroms are trans-disposed as a result of symmetry.The title complex, [RuBr DOI: Click here for additional data file.10.1107/S1600536813000871/hy2613Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The ligands are coordinated in a chelate fashion, forming three five-membered rings. In the crystal, translationally related complex molecules are organized into columns along [001] via C\u2014H\u22efO hydrogen bonds.In the title compound, [Co(C DOI: 10.1107/S1600536811043303/hy2479Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing is characterized by a C\u2014H\u22efO hydrogen-bonded ribbon structure approximately parallel to [10In the title compound, [Zn(C DOI: 10.1107/S1600536811019854/ng5159Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the 3-methyl\u00adanilinium cations link with the complex antimonate anions and Cl\u2212 anions via N\u2014H\u22efCl hydrogen bonds.In the title compound, (C DOI: 10.1107/S1600536811049087/xu5391Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal studied was a non-merohedral twin with the minor domain being in a 15.8\u2005(1)% proportion.The Sn(IV) atom in the title compound, [Sn(C DOI: 10.1107/S1600536810048300/hg2755Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each purinate ligand chelates two ZnII cations through two imidazole N atoms of the purinate anion ligand, leading to the formation of a three-dimensional network.In the title compound, [Zn(C DOI: 10.1107/S1600536812011245/vn2034Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The mol\u00adecule contains two fused six-membered rings, which both display a chair conformation. In the crystal, mol\u00adecules are linked into chains propagating along the b axis by inter\u00admolecular O\u2014H\u22efO hydrogen bonds.The title compound, C DOI: 10.1107/S1600536811004454/fj2393Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each 5-amino\u00adisophthalate anion acts as a \u03bc3-bridge linking symmetry-related ZnII ions into a layered polymeric structure parallel to (100). The asymmetric unit also comprises a disordered crystal water molecule located on an inversion centre with 0.25 occupancy. In the crystal, N\u2014H\u22efO hydrogen bonds form a three-dimensional network.In the title coordination polymer, {[Zn(C DOI: 10.1107/S1600536811050045/kp2352Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811050045/kp2352Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, N\u2014H\u22efO hydrogen bonds link the mol\u00adecules into chains running along the b-axis direction.In the mol\u00adecule of the title compound, C DOI: 10.1107/S160053681302401X/ff2117Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S160053681302401X/ff2117Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each pair of double-stacked dications is surrounded by a ring of ten nitrate anions. An intricate three-dimensional N---H...O and N---H... hydrogen-bonding network exists in the crystal structure.The crystal structure of the title compound, C DOI: 10.1107/S1600536811042929/lr2031Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811042929/lr2031Isup3.mol Supplementary material file. DOI: 10.1107/S1600536811042929/lr2031Isup4.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A three-dimensional supra\u00admolecular network is built from the uncoordinated nitrate anion, the water mol\u00adecule and the cation through O\u2014H\u22efO hydrogen bonds.In the title compound, [Ag(C DOI: 10.1107/S1600536810020945/ng2780Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The presence of a PF6 \u2212 anion promotes the existence of an extensive network of weak C\u2014H\u22efX inter\u00adactions.The title compound, [RuBr(C DOI: 10.1107/S1600536811002662/cv5041Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "This compound is isostructural with KCuFe(PO4)2 [Badri et al. iron(III) bis\u00ad(phosphate), RbCuFe(PO al. 2011, J. Soli DOI: 10.1107/S1600536813019569/br2226Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, O(water)\u2014H\u22efO and C\u2014H\u22efO hydrogen bonds form a three-dimensional-network.In the title compound, [Cu(C DOI: Click here for additional data file.10.1107/S1600536812044625/qm2087Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The O atom of the nitrate anion occupies the apical site. The crystal structure features intra\u00admolecular N\u2014H\u22efO hydrogen bonds.Copper nitrate in methanol solution cleaves the N\u2014C DOI: 10.1107/S160053681201241X/xu5488Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each arsine-substituted Os atom bears one equatorial and two axial terminal carbonyl ligands, whereas the unsubstituted Os atom bears two equatorial and two axial terminal carbonyl ligands. The dihedral angles between the two benzene rings in the diphenyl\u00adarsino groups are 67.42\u2005(16) and 61.99\u2005(16)\u00b0. In the crystal, mol\u00adecules are linked via C\u2014H\u22efO hydrogen bonds into zigzag chains propagating along [010].The title compound, [Os DOI: 10.1107/S1600536812024208/hb6822Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Classical O\u2014H\u22efO hydrogen bonds link both methanol solvent mol\u00adecules with the nitrate anion.In the title compound, [Co(C DOI: 10.1107/S1600536810032241/si2285Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal complex lies on a fourfold rotation axis that passes through the Os, N, O and Cl atoms. The NO and Cl ligands are disordered in an 0.511\u2005(12):0.486\u2005(12) ratio.The title compound, [OsCl(NO)(C DOI: 10.1107/S1600536811001401/ng5100Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 4,4-bi\u00adpyridine and Cl\u2212 anions bridge the AgI cations, forming polymeric chains running along [21-1]. In the crystal, weak C\u2014H\u22efCl inter\u00adactions link the polymeric chains into a three-dimensiona supra\u00admolecular architecture.In the title coordination polymer, [Ag DOI: Click here for additional data file.10.1107/S160053681301413X/xu5704Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "We confirm the previous studies, but to modern standards of precision and with all H atoms located. The central Ni atom (site symmetry A preliminary X-ray study of the title mol\u00adecular salt, [Ni(CH DOI: 10.1107/S1600536810026668/hb5527Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "There are no close C\u2014H\u22efCl contacts.The two mol\u00adecules in the asymmetric unit of the title compound, C DOI: 10.1107/S1600536812014924/bt5833Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812014924/bt5833Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "A weak intra\u00admolecular C\u2014H\u22efS inter\u00adaction generates an S(6) ring. No inter\u00admolecular hydrogen bonds are observed in the crystal structure.The mol\u00adecule of the title compound, C DOI: 10.1107/S1600536812035003/hb6910Isup2.hklStructure factors: contains datablock(s) I. DOI: 10.1107/S1600536812035003/hb6910Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811040402/bg2419Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "An intra\u00admolecular Bi\u22efN nonbonding inter\u00adaction is observed in the distorted trigonal triaryl\u00adbis\u00admuth coordination of the title compound. The title compound, [Bi(C DOI: 10.1107/S1600536810043655/si2298Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "AbstractXylographus Melli\u00e9 based on type specimens deposited in the Museum of Comparative Zoology (USA), Museum f\u00fcr Naturkunde Berlin (Germany), the Natural History Museum (UK), Mus\u00e9um d\u2019Histoire Naturelle de la Ville de Gen\u00e8ve (Switzerland), Mus\u00e9um National d\u2019Histoire Naturelle (France), Naturhistoriska Riksmuseet (Sweden) and Naturhistorisches Museum Wien (Austria). We designate lectotypes for the following species: Cis fultoni Broun, 1886, Xylographus anthracinus Melli\u00e9, 1849, X. bicolor Pic, 1916, X. brasiliensis Pic, 1916, X. ceylonicus Ancey, 1876, X. contractus Melli\u00e9, 1849, X. corpulentus Melli\u00e9, 1849, X. dentatus Pic, 1922, X. gibbus Melli\u00e9, 1849, X. hypocritus Melli\u00e9, 1849, X. javanus Pic, 1937, X. lemoulti Pic, 1916, X. longicollis Pic, 1922, X. madagascariensis Melli\u00e9, 1849, X. nitidissimus Pic, 1916, X. perforatus Gerstaecker, 1871, X. porcus Gorham, 1886, X. punctatus Melli\u00e9, 1849, X. ritsemai Pic, 1921, X. rufescens Pic, 1921, X. rufipennis Pic, 1934, X. rufipes Pic, 1930, X. seychellensis Scott, 1926, X. subopacus Pic, 1929, X. subsinuatus Pic, 1916, X. suillus Gorham, 1886, X. testaceitarsis Pic, 1916 and X. tomicoides Reitter, 1902. We propose the following syn. n. (senior synonym listed first): X. anthracinus = X. testaceitarsis, X. brasiliensis = X. lucasi Lopes-Andrade & Zacaro, X. corpulentus = X. lemoulti and X. richardi Melli\u00e9, X. madagascariensis = X. eichelbaumi Reitter, X. rufipennis, X. seychellensis Scott and X. tarsalis F\u00e5hraeus, X. nitidissimus = X. longicollis, X. subsinuatus = X. rufescens. We exclude three species from Xylographus: Cis renominatus, nom. n. , Paratrichapus fultoni , comb. n. and P. javanus , comb. n.We designate lectotypes and propose nomenclatural changes in Xylographus Melli\u00e9 is a genus of minute tree-fungus beetles with 36 described species, occurring in most continental and insular lands of tropical and subtropical regions :We examined 195 type specimens of Museum of Comparative Zoology, Harvard University MCZ Museum f\u00fcr Naturkunde Berlin MFNB Mus\u00e9um d\u2019histoire naturelle de la ville de Gen\u00e8ve MHNG Mus\u00e9um National d\u2019Histoire Naturelle MNHN The Natural History Museum NHM Naturhistorisches Museum Wien NHMW Naturhistoriska Riksmuseet NHRSXylographus cited by Cis, and the original description of Paratrichapus by Paratrichapus was described as having a 3-3-3 tarsal formula, but after studying its type material and images of microscope slide preparations by Hugh Scott, we observed that it was certainly 4-4-4 as in all other ciids. Xylographus and Paratrichapus are morphologically similar, so we propose the characteristics stated on We used the generic features of Xylographus bostrichoides and Xylographus richardi. And we did not have access to type material of Xylographus scheerpeltzi. In the case of Xylographus bostrichoides, we had at hand several named historical specimens, including those used for its redescription by Xylographus richardi, we had only a named specimen for examination. The description of Xylographus scheerpeltzi is adequately detailed and includes information on the morphology of sclerites of male abdominal terminalia. In all other cases, we had access to the original type series and dissected male abdominal terminalia whenever necessary and possible. The morphology of sclerites of male abdominal terminalia of Ciidae is stable intraspecifically and distinctly varies interspecifically, even between closely related species , subtle variations of male secondary sexual characteristics or based only on females. A single author, Maurice Pic, was responsible for half of the names here recognized as junior synonyms. He is known for having proposed thousands of new names of beetles based mostly on anecdotal descriptions and small type-series. Lack of access to type material was also a great problem. Xylographus seychellensis stating that he did it with some hesitation, because he has not examined possible conspecifics, as Xylographus madagascariensis and Xylographus eichelbaumi, the senior and a junior synonym proposed here, respectively. The same was true to Xylographus lucasi, whose authors separates individual labels. Data in square brackets were added for clarification. Remarks are provided for some species.A complete list of Xylographus anthracinus Melli\u00e9, 1849Xylographus testaceitarsis Pic, 1916, syn. n.PageBreakXylographus bicolor Pic, 1916Xylographus bostrichoides Cis cribatus Lucas, 1849Xylographus bostrichoides var. aubei Melli\u00e9, 1849Xylographus brasiliensis Pic, 1916Xylographus lucasi Lopes-Andrade & Zacaro, 2003, syn. n.Xylographus bynoei Blair, 1940Xylographus ceylonicus Ancey, 1876Xylographus contractus Melli\u00e9, 1849Xylographus corpulentus Melli\u00e9, 1849Xylographus lemoulti Pic, 1916, syn. n.Xylographus richardi Melli\u00e9, 1849, syn. n.Xylographus gibbus Melli\u00e9, 1849Xylographus globipennis Reitter, 1911Xylographus hypocritus Melli\u00e9, 1849Xylographus madagascariensis Melli\u00e9, 1849Xylographus eichelbaumi Reitter, 1908, syn. n.Xylographus rufipennis Pic, 1934, syn. n.Xylographus seychellensis Scott, 1926, syn. n.Xylographus tarsalis F\u00e5hraeus, 1871, syn. n.Xylographus nitidissimus Pic, 1916Xylographus longicollis Pic, 1922, syn. n.Xylographus perforatus Gerstaecker, 1871Xylographus porcus Gorham, 1886Xylographus punctatus Melli\u00e9, 1849Xylographus ritsemai Pic, 1921Xylographus rufipes Pic, 1930Xylographus scheerpeltzi Nobuchi & Wada, 1956Xylographus subopacus Pic, 1929Xylographus subsinuatus Pic, 1916Xylographus rufescens Pic, 1921, syn. n.Xylographus suillus Gorham, 1886Xylographus tomicoides Reitter, 1902Cis renominatus, nom. n.Xylographus dentatus Pic, 1922, not Cis dentatus Melli\u00e9, 1849.Paratrichapus fultoni , comb. n.Cis fultoni Broun, 1886Paratrichapus javanus , comb. n.Xylographus javanus Pic, 1937PageBreakMelli\u00e9, 1849http://species-id.net/wiki/Xylographus_anthracinusXylographus anthracinusXylographus testaceitarsissyn. n. Type-locality: Mahatsinjo, Madagascar. Pic 1916: 13., Anthracinus Dup. Madagascar.[handwritten] \\ Ex-Mus\u00e6o Mniszech [printed] \\ [red label] LECTOTYPE Xylographus anthracinus Melli\u00e9 [handwritten]\u201d; 2 female paralectotypes (MNHN), labeled: \u201canthracinus (ex coll. Chev.) [handwritten] \\ Melli\u00e9 vidit [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus anthracinus Melli\u00e9 [handwritten]\u201d; 2 male paralectotypes (MHNG), labeled: \u201cColl. Melly [printed] \\ [yellow label] PARALECTOTYPE Xylographus anthracinus Melli\u00e9 [handwritten]\u201d.MADAGASCAR: male lectotype (MNHN), here designated, labeled: \u201cXylographus testaceitarsis Pic 1916, here designated, labeled: \u201cMAHATSINJO pr\u00e8s Tananarive [printed] \\ Type [handwritten] \\ testaceitarsis Pic [handwritten] \\ [red label] LECTOTYPE Xylographus testaceitarsis Pic [handwritten]\u201d; 1 male and 3 female paralectotypes (MNHN), labeled: \u201cMAHATSINJO pr\u00e8s Tananarive [printed] \\ [yellow label] PARALECTOTYPE Xylographus testaceitarsis Pic [handwritten]\u201d.MADAGASCAR: male lectotype (MNHN) of Xylographus anthracinus and the lectotype of Xylographus testaceitarsis. They are males of about the same size and with secondary sexual characteristic similarly developed. We have also dissected and compared sclerites of their abdominal terminalia and noted no difference.There is no morphological difference between the lectotype of Pic, 1916http://species-id.net/wiki/Xylographus_bicolorXylographus bicolor Pic 1916: 13. Type-locality: Mahatsinjo, Madagascar.bicolor Pic [handwritten] \\ [red label] LECTOTYPE Xylographus bicolor Pic [handwritten]\u201d.MADAGASCAR: male lectotype (MNHN), here designated, labeled: \u201cMAHATSINJO pr\u00e8s Tananarive [printed] \\ Type [handwritten] \\ http://species-id.net/wiki/Xylographus_bostrichoidesCis bostrichoides : 93. TypCis cribatusXylographus bostrichoidesaubei var. PageBreakaubei, and dozens of specimens that do fit the currently accepted species limits. Xylographus bostrichoides. However, after studying this specimen, we determined it is a member of Scolytinae (Curculionidae) and fits neither the original description by Unfortunately we did not find the type material of Dufour in the MNHN. We have found only specimens used by Pic, 1916http://species-id.net/wiki/Xylographus_brasiliensisXylographus brasiliensis Pic 1916: 13. Type-locality: Rio Verde, Brazil.Xylographus lucasisyn. n. Type-locality: Venda Nova do Imigrante, Esp\u00edrito Santo, Brazil.Xylographus [handwritten] \\ Type [handwritten] \\ Brasiliensis Pic [handwritten] \\ [red label] LECTOTYPE Xylographus brasiliensis Pic [handwritten]\u201d.BRASIL: female lectotype (MNHN), here designated, labeled: \u201cBresil. Goyaz. Rio Verde [printed] \\ See Xylographus lucasi, the authors did not have access to type specimens of Xylographus brasiliensis and stated that its description was vague (Lopes-Andrade and Lawrence 2003). After we examined the available type of Xylographus brasiliensis, a female located in the MNHN, we observed there is no difference between it and female paratypes of Xylographus lucasi. We have located in the MNHN a male specimen collected in \u201cGoyaz\u201d (which may correspond to the current state of Goi\u00e1s or to Tocantins), a historical specimen but not from the original type series of Xylographus brasiliensis. We dissected it and compared the sclerites of abdominal terminalia to those of male paratypes of Xylographus lucasi, and they are exactly the same. The species is widespread in the tropical South America and the type localities of both names are within its known range (pers. obs.).In the description of Blair, 1940http://species-id.net/wiki/Xylographus_bynoeiXylographus bynoeiXylographus bynoei Blair Type det. K.G. Blair 1939 [handwritten]\u201d; 2 male and 2 female paratypes (NHM), labeled: \u201c[yellow disc] Paratype [printed] \\ N.W. Australia pres. By B. Bynoe, R.N. Surgeon on H.M.S. Beagle. See Stokes, Voyage of Discoveries. 1846 [handwritten]\u201d; 4 female paralectotypes (NHM), labeled: \u201cAustralia 44.4 [handwritten] \\ [yellow disc] Paratype [printed]\u201d.AUSTRALIA: male holoype (NHM), labeled: \u201c[faded blue disc] N. Holl. [above] 44.4 [below] [handwritten] \\ [red disc] Holotype [printed] \\ PageBreakAncey, 1876http://species-id.net/wiki/Xylographus_ceylonicusXylographus ceylonicusXylographus ceylonicus Ancey, n. sp. Ceylan Types [handwritten] \\ [red label] LECTOTYPE Xylographus Ceylonicus Ancey [handwritten]\u201d; 6 males, 1 female and 7 specimens of undetermined gender, all paralectotypes (MNHN), labeled: \u201cXylographus Ceylonicus Ancey, n. sp. Ceylan Types [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus ceylonicus Ancey [handwritten]\u201d; 3 male and 1 female paralectotypes (MNHN), labeled: \u201cCEYLAN [printed] \\ type [handwritten] \\ Syntypes [handwritten] \\ Ceylan Pointe de Galles [handwritten] \\ Xylographus ceylonicus Ancey [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus ceylonicus Ancey [handwritten]\u201d; 7 paralectotypes of undetermined gender (MNHN), labeled: \u201cXylographus Ceylonicus Ancey Ceylan [handwritten] \\ Ex. Coll. REITTER [printed] \\ [yellow label] PARALECTOTYPE Xylographus ceylonicus Ancey [handwritten]\u201d; 2 paralectotypes of undetermined gender (MFNB), labeled: \u201cXylographus Ceylonicus Ancey Ceylon Ancey Type [handwritten] \\ Coll. L.W. Schaufuss [printed] \\ [red label] ? SYNTYPUS Xylographus ceylonicusXylographus ceylonicus Ancey [handwritten]\u201d; 2 paralectotypes of undetermined gender (MFNB), labeled: \u201cXylographus Ceylonicus Ancey Ceylan [handwritten] \\ [red label] ? SYNTYPUS Xylographus ceylonicusXylographus ceylonicus Ancey [handwritten]\u201d; 2 paralectotypes of undetermined gender (MFNB), labeled: \u201cXylographus Ceylonicus Ancey Ceylan [handwritten] \\ ex Coll. Hiller [handwritten] \\ [red label] ? SYNTYPUS Xylographus ceylonicusXylographus ceylonicus Ancey [handwritten]\u201d.SRI LANKA: male lectotype (MNHN), here designated, labeled: \u201cMelli\u00e9, 1849http://species-id.net/wiki/Xylographus_contractusXylographus contractusXylographus Contractus Bresil Lap. Cast. 72 [handwritten] \\ [red label] LECTOTYPE Xylographus contractus Melli\u00e9 [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201c[green disc] Xylographus contractus Bresil [unreadable] 83 [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus contractus Melli\u00e9 [handwritten]\u201d.BRASIL: female lectotype (MNHN), here designated, labeled: \u201c[green disc] PageBreakMelli\u00e9, 1849http://species-id.net/wiki/Xylographus_corpulentusXylographus corpulentusXylographus lemoultisyn. n. Type-locality: St-Laurent du Maroni, French Guiana. Pic 1916: 4. Xylographus richardisyn. n. Type-locality: Cayenne, French Guiana.Xylographus corpulentus Melli\u00e9 [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201c[green label] \u2640 [handwritten] \\ Melli\u00e9 vidit [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus corpulentus Melli\u00e9 [handwritten]\u201d; 1 female paralectotype (MNHM), labeled: \u201c[green label] \u2640 [handwritten] \\ Melli\u00e9 vidit [handwritten] \\ Corpulentus Mell. (Coll. Chevrolat) [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus corpulentus Melli\u00e9 [handwritten]\u201d; 1 male and 2 female paralectotypes (MNHN), labeled: \u201c[green disc] Xylographus Corpulentus Perou Lap. Cast. 72 [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus corpulentus Melli\u00e9 [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201c[green disc] Xylographus Corpulentus Kunze Perou T. Cast. 83 [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus corpulentus Melli\u00e9 [handwritten]\u201d; 1 male and 2 female paralectotypes (MNHN), labeled: \u201c[green label] Kunze 19 [handwritten] \\ [green label] Cis Corpulentus Kunze Perou [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus corpulentus Melli\u00e9 [handwritten]\u201d.PERU: male lectotype (MNHN), here designated, labeled: \u201c[green label] \u2642 [handwritten] \\ Melli\u00e9 vidit [handwritten] \\ [red label] LECTOTYPE PageBreakXylographus lemoulti Pic, 1916, here designated, labeled: \u201cNOVEMBRE [printed] \\ [green label] GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ [green label] COLL LE MOULT [printed] \\ Type [handwritten] \\ [red label] LECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d; 3 male and 2 female paralectotypes (MNHN), labeled: \u201cNOVEMBRE [printed] \\ [green label] GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ [green label] COLL LE MOULT [printed] \\ [yellow label] PARALECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d; 2 male and 1 female paralectotypes (MNHN), labeled: \u201cNOVEMBRE [printed] \\ GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ COLL LE MOULT [printed] \\ [yellow label] PARALECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201cNOVEMBRE [printed] \\ GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ COLL LE MOULT [printed] \\ [yellow label] PARALECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d; 3 male and 4 female paralectotypes (MNHN), labeled: \u201cOCTOBRE [printed] \\ GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ COLL LE MOULT [printed] \\ [yellow label] PARALECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d; 1 male and 3 female paralectotypes (MNHN), labeled: \u201cJUIN [printed] \\ [green label] GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ [green label] COLL LE MOULT [printed] \\ [yellow label] PARALECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201cMAI [printed] \\ GUYANE FRAN\u00c7AISE St-LAURENT du MARONI [printed] \\ COLL LE MOULT [printed] \\ [yellow label] PARALECTOTYPE Xylographus lemoulti Pic [handwritten]\u201d.FRENCH GUIANA: male lectotype (MNHN) of Xylographus richardi in the Chevrolat collection of MNHN. We located a female specimen from Colombia in the Melly collection of MHNG named as Xylographus richardi. Xylographus corpulentus and Xylographus lemoulti and they are exactly the same. Xylographus corpulentus and Xylographus richardi, stating that they resemble each other \u201cpour la taille et la forme\u201d, with Xylographus richardi being more punctate. We believe the description of Xylographus richardi was based on a female specimen, because the pronotal surface between punctures is described as being finely rugose. We have observed that it is common in female Xylographus species to have pronotal surface distinctly more rugose than that of males. The type of Xylographus corpulentus was described as being black, while the one of Xylographus richardi was described as reddish. It is a common variation found in Xylographus corpulentus, in which teneral adults may be reddish (pers. obs.). Xylographus lemoulti differs from Xylographus richardi in the coloration and pronotal shape, again a consequence of the fact that the description of Xylographus richardi was based in a teneral adult female. The type-localities of Xylographus lemoulti and Xylographus richardi are approximately 200 Km apart and both are in the coast of French Guiana.There are several type specimens of species described by Melli\u00e9 deposited in historical collections of the MHNG and the MNHN. In the MHNG, these types are in the A. Melly collection, who has a surname similar to that of J. Melli\u00e9 but shall not be confounded. We did not find type material of Melli\u00e9, 1849http://species-id.net/wiki/Xylographus_gibbusXylographus gibbusXylographus gibbus Klg. Mell. Colomb. T. Cast. 72 [handwritten] \\ [green label] Cis gibbus Klug [handwritten] \\ Xylographus gibbus Reiche \\ MUSEUM PARIS COLL. DE MARSEUL 2842-00 [printed] \\ [red label] LECTOTYPE Xylographus gibbus Melli\u00e9 [handwritten]\u201d; 1 male paralectotype (MHNG), labeled: \u201cGibbus Klug Colombie Klug Melli\u00e9 [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus gibbus Melli\u00e9 [handwritten]\u201d.COLOMBIA: female lectotype (MNHN), here designated, labeled: \u201c[green disc] PageBreakReitter, 1911Xylographus globipennisSee Melli\u00e9, 1849http://species-id.net/wiki/Xylographus_hypocritusXylographus hypocritusHypocritus Dup. Madagascar. [handwritten] \\ Ex-Mus\u00e6o Mniszech [printed] \\ [red label] LECTOTYPE Xylographus hypocritus Melli\u00e9 [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201cMadagascar [handwritten] \\ Ex-Mus\u00e6o Mniszech [printed] \\ [yellow label] PARALECTOTYPE Xylographus hypocritus Melli\u00e9 [handwritten]\u201d.MADAGASCAR: male lectotype (MNHN), here designated, labeled: \u201cMelli\u00e9, 1849http://species-id.net/wiki/Xylographus_madagascariensisXylographus madagascariensisXylographus eichelbaumisyn. n. Type-locality: Amani, Tanzania.Xylographus rufipennissyn. n. Type-locality: Gura, Kenya.Xylographus seychellensissyn. n. Type-locality: Mahe, Seychelles.Xylographus tarsalissyn. n. Type-locality: Caffraria (Eastern Cape of South Africa).Madagascariensis Dup. Madagascar.[handwritten] \\ Ex-Mus\u00e6o Mniszech [printed] \\ [red label] LECTOTYPE Xylographus madagascariensis Melli\u00e9 [handwritten]\u201d.MADAGASCAR: male lectotype (MNHN), here designated, labeled: \u201cPageBreakXylographus rufipennis Pic, 1934, here designated, labeled: \u201c[red disc]Type [printed] \\ R. E, DENT GURA R, 7500 AUG 1929 [printed] \\ Xylographus rufipennis n. sp. [handwritten] \\ Pres. By Imp. Inst. Ent B. M. 1934-42. [printed] \\ [red label] LECTOTYPE Xylographus rufipennis Pic [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201cR. E, DENT GURA R, 7500 AUG 1929 [printed] \\ Xylographus rufipennis n. sp [handwritten] \\ ex. British museum [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus rufipennis Pic [handwritten]\u201d. SEYCHELLES: male lectotype (NHM) of Xylographus seychellensisXylographus seychellensis, Scott TYPE. \u2642. [handwritten] \\ Figured specimen [printed] (outline whole vis) [handwritten] \\ TYPE [printed] \\ [red label] LECTOTYPE Xylographus seychellensis Scott [handwritten]\u201d. SOUTH AFRICA: male lectotype (NHRS) of Xylographus tarsalisXylographus tarsalis F\u00c5HR. Det. Julio Ferrer 1995 [handwritten] \\ [green label] Riksmuseum Stockholm [printed]\u201d; 1 male and 1 female paralectotypes (NHRS), labeled: \u201cCaffraria [printed] \\ J. Wahlb. [printed] \\ [red label] Paralectotype Xylographus tarsalis F\u00c5HR. Det. Julio Ferrer 1995 [handwritten] \\ [green label] Riksmuseum Stockholm [printed]\u201d. TANZANIA: female holotype (NHMW) of Xylographus eichelbaumiFomes nigrolachatus [handwritten] \\ Amani. Deutsch Ostafr. [handwritten] \\ Xylographus eichelbaumi m. Typ. 1907. [handwritten] \\ Eichelbaumi Usambara Reitt. [handwritten] \\ [red label] HOLOTYPE Xylographus eichelbaumi Reitt. [handwritten]\u201d.KENYA: female lectotype (NHM) of Xylographus madagascariensis and that he described Xylographus seychellensis with some hesitation. If he had examined the known male type of Xylographus madagascariensis, he would have observed that it was just slightly more elongate than the specimens he had at hand, with no other differences. Such a small difference in body elongation is expected to occur in Xylographus species with broad geopraphical distribution , labeled: \u201ctype [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus nitidissimus Pic [handwritten]\u201d; 4 male and 4 female paralectotypes (MNHN), labeled: \u201cSan Thom\u00e9 [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus nitidissimus Pic [handwritten]\u201d.S\u00c3O TOM\u00c9 AND PR\u00cdNCIPE: male lectotype (MNHN) of Xylographus longicollis Pic, 1922, here designated, labeled: \u201c? Dahomey [handwritten] \\ Provenance ? [handwritten] \\ longicollis n. sp. [handwritten] \\ [red label] LECTOTYPE Xylographus longicollis Pic [handwritten]\u201d.BENIN: female lectotype (MNHN) of Xylographus longicollis is a female of Xylographus nitidissimus.We observed that the female lectotype of Gerstaecker, 1871http://species-id.net/wiki/Xylographus_perforatusXylographus perforatusperforatus Gerst.* Sansibar Cooke [handwritten] \\ 56743 [printed] \\ [blue label] Hist.-Coll. (Coleoptera) Nr. 56743 (1. Ex) Xylographus perforatus Gerst. Sansibar, Cooke Zool. Mus. Berlin [printed] \\ [red label] SYNTYPUS Xylographus perforatusXylographus perforatus Gerstaecker [handwritten]\u201d; 2 male and 3 female paralectotypes (MFNB), labeled: \u201c[blue label] Hist.-Coll. (Coleoptera) Nr. 56743 (1.-5. Ex) Xylographus perforatus Gerst. Sansibar, Cooke Zool. Mus. Berlin [printed] \\ [red label] SYNTYPUS Xylographus perforatusXylographus perforatus Gerstaecker [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201cZanzibar, C. Cooke. [printed] \\ [blue label] MUSEUM PARIS Collection L\u00e9on Fairmaire 1906 [printed] \\ Xylographus perforatus Gerst. [handwritten] P. Lesne vid. [printed] \\ [yellow label] PARALECTOTYPE Xylographus perforatus Gerstaecker [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201cZanzibar, C. Cooke. [printed] \\ Bragance (Para) M. de Mathan [printed] \\ Kein Scolytide [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus perforatus Gerstaecker [handwritten]\u201d; 1 male and 1 female paralectotype (MNHN), labeled: \u201cZanzibar, C. Cooke. [printed] \\ Xylographus perforatus Gerst. Zanzib. [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus perforatus Gerstaecker [handwritten]\u201d; 1 male and 1 female paralectotypes (MCZ), labeled: \u201cZanzibar, C. Cooke. [printed] \\ [black disc] \\ Xylographus perforatus 140 Gerstaecker [printed] \\ [yellow label] PARALECTOTYPE Xylographus perforatus Gerstaecker [handwritten]\u201d.TANZANIA: male lectotype (MFNB), here designated, labeled: \u201c[green label] Gorham, 1886http://species-id.net/wiki/Xylographus_porcusXylographus porcusPageBreakCis, porcus [handwritten] \\ B.C.A., Col., III (2). Xylographus porcus. [printed] \\ [red label] LECTOTYPE Xylographus porcus Gorh. [handwritten]\u201d; 1 male and 2 female paralectotypes (MNHN), labeled: \u201cTeleman, Vera Paz. Champion. [printed] \\ Xylographus porcus, Gorh [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus porcus Gorh. [handwritten]\u201d; 2 female paralectotypes (MNHN), labeled: \u201cZapote, Guatemala. G. C. Champion. [printed] \\ [yellow label] PARALECTOTYPE Xylographus porcus Gorh. [handwritten]\u201d; 1 male and 2 female paralectotypes (MNHN), labeled: \u201cPantaleon, 700 ft. Champion. [printed] \\ [yellow label] PARALECTOTYPE Xylographus porcus Gorh. [handwritten]\u201d.GUATEMALA: male lectotype (NHM), here designated, labeled: \u201c[purple disc] LECTOTYPE [printed] \\ Teleman, Vera Paz. Champion. [printed] \\ Type. [printed] \\ Melli\u00e9, 1849http://species-id.net/wiki/Xylographus_punctatusXylographus punctatusXylographus punctatus Mellie [handwritten]\u201d; 1 male and 3 female paralectotypes (MNHN), labeled: \u201cNouv. Grenada [handwritten] \\ Coll. Chevrolat [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus punctatus Mellie [handwritten]\u201d; 1female paralectotype (MNHN), labeled: \u201cCarthagene [handwritten] \\ Collect. Chevrolat [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus punctatus Mellie [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201c[green disc] Xylographus punctatus Mell. Colomb. T. Cast. 72 [handwritten] \\ [pink disc] punctatus [handwritten] \\ punctatus Chev. Colombia [handwritten] \\ MUSEUM PARIS COLL DE MARSEUL [printed] \\ [yellow label] PARALECTOTYPE Xylographus punctatus Mellie [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201c[green disc] Xylographus punctatus Colomb. Lap. Cast. 72 [handwritten] \\ [green label] Chevt. Colomb [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus punctatus Mellie [handwritten]\u201d.COLOMBIA: male lectotype (MNHN), here designated, labeled: \u201c[green label] \u2642 [handwritten] \\ Nouv. Grenada [handwritten] \\ Coll. Chevrolat [handwritten] \\ [red label] LECTOTYPE Pic, 1921http://species-id.net/wiki/Xylographus_ritsemaiXylographus ritsemaiPageBreakRitsemai Pic [handwritten] \\ type [handwritten] \\ Ceylon. Ancey. [handwritten] \\ [red label] LECTOTYPE Xylographus ritsemai Pic [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201cRitsemai Pic [handwritten] \\ type [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus ritsemai Pic [handwritten]\u201d.SRI LANKA: male lectotype (MNHN), here designated, labeled: \u201cPic, 1930http://species-id.net/wiki/Xylographus_rufipesXylographus rufipesXylographus rufipes n. sp. [handwritten] \\ [red label] LECTOTYPE Xylographus rufipes Pic [handwritten]\u201d; 1 male paralectotype (NHM), labeled: \u201cArgentina Tucum\u00e1n 1 Oct. 1929 [printed] \\ H. E. Box leg. [printed] \\ 2709 [printed] \\ Xylographus rufipes, Pic sp. nov. [handwritten] \\ Brit. Mus. 1948-460. [printed] \\ [yellow label] PARALECTOTYPE Xylographus rufipes Pic [handwritten]\u201d.ARGENTINA: male lectotype (MNHN), here designated, labeled: \u201cArgentina Tucum\u00e1n 1 Oct. 1929 [printed] \\ H. E. Box leg. [printed] \\ 2705 [printed] \\ Nobuchi & Wada, 1956http://species-id.net/wiki/Xylographus_scheerpeltziXylographus scheerpeltziPic, 1929http://species-id.net/wiki/Xylographus_subopacusXylographus subopacusPageBreakXylographus subopacus Pic [handwritten]\u201d; 1 female paralectotype (MNHN), labeled: \u201cBELGIAN CONGO. 18 m. S. W. of Elizabethville. 1928. Dr. H. S. Evans. [printed] \\ Xylographus subopacus n. sp. [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus subopacus Pic [handwritten]\u201d.DEMOCRATIC REPUBLIC OF THE CONGO: female lectotype (NHM), here designated, labeled: \u201c[purple disc] LECTOTYPE [printed] \\ BELGIAN CONGO. 18 m. S. W. of Elizabethville. 24.iii.1928. Dr. H. S. Evans. [printed] \\ Pres. by Imp. Inst. Ent. Brit. Mus. 1932-147. [printed] \\ [red label] LECTOTYPE Pic, 1916http://species-id.net/wiki/Xylographus_subsinuatusXylographus subsinuatus Pic 1916: 4. Type-locality: Madagascar.Xylographus rufescenssyn. n. Type-locality: Bourbon Island (Reunion).subsinuatus Pic [handwritten] \\ [red label] LECTOTYPE Xylographus subsinuatus Pic [handwritten]\u201d; 6 males, 3 females, 17 specimens of undetermined gender, all paralectotypes (MNHN), labeled: \u201cMADAGASCAR Plantations du Sambirano COLLECTION LE MOULT [printed] \\ [red label] Coll. C [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus subsinuatus Pic [handwritten]\u201d.MADAGASCAR: male lectotype (MNHN), here designated, labeled: \u201cMADAGASCAR Plantations du Sambirano COLLECTION LE MOULT [printed] \\ [red label] Coll. C [handwritten] \\ Type [handwritten] \\ Xylographus rufescensrufescens Pic [handwritten] \\ [red label] LECTOTYPE Xylographus rufescens Pic [handwritten]\u201d.REUNION: male lectotype (MNHN) of Xylographus rufescens is a small teneral male of Xylographus subsinuatus. We dissected the types and compared the sclerites of abdominal terminalia, which are identical.We observed that the lectotype of Gorham, 1886http://species-id.net/wiki/Xylographus_suillusXylographus suillusXylographus suillus, Gorh. [handwritten] \\ B.C.A., Coll., III (2). Xylographus suillus, Gorh. [printed] \\ [red label] LECTOTYPE Xylographus suillus Gorh. [handwritten]\u201d; 2 male and 4 female paralectotypes (MNHN), labeled: \u201cTeleman, Vera Paz. Champion. [printed] \\ [pink label] In boleti attached to manaca palm [handwritten] \\ Xylographus suillus, Gor. [handwritten] \\ [yellow label] PARALECTOTYPE Xyloraphus suillus Gorh. [handwritten]\u201d.GUATEMALA: male lectotype (NHM), here designated, labeled: \u201c[purple disc] LECTOTYPE [printed] \\ Type. Sp. figured [printed] \\ Teleman, Vera Paz. Champion. [printed] \\ PageBreakReitter, 1902http://species-id.net/wiki/Xylographus_tomicoidesXylographus tomicoidestomicoides m. 1902 [handwritten] \\ [red label] LECTOTYPE Xylographus tomicoides Reitter [handwritten]\u201d.RUSSIA: male lectotype (MNHN), here designated, labeled: \u201cAmur [handwritten] \\ Xylographus dentatusCis dentatus Melli\u00e9, 1849. Type-locality: Republic of the Congo.dentatus n. sp. [handwritten] \\ Cis sp. A. Kompantsev det. 2010 [handwritten] \\ [red label] LECTOTYPE Xylographus dentatus Pic [handwritten] \\ [green label] Cis renominatus Sandoval-G\u00f3mez, L\u00f3pes-Andrade & Lawrence nom. n.\u201d; 6 male and 2 female paralectotypes (MNHN), labeled: \u201cFranz. Congo [printed] \\ [yellow label] PARALECTOTYPE Xylographus dentatus Pic [handwritten] \\ [green label] Cis renominatus Sandoval-G\u00f3mez, L\u00f3pes-Andrade & Lawrence nom. n.\u201d.REPUBLIC OF THE CONGO: male lectotype (MNHN), here designated, labeled: \u201cFranz. Congo [printed] \\ Xylographus dentatus Pic, 1922 is transferred to the genus Cis, but Cis dentatus becomes a junior secondary homonym of Cis dentatus Melli\u00e9, 1849. The replacement name proposed here means \u201crenamed\u201d.comb. n.http://species-id.net/wiki/Paratrichapus_fultoniCis fultoniXylographus fultoni PageBreakCis fultoni [handwritten] \\ Rhopalodontus fultoni Broun. K. Paviour-Smith det. 1966 [handwritten] \\ [red label] LECTOTYPE Cis fultoni Broun [handwritten]\u201d; 1 female paralectotype (NHM), labeled: \u201c1614 [handwritten] \\ Taieri [printed] \\ New Zealand. Broun Coll. Brit. Mus. 1922-482 [printed] \\ Cis fultoni [handwritten] \\ Rhopalodontus fultoni Broun. K. Paviour-Smith det. 1966 [handwritten] \\ [yellow label] PARALECTOTYPE Cis fultoni Broun [handwritten]\u201d.NEW ZEALAND: male lectotype (NHM), here designated, labeled: \u201c1614 [handwritten] \\ Taieri [printed] \\ New Zealand. Broun Coll. Brit. Mus. 1922-482 [printed] \\ comb. n.http://species-id.net/wiki/Paratrichapus_javanusXylographus javanusXylographus javanusrufomarginatus var. Fomes melanopurus Mont. [printed] \\ n. sp. diff\u00e8re de Xylographus ceylonicus Ancey par la forme plus allong\u00e9e, le thorax moins court, plus fortement r\u00e9tr\u00e9ci en avant, les \u00e9lytres sans pli hum\u00e9ral brillant [handwritten] \\ [red label] LECTOTYPE Xylographus javanus Pic [printed] \\ Paratrichapus javanus comb. n. Sandoval-G\u00f3mez, Lopes-Andrade & Lawrence [handwritten]\u201d; 1 male paralectotype (MNHN), labeled: \u201cF. C. DRESCHER G. Tangkoeban Prahoe 4000.5000 Voet. Preanger. Java 31.x.1934 [printed] \\ ex Fomes melanopurus Mont. [printed] \\ [yellow label] PARALECTOTYPE Xylographus javanus Pic [printed] \\ Paratrichapus javanus comb. n. Sandoval-G\u00f3mez, Lopes-Andrade & Lawrence [handwritten]\u201d; 1female paralectotype (MNHN), labeled: \u201cF. C. DRESCHER G. Tangkoeban Prahoe 4000.5000 Voet. Preanger. Java 22.i.1935 [printed] \\ ex Fomes melanopurus Mont. [printed] \\ Xylographus javanus n. sp. [handwritten] \\ [yellow label] PARALECTOTYPE Xylographus javanus Pic [printed] \\ Paratrichapus javanus comb. n. Sandoval-G\u00f3mez, Lopes-Andrade & Lawrence [handwritten]\u201d.INDONESIA: male lectotype (MNHN), here designated, labeled: \u201cF. C. DRESCHER G. Tangkoeban Prahoe 4000.5000 Voet. Preanger. Java 31.x.1934 [printed] \\ ex"} +{"text": "The coordination polyhedron shows a slightly distorted Archimedean square-anti\u00adprismatic geometry. The crystal packing is stabilized by weak C\u2014H\u22efO inter\u00adactions.In the title compound, [Hf(C DOI: 10.1107/S1600536810030400/bg2349Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cation adopts a chair conformation. The crystal structure is stabilized by inter\u00admolecular N\u2014H\u22efCl hydrogen bonds.In the complex anion of the title compound, (C DOI: 10.1107/S1600536810047689/bx2322Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal atoms are linked by the dianions into zigzag chains running parallel to [11The asymmetric unit of the title compound, {[Ni(C DOI: 10.1107/S1600536810045794/rz2513Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810049081/pk2286Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811022598/mg2119Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by N\u2014H\u22efO hydrogen bonds, forming C(4) chains propagating in [001].In the title compound, C DOI: 10.1107/S160053681101035X/hb5818Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, numerous N\u2014H\u22efCl and bifurcated N\u2014H\u22ef hydrogen bonds link the components.The asymmetric unit of the title compound, (C DOI: 10.1107/S1600536811049464/hb6519Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Zn2+ cation is surrounded by two N atoms and two O atoms from L2\u2212, in a nearly planar configuration, and one methanol O atom, forming a slightly distorted square-pyramidal geometry. The methanol molecule is disordered over two sets of sites in a 0.5:0.5 ratio. In the crystal, O\u2014H\u22efO hydrogen bonds link the mol\u00adecules into chains parallel to [001].In the title complex, [Zn(C DOI: 10.1107/S1600536813016863/jj2167Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813016863/jj2167Isup3.cdxSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure is stabilized by O\u2014H\u22efN and N\u2014H\u22efN hydrogen bonds, forming a three-dimensional network.In the title compound, [Cu(C DOI: 10.1107/S1600536810050178/bt5405Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Therefore the asymmetric unit contains one crystallographically independent half-mol\u00adecule. The Cd atom adopts a tetra\u00adhedral coordination geometry, coordinated by two I atoms and two N atoms from the symmetry-related 4-(2-methyl\u00adstyr\u00adyl)pyridine ligands.In the title complex, [CdI DOI: 10.1107/S1600536811037573/bq2302Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal ions are linked by the EG and L ligands, forming two-dimensional coordination networks, which are associated into the three-dimensional structure through O\u2014H\u22efO hydrogen bonds.In the title complex, {[Mn(C DOI: 10.1107/S1600536810045411/fk2028Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, adjacent mol\u00adecules are linked by N\u2013H\u22efNcyano hydrogen bonds, forming a chain running along [110].In the title compound, C DOI: 10.1107/S1600536813029589/ng5344Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules pack via weak C\u2014H\u22efN and C\u2014H\u22efCl inter\u00adactions.In the title compound, [MnCl DOI: 10.1107/S1600536811043352/su2330Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811043352/su2330Isup3.mol Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The hpc ligands bridge adjacent EuIII ions, forming infinite double chains. Adjacent chains are further connected by hpc ligands into sheets. O\u2014H\u22efO hydrogen bonds then generate a three-dimensional supra\u00admolecular framework.In the title coordination polymer, {[Eu(C DOI: 10.1107/S1600536810048518/hb5735Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the two Cp rings is 3.20\u2005(17)\u00b0. The crystal packing is mainly stabilized by van der Waals forces.In the title mol\u00adecule, [Fe(C DOI: 10.1107/S1600536811014796/mw2007Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The PrIII ions are bridged by the oxalate ligands, forming a layer parallel to (001). O\u2014H\u22efO hydrogen bonds connect the layers.In the title complex, [Pr DOI: 10.1107/S1600536812011014/hy2521Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Two Cl atoms complete a distorted square-pyramidal geometry around the metal atom. In the crystal, a C\u2014H\u22efCl inter\u00adaction connects pairs of mol\u00adecules into centrosymetric dimers.In the title compound, [CdCl DOI: 10.1107/S1600536811005538/pv2387Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "O\u2014H\u22efO hydrogen-bonding inter\u00adactions involving the water mol\u00adecules form infinite chains parallel to [010].In the title compound, [Zn(C DOI: 10.1107/S1600536810050865/dn2633Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination sphere around Cu(II) ion can be described as tetragonally distorted octa\u00adhedral with two perchlorate O atoms occupying the apical positions and four N atoms from two N 1-(2-furyl\u00admethyl)ethane-1,2-diamine ligands in the basal plane.In the title complex, [Cu(ClO DOI: 10.1107/S1600536811012232/nk2094Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The C atoms of the propan-1-aminium cation are disordered over two sets of sites in a 0.65\u2005(3):0.35\u2005(3) ratio. The crystal structure is stabilized by N\u2014H\u22efO hydrogen bonds.In the anion of the title solvated molecular salt, C DOI: 10.1107/S1600536811016850/bt5538Isup2.hkl Structure factors: contains datablocks I. DOI: 10.1107/S1600536811016850/bt5538Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two bpds ligands of the same axial chirality bridge ZnII atoms, generating repeated rhomboidal chains, which are linked by O\u2014H\u22efO hydrogen bonds into a ladder structure.In the title compound, {[Zn(C DOI: 10.1107/S1600536810021331/er2078Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked via O\u2014H\u22efO and O\u2014H\u22efN hydrogen bonds, forming double-stranded chains propagating along [010].In the title compound, [Sn(CH DOI: Click here for additional data file.10.1107/S1600536813012622/su2595Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810023214/pv2294Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The anions bridge adjacent TmIII ions into double chains. Adjacent chains are further connected into sheets. O\u2014H\u22efO hydrogen bonds involving both coordinated and uncoordinated water mol\u00adecules generate a three-dimensional supra\u00admolecular framework.In the title coordination polymer, {[Tm(C DOI: 10.1107/S1600536811007628/pv2392Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each TMIPA anion bridges three CdII cations, forming polymeric complex sheets parallel to (001). Weak C\u2014H\u22efO hydrogen bonding occurs between adjacent sheets.In the crystal structure of the polymeric title complex, [Cd(C DOI: 10.1107/S1600536811054183/xu5394Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811054183/xu5394Isup3.mol Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The pyridinium NH H atom is disordered over the two ligands. Adjacent mononuclear clusters are linked through N\u2014H\u22efO and N\u2014H\u22efN hydrogen-bonding inter\u00adactions, generating layers in the (102) plane.In the title compound, [Nd(NO DOI: 10.1107/S1600536812011397/bt5847Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The chain structure is constructed from square-pyramidally coordinated CuII atoms linked through l-methio\u00adnate ligands. The chains propagate along the a-axis direction and are linked to perchlorate anions via N\u2014H\u22efO hydrogen bonds.The structure of the title compound, {[Cu(C DOI: 10.1107/S1600536811014000/ff2004Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Intra\u00admolecular N\u2014H\u22efO hydrogen bonds help to establish the configuration.In the title compound, [Ni(NO DOI: 10.1107/S1600536810044624/si2301Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, N\u2014H\u22efO hydrogen bonds link the mol\u00adecules into infinite chains running along the b axis.In the title compound, C DOI: 10.1107/S1600536811050732/bt5725Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811050732/bt5725Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Figure 3 caption does not include the correct legend colors. The corrected Figure 3 caption reads:Figure 3. Diversity measures at the site scale in each estuary: \u03b1-site , \u03b3- site (green bars) and \u03b2-site (blue bars). Sites: 1 to 10. Significant Spearman correlation (r) between diversity measures at each estuary is included in left corner of graphs. doi:10.1371/journal.pone.0065575.g003"} +{"text": "Phylogenetic comparison of bacteriophages requires whole genome approaches such as dotplot analysis, genome pairwise maps, and gene content analysis. Currently mycobacteriophages, a highly studied phage group, are categorized into related clusters based on the comparative analysis of whole genome sequences. With the recent explosion of phage isolation, a simple method for phage cluster prediction would facilitate analysis of crude or complex samples without whole genome isolation and sequencing. The hypothesis of this study was that mycobacteriophage-cluster prediction is possible using comparison of a single, ubiquitous, semi-conserved gene. Tape Measure Protein (TMP) was selected to test the hypothesis because it is typically the longest gene in mycobacteriophage genomes and because regions within the TMP gene are conserved.A single gene, TMP, identified the known Mycobacteriophage clusters and subclusters using a Gepard dotplot comparison or a phylogenetic tree constructed from global alignment and maximum likelihood comparisons. Gepard analysis of 247 mycobacteriophage TMP sequences appropriately recovered 98.8% of the subcluster assignments that were made by whole-genome comparison. Subcluster-specific primers within TMP allow for PCR determination of the mycobacteriophage subcluster from DNA samples. Using the single-gene comparison approach for siphovirus coliphages, phage groupings by TMP comparison reflected relationships observed in a whole genome dotplot comparison and confirm the potential utility of this approach to another widely studied group of phages.TMP sequence comparison and PCR results support the hypothesis that a single gene can be used for distinguishing phage cluster and subcluster assignments. TMP single-gene analysis can quickly and accurately aid in mycobacteriophage classification. Mycobacterium tuberculosis and the nonpathogenic M. smegmatis. Mycobacteriophages are the most studied of all bacteriophages with 2,413 mycobacteriophages isolated, more than 344 genomes fully sequenced (http://phagesdb.org/) and approximately 223 full phage genome sequences available on GenBank, making the analysis of these phages a model for bacteriophage research. The number of mycobacteriophages isolated and sequenced in recent years has led to the identification of genetic relationships and subsequent assignment of phages into 17 clusters and 30 subclusters based on whole genome comparison for 74 of the 79 phages included: Acadian (B5) , Adephagia (K1) , Airmid (A5) , Angelica (K1) , Arbiter , Ares (B2) , Avani (F2) [JQ809702], Babsiella (I1) , Backyardigan (A4), Baka (J) , Barnyard (H2) , Benedict (A5) , Bongo (M) , BPs (J), Brujita (I1) , Bxz2 (A3) , Charlie (N) , Che12 (A2), Che9c (I2), Che9d (F2), ChrisnMich (B4) , Colbert (B1), Cooper (B4) , Corndog (O) , CrimD (K1) , Cuco (A5) , Daisy (B3) , DaVinci (A6) , DotProduct (F1) , Eagle (A4) , Faith1 , Firecracker (O), Fruitloop (F1), Gladiator (A6), Gumball (D1) , Halo (G) , Hammer (A6), Harvey (B1) , Hedgerow (B2) , HelDan (A3) , Henry (E) , Hertubise (B1) , Hope (G) , island3 (I1) , JC27 (A1) , JHC117 , JoeDirt (L1) , Konstantine (H1) , Kostya (E) , KSSJEB , Larva (K5) , LeBron (L1) , LHTSCC (A4) , Lilac (E) , LittleE (J) , MacnCheese (K3) [JX042579], Omega (J) , PBI1 (D1) , Phlyer (B3) , Pipefish (B3) , Pixie (K3) , PLot (D1) , Predator (H1) , Redi (N) , RedRock (A2) , Rey (M) , RockyHorror (F1) , Rumpelstiltskin (L2) , Switzer , TM4 (A1) , Trixie (A2) , UPIE (L1) , Yoshi (F2) . Five mycobacteriophage genomes for the 79-phage comparison were downloaded from http://phagesdb.org, and included Archie (L2), Catdawg (0), Frederick (B4), Kratio (K) and Xerxes (N). The genomes from phagesdb.org were unannotated; therefore, DNA Master (http://cobamide2.bio.pitt.edu) was used to auto-annotate the genomes and identify TMP and MCP. For the 247-mycobacteriophage comparison, genomes included the previous 79 along with 157 sequences from GenBank and 11 sequences from the phagesdb.org website. The sequences from phagesdb.org included Bernardo, Hawkeye, HotShotFirst, JAMaL, Mendokysei, Mosby, Odin, Pegleg, Squirty, TA17A, and Whirlwhind. Fasta files of whole genome sequences were downloaded from the http://phagesdb.org website and TMP sequences were identified by Blast searches of the genomes. The 157 mycobacteriophage TMP sequences gathered from GenBank were as follows (cluster) [GenBank Accession number]: 244 (E) [DQ398041], ABU (B1) [JF704091], Adjutor (D1) [EU676000], Aeneas (A1) [JQ809703], Akoma (B3) [JN699006], Alice (C1) [JF704092], Alma (A9) [JN699005], Anaya (K1) [JF704106.1], Angel (G) [NC_012788.1], AnnaL29 (A1) [JN572060], Ardmore (F1) [NC_013936.1], Athena (B3) [JN699003], Ava3 (C1) [JQ911768], Avrafan (G) [JN699002.1], BarrelRoll (K1) [JN643714.1], Bask21 (E) [JF937091.1], Bethlehem (A1) [AY500153], BigNuz (P) [JN412591.1], BillKnuckles (A1) [JN699000], Blue7 (A6) [JN698999], Boomer (F1) [NC_011054.1], BPBiebs31 (A1) [JF957057], Bruns (A1) [JN698998], Butterscotch (D1) [FJ168660], Bxb1 (A1) [AF271693], Bxz1 (C1) [AY129337], Cali (C1) [EU826471], Catera (C1) [DQ398053], Chah (B1) [FJ174694], Che8 (F1) [NC_004680.1], Cjw1 (E) [AY129331], Courthouse (J) [JN698997.1], D29 (A2) [AF022214], Dandelion (C1) [JN412588], DD5 (A1) [EU744252], DeadP (F1) [JN698996.1], DLane (F1) [JF937093.1], Doom (A1) [JN153085], Dori (Singleton) [JN698995.1], Drago (F1) [JN542517.1], Drazdys (C1) [JF704116], Dreamboat (A1) [JN660814], DS6A (Singleton) [JN698994.1], Elph10 (E) [JN391441.1], EricB (A6) [JN049605], ET08 (C1) [GQ303260.1], Euphoria (A1) [JN153086], Eureka (E) [JN412590.1], Fang (B1) [GU247133], Flux (A4) [JQ809701], Gadjet (B3) [JN698992], George (A5) [JF704107], Ghost (C1) [JF704096], Giles (Q) [NC_009993.2], GUmbie (F1) [JN398368.1], Ibhubesi (F1) [JF937098.1], ICleared (A4) [JQ896627], IsaacEli (B1) [JN698990], JacAttac (B1) [JN698989], Jasper (A1) [EU744251], JAWS (K1) [JN185608.1], Jebeks (P) [JN572061.1], Jeffabunny (A6) [JN699019], Kamiyu (B3) [JN699018], KBG (A1) [EU744248], Kikipoo (B1) [JN699017], KLucky39 (B1) [JF704099], Kugel (A1) [JN699016], L5 (A2) [Z18946], Lesedi (A1) [JF937100], Liefie (G) [JN412593.1], LinStu (C1) [JN412592], Llij (F1) [NC_008196.1], Lockley (A1) [EU744249], LRRHood (C1) [GQ303262.1], Marvin (S) [JF704100.1], MeeZee (A4) [JN243856], Microwolf (A3) [JF704101], MoMoMixon (C1) [JN699626], Morgushi (B1) [JN638753], Mozy (F1) [JF937102.1], MrGordo (A1) [JN020140], Murdoc (B1) [JN638752], Museum (A1) [JF937103], Mutaforma13 (F1) [JN020142.1], Myrna (C2) [EU826466], Nappy (C1) [JN699627], Nigel (B4) [EU770221], Nova (D1) [JN699014], Oline (B1) [JN192463], Oosterbaan (B1) [JF704109], Optimus (J) [JF957059.1], Orion (B1) [DQ398046], OSmaximus (B1) [JN006064], Pacc40 (F1) [NC_011287.1], PackMan (A9) [JF704110], Patience (Singleton) [JN412589.1], Peaches (A4) [GQ303263.1], Perseus (A1) [JN572689], PG1 (B1) [AF547430], Phaedrus (B3) [EU816589], Phipps (B1) [JF704102], Pio (C1) [JN699013], Pleione (C1) [JN624850], PMC (F1) [NC_008205.1], Porky (E) [NC_011055.1], Puhltonio (B1) [GQ303264.1], Pukovnik (A2) [EU744250], Pumpkin (E) [GQ303265.1], Qyrzula (B2) [DQ398048], Rakim (E) [JN006062], Ramsey (F1) [NC_011289.1], RidgeCB (A1) [JN398369], Rizal (C1) [EU826467], Rockstar (A3) [JF704111], Rosebush (B2) [AY129334], Saintus (A8) [JN831654], Scoot17C (B1) [GU247134], ScottMcG (C1) [EU826469], Sebata (C1) [JN204348], Send513 (R ) [JF704112.1], Serendipity (B1) [JN006063], SG4 (F1) [JN699012.1], Shaka (A4) [JF792674], Shauna1 (F1) [JN020141.1], ShiLan (F1) [JN020143.1], SirDuracell (E) [JF937106.1], SirHarley (D1) [JF937107], SkiPole (A1) [GU247132], Solon (A1) [EU826470a], Spud (C1) [EU826468], Stinger (B4) [JN699011], Taj (F1) [JX121091.1], TallGrassMM (B1) [JN699010], Thibault (J) [JN201525.1], Thora (B1) [JF957056], ThreeOh3d2 (B1) [JN699009], Tiger (A5) [JX042578], Timshel (A7) [JF957060], TiroTheta9 (A4) [JN561150], Toto (E) [JN006061], Troll4 (D1) [FJ168662], Turbido (A2) [JN408460], Tweety (F1) [NC_009820.1], Twister (A10) [JQ512844], U2 (A1) [AY500152], UncleHowie (B1) [GQ303266.1], Violet (A1) [JN687951], Vista (B1) [JN699008], Vix (A3) [JF704114], Vortex (B1) [JF704103], Wally (C1) [JN699625], Wee (F1) [NC_014901.1], Wildcat (Singleton) [NC_008206.1], Wile (A4) [JN243857], Yoshand (B1) [JF937109], Zemanar (B4) [JF704104].Seventy-nine full genomes were collected from GenBank representing a large extent of diversity of phages infecting Mycobacterium spp. The phage genome, TMP and MCP sequences were collected from GenBank and from An additional 24 TMP sequences from coliphages were used which included HK578 [NC_019724], mEp213 [NC_019720], vB_EcoS_Rogue1 [NC_019718], HK446 [NC_019714], HK140 [NC_019710], mEp235 [NC_019708], mEp043 c-1 [NC_019706], mEpX2 [NC_019705], HK630 [NC_019723], HK633 [NC_019719], HK225 [NC_019717], mEp234 [NC_019715], HK629 [NC_019711], mEpX1 [NC_019709], mEp237 [JQ182730], JL1 [NC_019419], HK022 [NC_002166], lambda [NC_001416], JK06 [NC_007291], T1 [NC_005833], HK97 [NC_002167], N15 [NC_001901], and Escherichia phages ADB-2 [NC_019725], and HK75 [NC_016160].http://tree.bio.ed.ac.uk/software/). The confidence interval of percent clustered and subclustered phage based on TMP comparison of 247 sequences was determined using a Confidence Interval for Proportions with an alpha level of 0.05 (95% confidence level).Gepard was usedBacillus cereus PBC1 phage as outgroup. In order to infer a phylogeny the neighbor-joining method was used and the phylogeny bootstrapped 10,000 times to assess nodal support. A 50% majority-rule consensus tree was obtained using Paup* 4.0 [http://www.genealogicalsorting.org) [For the alignment-free phylogeny, feature frequency profiles were useaup* 4.0 and annoaup* 4.0 ) metric aup* 4.0 . The gening.org) .The authors have no competing interests to declare.KCS, DPB, JHG and SHB were responsible for the design and coordination of the research. KCS conducted the laboratory research. SHB drafted the manuscript, JHG drafted figures and edited extensively. KCS, ECN, JNBF, JHG and DPB participated in genomic and gene analysis. All authors contributed to editing of the manuscript. All authors read and approved the final manuscript."} +{"text": "In the crystal, O\u2014H\u22efO hydrogen bonds are observed between the coordinated carboxyl\u00adate O atoms and the solvent water mol\u00adecule.In the title compound, [Cu(C DOI: 10.1107/S1600536812020193/jj2130Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each oxalate ligand bridges two CdII atoms, generating a zigzag chain structure propagating along [100]. The packing of the structure is consolidated by non-classical C\u2014H\u22efO hydrogen-bonding inter\u00adactions.In the title complex, [Cd(C DOI: 10.1107/S1600536810040341/wm2410Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angles between the piperidine groups and the NCN chelate rings are 51.5\u2005(1) and 52.3\u2005(1)\u00b0.In the mononuclear title complex, [Ti(C DOI: 10.1107/S1600536810053262/hg2762Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The diacetate and 4,4\u2032-bipyridine ligands also lie across inversion centers. The bridging ligands form layers parallel to (11via O\u2014H\u22efO hydrogen bonds between the coordinated water mol\u00adecules and the carboxyl\u00adate O atoms, giving a three-dimensional supra\u00admolecular architecture.In the title compound, [Cd(C DOI: 10.1107/S1600536811031400/zs2132Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Complex mol\u00adecules are connected by C\u2014H\u22efO hydrogen bonds into a three-dimensional network.In the title compound, [Ho(NO DOI: 10.1107/S1600536812012445/is5078Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal, a two-dimensional framework parallel to (010) is formed by N\u2014H\u22efO and O\u2014H\u22efO hydrogen bonds.In the title compound, [Zn(C DOI: 10.1107/S1600536811012992/nk2096Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecule has approximate C 2 point symmetry. The dihedral angles between the phenyl and benzene rings on either side of the ligand are 64.56\u2005(14) and 65.61\u2005(13)\u00b0.In the title compound, [FeCl DOI: 10.1107/S1600536811053773/lh5395Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "II atom in the mononuclear title compound, [Ni(C10H10NS2)(NCS)(C18H15P)], exists within a S2PN donor set that defines a distorted square-planar geometry. A significant asymmetry in the Ni\u2014S bond lengths support the less effective trans effect of SCN\u2212 over PPh3.The Ni DOI: 10.1107/S1600536811050550/bt5724Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The sulfonate groups doubly bridge symmetry-related NiII centers, forming polymeric chains along the a axis.In the title polymeric complex, [Ni(C DOI: 10.1107/S1600536810020325/bh2285Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Schiff base ligand acts as a chelating ligand and coordinates to the ZnII atom via two N atoms.In the title compound, [ZnBr DOI: 10.1107/S1600536812027997/bt5947Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The 4-pybpy ligand, having a twofold rotation axis, functions in a bridging coordination mode, connecting the CoII ions into a corrugated chain along [In the title complex, [Co(CHO DOI: 10.1107/S1600536811021118/hy2424Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The molecules are packed as two monomeric mol\u00adecules with one acetone solvent mol\u00adecule sitting at the centre.The title compound, [Rh(C DOI: 10.1107/S1600536812008148/hg5181Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536811036373/vm2118Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811036373/vm2118Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CoII atom, in an octa\u00adhedral enviroment, is coordinated by four N atoms from two 2-methyl\u00adsulfanyl-4-(pyridin-2-yl)pyrimidine ligands and two Cl atoms.The asymmetric unit of the title compound, [CoCl DOI: 10.1107/S1600536811030881/vm2113Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A two-dimensional polymer is generated, lying parallel to (100), within which there are water\u2013carboxyl\u00adate O\u2014H\u22efO hy\u00addro\u00adgen-bonding inter\u00adactions.In the structure of the title complex, [Cs(C DOI: 10.1107/S1600536813029395/wm2781Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536813029395/wm2781Isup3.cmlSupplementary material file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Each 1,10-phenanthroline ligand displays a bidentate chelating coordinating mode and the 4-sulfonato\u00adbenzotriazolide ions act as \u03bc2-bridges, linking different Zn2+ cations into a chain along the b axis. The crystal structure is consolidated by C\u2014H\u22efO hydrogen-bonding inter\u00adactions.In the title complex, [Zn(C DOI: 10.1107/S160053681104743X/pv2482Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S160053681104743X/pv2482Isup3.cdx Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two aromatic rings make a dihedral angle of 77.4\u2005(1)\u00b0. In the crystal, the molecules are linked by N\u2014H\u22efO hydrogen bonds, forming C(4) chains propagating in [010].In the mol\u00adecular structure of the title compound, C DOI: 10.1107/S1600536811047271/bt5712Isup2.hkl Structure factors: contains datablock(s) I. DOI: 10.1107/S1600536811047271/bt5712Isup3.cml Supplementary material file. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A three-dimensional network is generated by inter\u00admolecular N\u2014H\u22efO and O\u2014H\u22efO hydrogen-bonding interactions involving the cation, the complex anion and the lattice water molecule.In the title compound, (C DOI: 10.1107/S1600536813022058/mw2113Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The Mo6+ centre adopts a highly distorted octa\u00adhedral geometry, being surrounded by four chloride and two terminal oxide groups. The oxide ligands are mutually cis.In the title compound, (C DOI: 10.1107/S1600536810023950/sj5018Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complex mol\u00adecule has an inversion center lying at the mid-point of the Cu\u2014Cu bond.The binuclear title compound, [Cu DOI: 10.1107/S1600536811029837/hy2450Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The five-membered chelate ring is puckered on the C\u2014C bond. In the title compound, [RuCl DOI: 10.1107/S1600536811022227/hb5901Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CoII atom occupies a special position on a twofold rotation axis. In the crystal, mol\u00adecules are linked via weak C\u2014H\u22efBr inter\u00adactions. In the title complex, [Co(C DOI: 10.1107/S160053681104459X/br2176Isup2.hkl Structure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The amide N atom is a hydrogen-bond donor to the uncoordinated carboxyl\u00adate O atom. The geometry at the five-coordinate Sn atom is trans-C3SnO2 trigonal-bipyramidal.In the title polymeric complex, [Sn(C DOI: 10.1107/S1600536810026978/xu2796Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "One of the coordinated nitrate anions is disordered over two set of sites in a 0.85:0.15 ratio.The crystal structure of the title compound, [Cu(NO DOI: 10.1107/S1600536811005290/nc2216Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymmetric unit comprises one nickel cation, two thio\u00adcyanate anions and two actonitrile mol\u00adecules. In the crystal, the NiII cations are connected by bridging thio\u00adcyanate anions into a three-dimensional coordination network.In the title compound, [Ni(NCS) DOI: 10.1107/S1600536811004132/im2264Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the almost symmetrically bridging \u03bc2-C=N-R ligand (neglecting the different atomic radii of Fe and Pt) is strongly bent towards the Fe(CO)3 fragment, with a C=N-R angle of only 121.1\u2005(4)\u00b0.The title compound, [FePt(C DOI: 10.1107/S1600536812004023/fi2121Isup2.hklStructure factors: contains datablock(s) I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "An intra\u00admolecular O\u2014H\u22efN hydrogen bond is present between the quinazoline and hy\u00addroxy groups. In the crystal, mol\u00adecules are stacked along the b-axis direction.In the mol\u00adecule of the title compound, C DOI: 10.1107/S1600536814019990/gg2141Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814019990/gg2141Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S1600536814019990/gg2141fig1.tif17 16 2 . DOI: 17H16N2OS with atom labels and 50% probability displacement ellipsoids for nonhydrogen atoms.A mol\u00adecule of CClick here for additional data file.10.1107/S1600536814019990/gg2141fig2.tifb . DOI: b axis.Crystal structure packing viewed down the 1022918CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Scientific Reports5: Article number: 1278410.1038/srep12784; published online: 08052015; updated: 10052015In this Article, Fig. 6H is a duplication of Supplementary Figure 4. The correct Fig. 6H appears below as"} +{"text": "Scientific Reports5: Article number: 12437; 10.1038/srep12437 published online: 07202015; updated: 01202016.Chapitre 13: L\u2019orbite et ses muscles. In Optique Physiologique. Tome Troisi\u00e8me: l\u2019Espace Visuel 28\u201341 \u2019. The correct reference is listed below:This Article contains errors in Reference 40 which was incorrectly given as \u2018Le Grand, Y. Chapitre 13: L\u2019orbite et ses muscles. In Optique Physiologique. Tome premier : la dioptrique de l\u2019\u0153il et sa correction. 153\u2013163 .Le Grand, Y."} +{"text": "The C\u2014O bond length of 1.3157\u2005(13)\u2005\u00c5 shows double-bond character, indicating charge delocalization within the NCO plane of the iminium ion. In the crystal, C\u2014H\u22efO hydrogen bonds between H atoms of the cations and O atoms of neighbouring ethyl sulfate anions are present, generating a three-dimensional network.In the title salt, C DOI: 10.1107/S2056989015020678/hb7521Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015020678/hb7521Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015020678/hb7521fig1.tif. DOI: The structure of the title compound with displacement ellipsoids at the 50% probability level.Click here for additional data file.10.1107/S2056989015020678/hb7521fig2.tifac . DOI: ac view).C\u2014H\u22efO hydrogen bonds (black dashed lines) between H atoms of the cations and oxygen atoms of the ethyl sulfate ions (1434493CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The full contentscan be found at http://onlinelibrary.wiley.com/doi/10.1111/bph.13352/full. Nuclearhormone receptors are one of the eight major pharmacological targets into which theGuide is divided, with the others being: G protein\u2010coupled receptors, ligand\u2010gatedion channels, voltage\u2010gated ion channels, other ion channels, catalytic receptors,enzymes and transporters. These are presented with nomenclature guidance and summaryinformation on the best available pharmacological tools, alongside key references andsuggestions for further reading. The Concise Guide is published in landscape formatin order to facilitate comparison of related targets. It is a condensed version ofmaterial contemporary to late 2015, which is presented in greater detail andconstantly updated on the website www.guidetopharmacology.org, superseding datapresented in the previous Guides to Receptors & Channels and the Concise Guide toPHARMACOLOGY 2013/14. It is produced in conjunction with NC\u2010IUPHAR and provides theofficial IUPHAR classification and nomenclature for human drug targets, whereappropriate. It consolidates information previously curated and displayed separatelyin IUPHAR\u2010DB and GRAC and provides a permanent, citable, point\u2010in\u2010time record thatwill survive database updates.The Concise Guide to PHARMACOLOGY 2015/16provides concise overviews of the key properties of over 1750 human drug targets withtheir pharmacology, plus links to an open access knowledgebase of drug targets andtheir ligands ( The authors state that there are no conflictsof interest to declare.Nuclear hormone receptors are specialisedtranscription factors with commonalities of sequence and structure, which bind ashomo\u2010 or heterodimers to specific consensus sequences of DNA (response elements) inthe promoter region of particular target genes. They regulate (either promoting orrepressing) transcription of these target genes in response to a variety ofendogenous ligands. Endogenous agonists are hydrophobic entities which, when bound tothe receptor promote conformational changes in the receptor to allow recruitment (ordissociation) of protein partners, generating a large multiprotein complex.Two major subclasses of nuclear receptors withidentified endogenous agonists can be identified: steroid and non\u2010steroid hormonereceptors. Steroid hormone receptors function typically as dimeric entities and arethought to be resident outside the nucleus in the unliganded state in a complex withchaperone proteins, which are liberated upon agonist binding. Migration to thenucleus and interaction with other regulators of gene transcription, including RNApolymerase, acetyltransferases and deacetylases, allows gene transcription to beregulated. Non\u2010steroid hormone receptors typically exhibit a greater distribution inthe nucleus in the unliganded state and interact with other nuclear receptors to formheterodimers, as well as with other regulators of gene transcription, leading tochanges in gene transcription upon agonist binding.Selectivity of gene regulation is brought aboutthrough interaction of nuclear receptors with particular consensus sequences of DNA,which are arranged typically as repeats or inverted palindromes to allow accumulationof multiple transcription factors in the promoter regions of genes.TRs,nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [41]) are nuclear hormone receptors of the NR1A family, with diverse rolesregulating macronutrient metabolism, cognition and cardiovascular homeostasis. TRsare activated by thyroxine (4T) and thyroid hormone (triiodothyronine). Onceactivated by a ligand, the receptor acts as a transcription factor either as amonomer, homodimer or heterodimer with members of the retinoid X receptor family.NH\u20103 has been described as anantagonist at TRs with modest selectivity for TR\u03b2[111]. Thyroid hormone receptors Minireview: cracking themetabolic code for thyroid hormone signaling. J. Clin. Invest.122: 3035\u201043 [PMID:22945636]Brent GA. (2012) Mechanisms of thyroid hormoneaction. et al. (2006)International Union of Pharmacology. LIX. The pharmacology and classification of thenuclear receptor superfamily: thyroid hormone receptors. Pharmacol.Rev.58: 705\u201011 [PMID:17132849]Flamant F et al. (2011) Roleof thyroid receptor \u03b2 in lipid metabolism. Biochim. Biophys. Acta1812: 929\u201037 [PMID:21194564]Pramfalk C et al. (2011) Thethyroid hormones and their nuclear receptors in the gut: from developmental biologyto cancer. Biochim. Biophys. Acta1812: 938\u201046 [PMID:21194566]Sirakov M et al. (2011)Thyromimetics: a journey from bench to bed\u2010side. Pharmacol. Ther.131: 33\u20109 [PMID:21504761]Tancevski I nomenclature asagreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [46]) are nuclear hormone receptors of the NR1B family activated by thevitamin A\u2010derived agonists tretinoin (ATRA) and alitretinoin, and theRAR\u2010selective synthetic agonists TTNPB and adapalene. BMS493 is a family\u2010selectiveantagonist [47]. Retinoic acid receptors Proteinkinases and the proteasome join in the combinatorial control of transcription bynuclear retinoic acid receptors. Trends Cell Biol.17: 302\u20109 [PMID:17467991]Bour G et al. (2011) Themolecular physiology of nuclear retinoic acid receptors. From health to disease.Biochim. Biophys. Acta1812: 1023\u201031 [PMID:20970498]Duong V et al. (2006)International Union of Pharmacology. LX. Retinoic acid receptors. Pharmacol.Rev.58: 712\u201025 [PMID:17132850]Germain P Nat. Rev.Neurosci.8: 755\u201065 [PMID:17882253]Maden M. (2007) Retinoic acid in thedevelopment, regeneration and maintenance of the nervous system. et al. (2006) Functionof retinoid nuclear receptors: lessons from genetic and pharmacological dissectionsof the retinoic acid signaling pathway during mouse embryogenesis. Annu. Rev.Pharmacol. Toxicol.46: 451\u201080 [PMID:16402912]Mark M PPARs, nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors[101]) are nuclear hormone receptors of the NR1C family, with diverse rolesregulating lipid homeostasis, cellular differentiation, proliferation and the immuneresponse. PPARs have many potential endogenous agonists , including \u039412,14\u2010PGJ215\u2010deoxy\u2010, prostacyclin (2PGI), many fatty acids and their oxidation products, lysophosphatidic acid(LPA) [98], 13\u2010HODE, 15S\u2010HETE, Paz\u2010PC, azelaoyl\u2010PAF and leukotriene B4(4LTB). Bezafibrate acts as anon\u2010selective agonist for the PPAR family [159]. These receptors also bindhypolipidaemic drugs (PPAR\u03b1) and anti\u2010diabetic thiazolidinediones (PPAR\u03b3), as well asmany non\u2010steroidal anti\u2010inflammatory drugs, such as sulindac and indomethacin. Once activated bya ligand, the receptor forms a heterodimer with members of the retinoid X receptorfamily and can act as a transcription factor. Although radioligand binding assayshave been described for all three receptors, the radioligands are not commerciallyavailable. Commonly, receptor occupancy studies are conducted using fluorescentligands and truncated forms of the receptor limited to the ligand binding domain.Peroxisome proliferator\u2010activated receptors. Agonists with mixedactivity at PPAR\u03b1 and PPAR\u03b3 have also been described .As with the estrogen receptor antagonists, manyagents show tissue\u2010selective efficacy PPAR\u2010\u03b3as a therapeutic target in cardiovascular disease: evidence and uncertainty.J. Lipid Res.53: 1738\u201054 [PMID:22685322]Huang JV et al. (2006)International Union of Pharmacology. LXI. Peroxisome proliferator\u2010activatedreceptors. Pharmacol. Rev.58: 726\u201041 [PMID:17132851]Michalik L et al. (2008) PPARsMediate Lipid Signaling in Inflammation and Cancer. PPAR Res2008: 134059 [PMID:19125181]Michalik L et al. (2012) Therole of peroxisome proliferator\u2010activated receptors in carcinogenesis andchemoprevention. Nat. Rev. Cancer12: 181\u201095 [PMID:22318237]Peters JM et al. (2012)Targeting peroxisome proliferator\u2010activated receptors (PPARs): development ofmodulators. J. Med. Chem.55: 4027\u201061 [PMID:22260081]Pirat C et al. (2011) PPARsare a unique set of fatty acid regulated transcription factors controlling both lipidmetabolism and inflammation. Biochim. Biophys. Acta1812: 1007\u201022 [PMID:21382489]Varga T et al. (2011)Peroxisome proliferator\u2010activated receptors and cancer: challenges and opportunities.Br. J. Pharmacol.164: 68\u201082 [PMID:21449912]Youssef J nomenclature as agreedby theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand, but arethought to be activated by heme. Rev\u2010erb receptors International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2009)Rev\u2010erb\u2010alpha: an integrator of circadian rhythms and metabolism. J. Appl.Physiol.107: 1972\u201080 [PMID:19696364]Duez H et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al. (2010)Structure of Rev\u2010erbalpha bound to N\u2010CoR reveals a unique mechanism of nuclearreceptor\u2010co\u2010repressor interaction. Nat. Struct. Mol. Biol.17: 808\u201014 [PMID:20581824]Phelan CA Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? et al. (2010) Nuclearreceptor Rev\u2010erbalpha: a heme receptor that coordinates circadian rhythm andmetabolism. Nucl Recept Signal8: e001 [PMID:20414452]Yin L nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be assigned a definitive endogenous ligand, although ROR\u03b1may be synthesized with a \u2018captured\u2019 agonist such as cholesterol. Retinoic acid receptor\u2010related orphan receptorsInternational Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors[105]) are members of a steroid analogue\u2010activated nuclear receptor subfamily,which form heterodimers with members of the retinoid X receptor family. Endogenousligands for LXRs include hydroxycholesterols (OHC), while FXRs appear to be activatedby bile acids. Liver X and farnesoid X receptors Liver X receptors as regulators of macrophage inflammatory and metabolic pathways.Biochim. Biophys. Acta1812: 982\u201094 [PMID:21193033]A\u2010Gonz\u00e1lez N et al. (2010) Liverx receptor signaling pathways and atherosclerosis. Arterioscler. Thromb.Vasc. Biol.30: 1513\u20108 [PMID:20631351]Calkin AC et al. (2011) Nuclearbile acid receptor FXR in the hepatic regeneration. Biochim. Biophys.Acta1812: 888\u201092 [PMID:21167938]Chen WD et al. (2011) Roleof nuclear receptors for bile acid metabolism, bile secretion, cholestasis, andgallstone disease. Biochim. Biophys. Acta1812: 867\u201078 [PMID:21194565]Claudel T et al. (2011)Liver X receptors, lipids and their reproductive secrets in the male.Biochim. Biophys. Acta1812: 974\u201081 [PMID:21334438]El\u2010Hajjaji FZ et al. (2010) Bileacids and their nuclear receptor FXR: Relevance for hepatobiliary andgastrointestinal disease. Biochim. Biophys. Acta1801: 683\u201092 [PMID:20399894]Gadaleta RM et al. (2011)Proteomics for the discovery of nuclear bile acid receptor FXR targets.Biochim. Biophys. Acta1812: 836\u201041 [PMID:21439373]Gardmo C Biochim. Biophys. Acta1812: 842\u201050 [PMID:21130162]Kemper JK. (2011) Regulation of FXRtranscriptional activity in health and disease: Emerging roles of FXR cofactors andpost\u2010translational modifications. et al. (2013) FXRsignaling in the enterohepatic system. Mol. Cell. Endocrinol.368: 17\u201029 [PMID:22609541]Matsubara T et al. (2006)International Union of Pharmacology. LXII. The NR1H and NR1I receptors: constitutiveandrostane receptor, pregnene X receptor, farnesoid X receptor alpha, farnesoid Xreceptor beta, liver X receptor alpha, liver X receptor beta, and vitamin D receptor.Pharmacol. Rev.58: 742\u201059 [PMID:17132852]Moore DD nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors[105]) are members of the NR1I family of nuclear receptors, which formheterodimers with members of the retinoid X receptor family. PXR and CAR areactivated by a range of exogenous compounds, with no established endogenousphysiological agonists, although high concentrations of bile acids and bile pigmentsactivate PXR and CAR [105]. Vitamin D (VDR), Pregnane X (PXR) andConstitutive Androstane (CAR) receptors (Exp. Dermatol.20: 7\u201013 [PMID:21197695]Bikle DD. (2011) Vitamin D: an ancient hormone.et al. (2010) Theyin and yang of vitamin D receptor (VDR) signaling in neoplastic progression:operational networks and tissue\u2010specific growth control. Biochem.Pharmacol.79: 1\u20109 [PMID:19737544]Campbell FC et al. (2012) Nuclearreceptors in the multidrug resistance through the regulation of drug\u2010metabolizingenzymes and drug transporters. Biochem. Pharmacol.83: 1112\u201026 [PMID:22326308]Chen Y et al. (2012) PregnaneX receptor as a target for treatment of inflammatory bowel disorders. TrendsPharmacol. Sci.33: 323\u201030 [PMID:22609277]Cheng J et al. (2011)Nuclear receptor PXR, transcriptional circuits and metabolic relevance.Biochim. Biophys. Acta1812: 956\u201063 [PMID:21295138]Ihunnah CA et al. (2011)Constitutive androstane receptor (CAR) is a xenosensor and target for therapy.Biochemistry Mosc.76: 1087\u201097 [PMID:22098234]Kachaylo EM et al. (2006)International Union of Pharmacology. LXII. The NR1H and NR1I receptors: constitutiveandrostane receptor, pregnene X receptor, farnesoid X receptor alpha, farnesoid Xreceptor beta, liver X receptor alpha, liver X receptor beta, and vitamin D receptor.Pharmacol. Rev.58: 742\u201059 [PMID:17132852]Moore DD et al. (2010) VitaminD, disease and therapeutic opportunities. Nat Rev Drug Discov9: 941\u201055 [PMID:21119732]Plum LA et al. (2013)Nuclear\u2010receptor\u2010mediated regulation of drug\u2010 and bile\u2010acid\u2010transporter proteins ingut and liver. Drug Metab. Rev.45: 48\u201059 [PMID:23330541]Staudinger JL NC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]. While linoleic acid has been identified as the endogenous ligand forHNF4\u03b1 its function remains ambiguous [167]. HNF4\u03b3 has yet to bepaired with an endogenous ligand. The nomenclature of hepatocyte nuclear factor\u20104receptors is agreed by the et al. (2006)International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al.(2010) HNF4\u03b1\u2013role in drug metabolism and potential drug target? Curr OpinPharmacol10: 698\u2010705 [PMID:20833107]Hwang\u2010Verslues WW Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? nomenclature asagreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [45]) are NR2B family members activated by alitretinoin and theRXR\u2010selective agonists bexarotene and LG100268, sometimes referred toas rexinoids. UVI3003[109] and HX 531 [37] have been described as apan\u2010RXR antagonists. These receptors form RXR\u2010RAR heterodimers and RXR\u2010RXR homodimers. Retinoid X receptors Proteinkinases and the proteasome join in the combinatorial control of transcription bynuclear retinoic acid receptors. Trends Cell Biol.17: 302\u20109 [PMID:17467991]Bour G et al. (2011) Themolecular physiology of nuclear retinoic acid receptors. From health to disease.Biochim. Biophys. Acta1812: 1023\u201031 [PMID:20970498]Duong V et al. (2006)International Union of Pharmacology. LXIII. Retinoid X receptors. Pharmacol.Rev.58: 760\u201072 [PMID:17132853]Germain P et al. (2010)Retinoid X receptors: common heterodimerization partners with distinct functions.Trends Endocrinol. Metab.21: 676\u201083 [PMID:20674387]Lefebvre P Nat. Rev.Neurosci.8: 755\u201065 [PMID:17882253]Maden M. (2007) Retinoic acid in thedevelopment, regeneration and maintenance of the nervous system. et al. (2006) Functionof retinoid nuclear receptors: lessons from genetic and pharmacological dissectionsof the retinoic acid signaling pathway during mouse embryogenesis. Annu. Rev.Pharmacol. Toxicol.46: 451\u201080 [PMID:16402912]Mark M et al. (2011)Modulation of RXR function through ligand design. Biochim BiophysActa[PMID:21515403]P\u00e9rez E nomenclature asagreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand, althoughtesticular receptor 4 has been reported to respond to retinoids. Testicular receptors International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2009)Rev\u2010erb\u2010alpha: an integrator of circadian rhythms and metabolism. J. Appl.Physiol.107: 1972\u201080 [PMID:19696364]Duez H et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al. (2010)Structure of Rev\u2010erbalpha bound to N\u2010CoR reveals a unique mechanism of nuclearreceptor\u2010co\u2010repressor interaction. Nat. Struct. Mol. Biol.17: 808\u201014 [PMID:20581824]Phelan CA et al. (2010)Minireview: steroidogenic factor 1: its roles in differentiation, development, anddisease. Mol. Endocrinol.24: 1322\u201037 [PMID:20203099]Schimmer BP Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? et al. (2010) Nuclearreceptor Rev\u2010erbalpha: a heme receptor that coordinates circadian rhythm andmetabolism. Nucl Recept Signal8: e001 [PMID:20414452]Yin L et al. (2011) Role ofnuclear receptor SHP in metabolism and cancer. Biochim. Biophys.Acta1812: 893\u2010908 [PMID:20970497]Zhang Y et al. (2010) NR4Aorphan nuclear receptors: transcriptional regulators of gene expression in metabolismand vascular biology. Arterioscler. Thromb. Vasc. Biol.30: 1535\u201041 [PMID:20631354]Zhao Y nomenclature asagreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. Tailless\u2010like receptors International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2011) A tale oftailless. Dev. Neurosci.33: 1\u201013 [PMID:21124006]Gui H et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? nomenclature asagreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. COUP\u2010TF\u2010like receptors International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al. (2011) Coupd'Etat: an orphan takes control. Endocr. Rev.32: 404\u201021 [PMID:21257780]Lin FJ Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? nomenclatureas agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. Estrogen\u2010related receptors International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2011)Functional and physiological genomics of estrogen\u2010related receptors (ERRs) in healthand disease. Biochim. Biophys. Acta1812: 1032\u201040 [PMID:21172432]Deblois G et al. (2013)Oestrogen\u2010related receptors in breast cancer: control of cellular metabolism andbeyond. Nat. Rev. Cancer13: 27\u201036 [PMID:23192231]Deblois G et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al.(2010) HNF4\u03b1\u2013role in drug metabolism and potential drug target? Curr OpinPharmacol10: 698\u2010705 [PMID:20833107]Hwang\u2010Verslues WW Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. Nerve growth factor IB\u2010like receptorsInternational Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al. (2011)Inflammation: a role for NR4A orphan nuclear receptors? Biochem. Soc.Trans.39: 688\u201093 [PMID:21428963]McMorrow JP et al. (2012)Molecular pathways: the role of NR4A orphan nuclear receptors in cancer.Clin. Cancer Res.18: 3223\u20108 [PMID:22566377]Mohan HM et al. (2010)Minireview: Nuclear hormone receptor 4A signaling: implications for metabolicdisease. Mol. Endocrinol.24: 1891\u2010903 [PMID:20392876]Pearen MA Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? et al. (2010) NR4Aorphan nuclear receptors: transcriptional regulators of gene expression in metabolismand vascular biology. Arterioscler. Thromb. Vasc. Biol.30: 1535\u201041 [PMID:20631354]Zhao Y et al. (2012)NR4All in the vessel wall. J. Steroid Biochem. Mol. Biol.130: 186\u201093 [PMID:21277978]van Tiel CM nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. Fushi tarazu F1\u2010like receptorsInternational Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2012)Steroidogenic factor 1 and the central nervous system. J.Neuroendocrinol.24: 225\u201035 [PMID:21668533]B\u00fcdefeld T et al. (2011) Roleof DAX\u20101 (NR0B1) and steroidogenic factor\u20101 (NR5A1) in human adrenal function.Endocr Dev20: 38\u201046 [PMID:21164257]El\u2010Khairi R et al.(2011) Emerging actions of the nuclear receptor LRH\u20101 in the gut. Biochim.Biophys. Acta1812: 947\u201055 [PMID:21194563]Fernandez\u2010Marcos PJ et al.(2011) Steroidogenic factor\u20101 and human disease. Mol. Cell.Endocrinol.336: 198\u2010205 [PMID:21078366]Ferraz\u2010de\u2010Souza B et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al. (2012)Therapeutic potential of Liver Receptor Homolog\u20101 modulators. J. SteroidBiochem. Mol. Biol.130: 138\u201046 [PMID:22266285]Lazarus KA et al. (2010)The role of the orphan receptor SF\u20101 in the development and function of the ovary.Reprod Biol10: 177\u201093 [PMID:21113200]Mlnynarczuk J et al. (2010)Minireview: steroidogenic factor 1: its roles in differentiation, development, anddisease. Mol. Endocrinol.24: 1322\u201037 [PMID:20203099]Schimmer BP Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? nomenclature as agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. Germ cell nuclear factor receptorsInternational Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? nomenclature asagreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors [7]) have yet to be officially paired with an endogenous ligand. Dax\u2010like receptors International Union of Pharmacology. LXVI. Orphan nuclear receptors.Pharmacol. Rev.58: 798\u2010836 [PMID:17132856]Benoit G et al. (2008)Molecular basis of endocrine regulation by orphan nuclear receptor Small HeterodimerPartner. Endocr. J.55: 253\u201068 [PMID:17984569]Chanda D et al. (2012)Ligand\u2010independent actions of the orphan receptors/corepressors DAX\u20101 and SHP inmetabolism, reproduction and disease. J. Steroid Biochem. Mol. Biol.130: 169\u201079 [PMID:21550402]Ehrlund A et al. (2011) Roleof DAX\u20101 (NR0B1) and steroidogenic factor\u20101 (NR5A1) in human adrenal function.Endocr Dev20: 38\u201046 [PMID:21164257]El\u2010Khairi R et al. (2006)Overview of nomenclature of nuclear receptors. Pharmacol. Rev.58: 685\u2010704 [PMID:17132848]Germain P et al. (2010)Structural overview of the nuclear receptor superfamily: insights into physiology andtherapeutics. Annu. Rev. Physiol.72: 247\u201072 [PMID:20148675]Huang P et al. (2010)The role of the orphan receptor SF\u20101 in the development and function of the ovary.Reprod Biol10: 177\u201093 [PMID:21113200]Mlnynarczuk J Mol. Cell. Endocrinol.334: 3\u201013 [PMID:20615454]Sladek FM. (2011) What are nuclear receptorligands? et al. (2011) Role ofnuclear receptor SHP in metabolism and cancer. Biochim. Biophys.Acta1812: 893\u2010908 [PMID:20970497]Zhang Y nomenclatureas agreed by theNC\u2010IUPHARSubcommittee on Nuclear Hormone Receptors ) are nuclear hormone receptors of the NR3 class, with endogenousagonists that may be divided into 3\u2010hydroxysteroids (estrone and 17\u03b2\u2010estradiol) and3\u2010ketosteroids . These receptorsexist as dimers coupled with chaperone molecules and immunophilinFKBP52:FKBP4, Q02790), which are shed onbinding the steroid hormone. Although rapid signalling phenomena are observed, the principal signallingcascade appears to involve binding of the activated receptors to nuclear hormoneresponse elements of the genome, with a 15\u2010nucleotide consensus sequenceAGAACAnnnTGTTCT as homo\u2010 orheterodimers. They also affect transcription by protein\u2010protein interactions withother transcription factors, such as activator protein 1 (AP\u20101) and nuclear factor\u03baB (NF\u2010\u03baB). Splice variants of each of thesereceptors can form functional or non\u2010functional monomers that can dimerize to formfunctional or non\u2010functional receptors. For example, alternative splicing of PR mRNAproduces A and B monomers that combine to produce functional AA, AB and BB receptorswith distinct characteristics [150].Steroid hormone receptors has been described. Humanorthologues of 7TM 'membrane progestin receptors' , initially discovered in fish , appear to localize tointracellular membranes and respond to 'non\u2010genomic' progesterone analoguesindependently of G proteins [137].A 7TM receptor responsive to estrogen activity regulatesdiverse physiological processes R,R\u2010THC exhibits partialagonist activity at ER\u03b1. Estrogen receptors may beblocked non\u2010selectively by tamoxifen and raloxifene and labelled by3H]17\u03b2\u2010estradiol[and 3H]tamoxifen.3H]dexamethasone. Mutations in AR underlietesticular feminization and androgen insensibility syndromes, spinal and bulbarmuscular atrophy (Kennedy's disease)."} +{"text": "The correct name is: Vera L\u00facia Garcia Calich. The correct citation is: Ersching J, Basso AS, Calich VLG, Bortoluci KR, Rodrigues MM (2016) A Human Trypanosome Suppresses CD8+ T Cell Priming by Dendritic Cells through the Induction of Immune Regulatory CD4+ Foxp3+ T Cells. PLoS Pathog 12(6): e1005698. doi:"} +{"text": "The other five-membered ring adopts a twisted conformation with the twist being about the methine\u2013methyl\u00adene C\u2014C bond. The seven-membered ring is based on a twisted boat conformation. No specific inter\u00adactions are noted in the the crystal packing.The lactone ring in the title mol\u00adecule, C DOI: 10.1107/S2056989015002510/tk5358Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015002510/tk5358Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015002510/tk5358fig1.tif. DOI: A mol\u00adecule showing atom labels and 50% probability displacement ellipsoids for non-H atoms.1047797CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Scientific Reports6: Article number: 20842; 10.1038/srep20842 published online: 02162016; updated: 04292016.In this Article, the Figure labels were omitted from Figure 5b. The correct Figure 5b appears below as"} +{"text": "The complex cation consists of two inversion-related [Co(C21H24N4)]2+ moieties bridged by a pair of fluoride ligands. The CoII cation is six-coordinated in a distorted octa\u00adhedral geometry and forms a +II high-spin state. In the crystal, the complex cation and the BF4\u2212 anion are connected by C\u2014H\u22efF hydrogen bonds, forming a three-dimensional network. An intra\u00admolecular C\u2014H\u22efF hydrogen bond is also observed.Reaction of Co(BF DOI: 10.1107/S1600536814021631/is5368Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814021631/is5368Isup3.docSupporting information file. DOI: Click here for additional data file.10.1107/S1600536814021631/is5368fig1.tif. DOI: Perspective view of the complex showing 50% displacement ellipsoids. Hydrogen atoms are omitted for clarity.1027138CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Nucl. Acids Res. (2007) 35 (5): e29 doi: 10.1093/nar/gkl1134The panels were inadvertently duplicated in Figure"} +{"text": "The 4H-pyran ring fused with the naphthalene ring system has a flattened boat conformation. In the crystal, N\u2014H\u22efN hydrogen bonds generate chains along the b-axis direction. Further N\u2014H\u22efN hydrogen bonds link these chains into sheets parallel to (010). The crystal packing also features C\u2014H\u22ef\u03c0 inter\u00adactions. The crystal studied was an inversion twin with a 0.557\u2005(16):0.443\u2005(16) domain ratio.In the title compound, C DOI: 10.1107/S2056989015011159/sj5465Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015011159/sj5465Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015011159/sj5465fig1.tif. DOI: View of the title compound with the atom-numbering scheme. Displacement ellipsoids for non-H atoms are drawn at the 50% probability level.Click here for additional data file.10.1107/S2056989015011159/sj5465fig2.tifa . DOI: a axis, with hydrogen bonds drawn as dashed lines.Crystal packing of the title compound viewed along the Click here for additional data file.10.1107/S2056989015011159/sj5465fig3.tifb . DOI: b axis.A view of the packing showing mol\u00adecules stacked along the 1405640CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Nature Communications6: Article number: 7347 10.1038/ncomms8347 (2015); Published 06122015; Updated 09082015This Article contains an error in"} +{"text": "In the anion, the sulfonic acid group is deprotonated and the dihedral angle between the planes of the carb\u00adoxy\u00adlic acid group and the benzene ring is 12.41\u2005(11)\u00b0. In the crystal, the anions are linked into inversion dimers by pairs of O\u2014H\u22efO hydrogen bonds, which generate R22(16) loops. The dications link the anion dimers into [10-2] chains via N\u2014H\u22efO hydrogen bonds.In the title mol\u00adecular salt, C DOI: 10.1107/S1600536814022673/hb7296Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814022673/hb7296Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S1600536814022673/hb7296fig1.tif. DOI: View of the asymmetry unit of (I) showing displacement ellipsoids at the 50% probability level. Symmetry code: (i) 2\u2013x, \u2013y, 1\u2013z.Click here for additional data file.10.1107/S1600536814022673/hb7296fig2.tif. DOI: The hydrogen-bonded chain of (I).1029402CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Nature Communications6: Article number: 7868 10.1038/ncomms8868 (2015); Published: 07282015; Updated: 09182015The image in Supplementary Figure 1"} +{"text": "The publisher apologizes for this error. The correct citation is: Kory Westlund J, D\u2019Mello SK, Olney AM (2015) Motion Tracker: Camera-Based Monitoring of Bodily Movements Using Motion Silhouettes. PLoS ONE 10(6): e0130293. doi:"} +{"text": "Weak C\u2014H\u22efO inter\u00adactions help to direct the packing, forming sheets lying parallel to (020).In the title compound, C DOI: 10.1107/S2056989015008324/lr2135Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015008324/lr2135Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015008324/lr2135fig1.tif. DOI: The title mol\u00adecule with labeling scheme and 50% probability ellipsoids.Click here for additional data file.10.1107/S2056989015008324/lr2135fig2.tif . DOI: Packing viewed towards the (101062089CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Scientific Reports6: Article number: 20144; 10.1038/srep20144 published online: 02042016; updated: 05202016.In this Article, Figure 3 is incorrect. The correct Figure 3 appears below as"} +{"text": "The deprotonated hydroxyl groups of the piperidineethanolate anions bridge CuII cations, forming the tetra\u00adnuclear complex. All piperidine rings display a chair conformation. In the crystal, there are no significant inter\u00admolecular inter\u00adactions present. The crystal studied was an inversion twin refined with a minor component of 0.18\u2005(5). In the title tetra\u00adnuclear compound, [Cu DOI: 10.1107/S1600536814009052/xu5784Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814009052/xu5784Isup3.cdxSupporting information file. DOI: 998731CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The line through the I atoms forms an angle of 78.39\u2005(16)\u00b0 with the normal to the pyridine ring.In the title adduct, C DOI: 10.1107/S2056989015010518/rz5157Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015010518/rz5157Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015010518/rz5157fig1.tif. DOI: The mol\u00adecular structure of the title compound, with 50% probability displacement ellipsoids for non-H atoms.1404151CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "AbstractGyponareversa DeLong & Martinson, 1972 has its ovipositor described and illustrated based on the examination of specimens from its type locality. This is the first species of Gypona Germar, 1821 to have the female genitalia detailed description published. Gypona Germar, 1821 (Cicadellidae: Iassinae: Gyponini) includes about 200 described species (Gypona (G.) reversa DeLong & Martinson, 1972 was described based on male holotype and paratype . Coelho ae e.g., , we herewww.hadleyweb.pwp.blueyonder.co.uk). Terminalia were stored in a small vial with glycerin pinned below the specimen.The descriptive terminology adopted herein follows mainly The specimen was collected in a fragment of Atlantic Forest inserted on the Universidade Federal de Vi\u00e7osa (UFV) campus. UFV is located in Vi\u00e7osa municipality, \u201cZona da Mata\u201d of Minas Gerais State, southeastern Brazil and has The specimen examined belongs to Cole\u00e7\u00e3o Entomol\u00f3gica Jos\u00e9 Alfredo Pinheiro Dutra, Departamento de Zoologia (DZRJ), Instituto de Biologia, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil.DeLong & Martinson, 1972Type status:Other material. Occurrence: recordedBy: Luci B. N. Coelho; individualCount: 1; sex: female; lifeStage: adult; Taxon: taxonID: Native; scientificNameID: lsid:zoobank.org:act:8B3CBB30-41F7-4CE3-ADD5-8C00FE4D4D6A; acceptedNameUsage: Gypona reversa DeLong & Martinson, 1972; kingdom: Animalia; phylum: Arthropoda; class: Hexapoda; order: Hemiptera; family: Cicadellidae; genus: Gypona; subgenus: Gypona; specificEpithet: reversa; scientificNameAuthorship: DeLong & Martinson, 1972; Location: continent: South America; country: Brazil; countryCode: BR; stateProvince: Minas Gerais; municipality: Vi\u00e7osa; locality: Mata da Biologia, Recanto das Cigarras; verbatimElevation: 650 m; verbatimCoordinates: 20\u00b045'31.8\"S 42\u00b051'40.5\"W; Identification: identifiedBy: Luci B. N. Coelho; dateIdentified: 1993; Event: eventDate: 08/09/1993; Record Level: language: en; institutionCode: DZRJ; collectionCode: Insects; ownerInstitutionCode: Cole\u00e7\u00e3o Entomol\u00f3gica Professor Jos\u00e9 Alfredo Pinheiro Dutra; basisOfRecord: PreservedSpecimenType status:Other material. Occurrence: recordedBy: Luci B. N. Coelho; individualCount: 1; sex: female; lifeStage: adult; Taxon: taxonID: Native; scientificNameID: lsid:zoobank.org:act:8B3CBB30-41F7-4CE3-ADD5-8C00FE4D4D6A; acceptedNameUsage: Gypona reversa DeLong & Martinson, 1973; kingdom: Animalia; phylum: Arthropoda; class: Hexapoda; order: Hemiptera; family: Cicadellidae; genus: Gypona; subgenus: Gypona; specificEpithet: reversa; Location: continent: South America; country: Brazil; countryCode: BR; stateProvince: Minas Gerais; municipality: Vi\u00e7osa; locality: Mata da Biologia, Recanto das Cigarras; verbatimElevation: 650 m; verbatimCoordinates: 20\u00b045'31.8\"S 42\u00b051'40.5\"W; Identification: identifiedBy: Luci B. N. Coelho; dateIdentified: 1993; Event: eventDate: 06/28/1993; Record Level: language: en; institutionCode: DZRJ; collectionCode: Insects; ownerInstitutionCode: Cole\u00e7\u00e3o Entomol\u00f3gica Professor Jos\u00e9 Alfredo Pinheiro Dutra; basisOfRecord: PreservedSpecimenGyponareversa DeLong & Martinson, 1972Redescription of femaleLength 7.8 mm. General color green with black and brown spots on pronotum and wings Figs , 2a. Cro2222Forewings translucent, apical region smoky, black spot at the insertion point; brown spot at the apex of each claval vein, inner discal cell with two brown spots, one basal and other apical; irregular brown band from clavus apex to median portion of fifth apical cell; about 3.3 times longer than wide; appendix brown, vestigial.Sternite VII Fig. a, c 2.4 Pygofer, in lateral view, approximately triangular shaped, with apex rounded; scattered macrosetae at posterior margin Fig. d. Ovipos3345545667676739General color green with black and brown spots on pronotum and wings Figs , 2a. Ste2337Brazil and Mexico .Wedeliapaludosa DC (Compositae).Specimens were collected in a grove of Atlantic forest, feeding on Studied specimens20\u00b045'31.8\"S 42\u00b051'40.5\"W , L.B.N. Coelho leg., 1 \u2640, 27/vi/1993; 1 \u2640, 09/viii/1993 (DZRJ).BRAZIL, Minas Gerais, Vi\u00e7osa, Universidade Federal de Vi\u00e7osa, Recanto das Cigarras, Gypona species. Gyponaverticalis St\u00e5l, 1864, which is quite shorter than in G.reversa (Fig. 6G.hiata DeLong and Freytag, 1967. Compared with G.hiata, the sternite VII of G.reversa has a more convex lateral margin, and posterior margin with two \"teeth\" separated by shallow concavity (Fig. 6This is the first published description of the ovipositor valvulae of any ity Fig. a, c; pygity Fig. a, d; venity Fig. b; apicalClinonana Osborn, 1988. Nevertheless, the authors believe that researchers should always make an effort to describe the female genitalia in as much detail as possible, so hopefully in the future it might become a source of useful taxonomic characteristics.According to"} +{"text": "The paper:VASOPRESSIN VS TERLIPRESSIN IN TREATMENT OF REFRACTORY SHOCK.Scarpati G., Piazza O.Transl Med UniSa. 2013 Jan 4;5:22\u20137. has been withdrawn after authors request.The paper:THE NOVEL THERAPEUTHIC TARGETS IN THE TREATMENT OF CHRONIC PAIN.Palomba R., Bonaccia P., Graffi M., Costa F. Transl Med UniSa. 2012 Apr 30;3:57\u201361. has been withdrawn after authors request."} +{"text": "Scientific Reports6: Article number: 2340310.1038/srep23403; published online: 03212016; updated: 05312016In this Article, Figure 5E and 5F were omitted. The Figure legends are correct. The correct Figure 5 appears below as"} +{"text": "Nature Communications6: Article number: 7721 10.1038/ncomms8721 (2015); Published 07132015; Updated 09082015The image in"} +{"text": "BMC Ear, Nose and Throat Disorders would like to thank all of our reviewers who have contributed to the journal in Volume 14 (2014).The editors of Ilona AndersonAustriaMinakshi BhardwajIndiaMarc BraemBelgiumItzhak BrookUSAJos\u00e9 Cameselle-TeijeiroSpainPeter W. DettmarUKY.P. Peter DiUSAWouter DreschlerNetherlandsCaterina FiniziaSwedenElizabeth FitzpatrickCanadaNoriyuki FujimaJapanKaryn GalvinAustraliaMiguel GoncalvesUKHasantha GunasekeraAustraliaHerv\u00e9 HaasFranceStefan HegemannSwitzerlandSebastian HothGermanyHiroaki IchijoJapanTakao ImaiJapanFikret KasapogluTurkeyTejs KlugDenmarkMasahiro KomoriJapanKenji KondoJapanSeung-Han LeeSouth KoreaDavid J LimUSAFernanda MarianoBrazilElismauro MendoncaBrazilRanko MladinaCroatiaMarkus MoessnerGermanyTsutomu NakashimaJapanGeorge NoussiosGreeceToyoaki OhbuchiJapanBolajoko O. OlusanyaNigeriaFredrik PeterssonSingaporeAntonio SchindlerItalyAiden ShearerUSASivakumaran Theru ArumugamUSAValentino ValentiniItalyFabiana ValeraBrazilKatrien VermeireBelgiumPetros VlastarakosUKChe-Ming WuTaiwanHasan YasanTurkeyB\u00fclent YaziciTurkey"} +{"text": "An intra\u00admolecular C\u2014H\u22efBr hydrogen bond forms an S(5) ring motif. In the crystal, weak C\u2014H\u22efBr inter\u00adactions link the mol\u00adecules into helical chains along the b-axis direction.In the title compound, [SbBr(C DOI: 10.1107/S1600536814020066/is5373Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814020066/is5373Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S1600536814020066/is5373fig1.tif. DOI: The mol\u00adecular structure of the title compound, showing 50% probability displacement ellipsoids. The dashed line indicates the C\u2014H\u22efBr hydrogen bond.Click here for additional data file.10.1107/S1600536814020066/is5373fig2.tif. DOI: A crystal packing view of the title compound. Dashed lines indicate hydrogen bonds. H atoms not involved in the hydrogen bonds have been omitted for clarity.1023098CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The Li and In atoms are in distorted tetra\u00adhedral N2O2 and C2O2 bonding environments, respectively. The Li atom is further chelated by a tmeda group, yielding a spiro\u00adcyclic structure.The mixed bimetallic title compound, [InLi(CH DOI: 10.1107/S2056989015023476/lh5799Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015023476/lh5799Isup4.cdxSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015023476/lh5799fig1.tifI . DOI: I), with displacement ellipsoids drawn at the 50% probability level. H atoms have been omitted for clarity.The mol\u00adecular structure of (1440726CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Scientific Reports6: Article number: 23027; 10.1038/srep23027 published online: 03142016; updated: 04292016.In this Article, Figure 4 is a duplication of Figure 6. The correct Figure 4 appears below as"} +{"text": "Scientific Reports5: Article number: 1643410.1038/srep16434; published online: 11102015; updated: 01222016This Article contains an error in Fig. 2, where the y-axis \u2018Herbage mass ln\u2009+\u20091(t/ha)\u2019 was incorrectly given as \u2018Herbage mass ln\u2009+\u20091(kg/ha)\u2019. The correct Fig. 2 appears below as"} +{"text": "The deprotonated ligands act as N,S-donors, forming five-membered metalla-rings. The NiII atom is four-coordinated in a slightly distorted square-planar environment. In the crystal, the discrete complex mol\u00adecules are linked by weak N\u2014H\u22efO hydrogen bonds, generating chains along [110]. The chains are further connected via weak O\u2014H\u22efN inter\u00adactions into a layered network extending parallel to (001).In the title compound, [Ni(C DOI: 10.1107/S1600536814009027/lr2126Isup2.hklStructure factors: contains datablock(s) I. DOI: 998671CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Nature Communications 6: Article number: 8191 doi: 10.1038/ncomms9191 (2015); Published 09042015; Updated 10132015An incorrect version of the Supplementary Figure 1-4, Supplementary Table 1, Supplementary Methods and Supplementary References"} +{"text": "Nature Communications6: Article number: 10116 10.1038/ncomms10116 (2015); Published: 12022015; Updated: 04202016In Fig. 6f of this article, the histogram label \u2018Lsd1' should read \u2018IAP'. The correct version of Fig. 6 appears below.Figure 6"} +{"text": "AbstractIdiopyga Savchenko, 1987 is a northern hemisphere group of short-palped crane flies . In the current article we describe a new species, Dicranomyia (I.) boreobaltica Salmela sp.n., and redescribe the male and female post-abdomen of a closely related species, D. (I.) intricata Alexander. A standard DNA barcoding fragment of 5\u2032 region of the cytochrome c oxidase I (COI) gene of the new species is presented, whilst the K2P minimum distances between the new species and 10 other species of the subgenus were found to range from 5.1 to 15.7 % (mean 11.2 %). Phylogenetic analyses (parsimony and maximum likelihood) based on COI sequences support the identity of the new species and its close relationship with D. (I.) intricata and D. (I.) esbeni (Nielsen). The new species is known from the northern Baltic area of Finland. The new species has been mostly collected from Baltic coastal meadows but an additional relict population is known from a calcareous rich fen that was estimated to have been at sea level circa 600-700 years ago. Dicranomyia (I.) intricata (syn. D.suecica Nielsen) is a Holarctic species, occurring in the north boreal and subarctic vegetation zones in Fennoscandia.The subgenus D. (I.) magnicauda Lundstr\u00f6m, D. (I.) murina (Zetterstedt) and D. (I.) ponojensis Lundstr\u00f6m. A few species, or taxa that are recognised as subspecies, may have very restricted ranges (e.g. D. (I.) melleicaudastenoptera Savchenko [D. (I.) lulensis (Tjeder) [D. (I.) esbeni (Nielsen) [Dicranomyia (Idiopyga) species are characterised by a complicated structure of male hypopygium, having appendages on their ventral gonostylus and gonocoxite. The female cerci are very short in species such as D. (I.) intricata Alexander and D. (I.) lulensis whereas a normal length in e.g. D. (I.) halterella Edwards and D. (I.) ponojensis. Species of the subgenus occur around temperate and subarctic wetlands (Tjeder) ) or disjNielsen) ). Dicrannds e.g. , and somnds e.g. .Dicranomyia (I.) intricata was reported from Finland by Nieminen (http://www.finbol.org/eng/ENG_finbol.html), an abnormal intraspecific divergence was noted among the sequenced D. (I.) intricata specimens. Followed up by morphological examinations of voucher specimens, it was obvious that instead of one species there were two, distinguishable on both molecular and morphological basis (D. (I.) intricata, D.suecica (Nielsen)) allowed us to associate our morphospecies to taxonomic species. In the current article we describe a new Dicranomyia species from Finland and redescribe male and female post-abdomen of D. (I.) intricata. The new species is hitherto known from the northern Baltic area whereas D. (I.) intricata has a Holarctic range. To summarize, the approach we use is integrative was sequenced from a total of 22 Dicranomyia specimens and one Metalimnobia specimen. Legs or 2\u20133 abdominal segments of the specimens were placed in 96% ethanol in a 96-well lysis microplate and dispatched to the Canadian Centre for DNA Barcoding, Biodiversity Institute of Ontario where DNA was extracted and sequenced using standard protocols and primers (D. (I.) esbeni for which the last 51 basepairs were missing due to sequencing problems. The new sequences are deposited in GenBank under accession numbers KP064165-KP064187 analysis in TNT version 1.1 . Nodal sMaximum likelihood approachMaximum likelihood analysis was conducted with RAxML ver. 8.0.22 in the CSalmelasp. n.urn:lsid:zoobank.org:act:5537A033-CC12-41C0-869C-F603D8775005Type status:Holotype. Occurrence: catalogNumber: JES-20120094; recordedBy: T. Nieminen; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars ouluensis; verbatimLocality: Oulunsalo, Papinkari; verbatimLatitude: 64.9060; verbatimLongitude: 25.3764; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2005-8-11/10-8; habitat: Baltic coastal meadow; Record Level: institutionCode: ZMUTType status:Paratype. Occurrence: recordedBy: T. Nieminen; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars ouluensis; verbatimLocality: Hailuoto, P\u00f6k\u00f6nnokka; verbatimLatitude: 65.0790; verbatimLongitude: 24.8883; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2005-8-11/10-8; habitat: Baltic coastal meadow; Record Level: institutionCode: JSOType status:Paratype. Occurrence: recordedBy: T. Nieminen; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars ouluensis; verbatimLocality: Hailuoto, P\u00f6k\u00f6nnokka; verbatimLatitude: 65.0790; verbatimLongitude: 24.8883; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2005-8-11/10-8; habitat: Baltic coastal meadow; Record Level: institutionCode: ZMUTType status:Paratype. Occurrence: catalogNumber: DIPT-JS-2014-0248; recordedBy: J. Salmela; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars borealis; verbatimLocality: Tornio, Isonkummunj\u00e4nk\u00e4 Mire Conservation Area, Kusiaiskorpi; verbatimLatitude: 65.8880; verbatimLongitude: 24.4792; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2013-8-1/9-26; habitat: Rich fen, rusty spring; Record Level: institutionCode: JESType status:Paratype. Occurrence: catalogNumber: DIPT-JS-2014-0251; recordedBy: J. Salmela; individualCount: 1; sex: female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars borealis; verbatimLocality: Tornio, Isonkummunj\u00e4nk\u00e4 Mire Conservation Area, Kusiaiskorpi; verbatimLatitude: 65.8880; verbatimLongitude: 24.4792; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2013-8-1/9-26; habitat: Rich fen, rusty spring; Record Level: institutionCode: JESType status:Paratype. Occurrence: recordedBy: J. Salmela; individualCount: 1; sex: female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars borealis; verbatimLocality: Tornio, Isonkummunj\u00e4nk\u00e4 Mire Conservation Area, Kusiaiskorpi; verbatimLatitude: 65.8880; verbatimLongitude: 24.4792; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2013-8-1/9-26; habitat: Rich fen, rusty spring; Record Level: institutionCode: ZMUTType status:Other material. Occurrence: catalogNumber: DIPT-JS-2014-0114; recordedBy: J. Salmela; individualCount: 7; sex: 4 females, 3 males; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: boreobaltica; scientificNameAuthorship: Salmela; Location: country: Finland; stateProvince: Ostrobothnia borealis pars borealis; verbatimLocality: Tornio, Isonkummunj\u00e4nk\u00e4 Mire Conservation Area, Kusiaiskorpi; verbatimLatitude: 65.8880; verbatimLongitude: 24.4792; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2013-8-1/9-26; habitat: Rich fen, rusty spring; Record Level: institutionCode: JESDicranomyia (Idiopyga) intricataDicranomyia (Idiopyga) cf.intricataHead. Vertex dark brown, with short black setae. Rostrum light brown with a few short dark setae. Palpus 5-segmented; first palpomere very short, globular, 1.5 times wider than long; other palpomeres elongated, p2 length 140 \u00b5m, p3 100 \u00b5m, p4 100 \u00b5m and p5 120 \u00b5m. First palpomere with a long ventral seta, approximately 2 times longer than width of palpomere. Second and third palpomeres with 5 setae, arranged in the apical half of segments. Fourth palpomere bearing ca. 12 setae and p5 with 13-15 setae, most of these on the apices of the segments. Antennae 14-segmented, dark brown, segments bearing black setae mostly exceeding width of respective segment; setae straight on scape (ca. 10 setae) and pecidel (ca. 15 setae), straight or curved on flagellomeres (ca. 5 setae on each flagellomere). Scape cylindrical, length 200 \u00b5m, width 75 \u00b5m, pedicel wider apically than basally, length 115 \u00b5m, width 75 \u00b5m. Flagellomeres oval, longer than wide; f1 length 120 \u00b5m, width 65 \u00b5m, f2 length 8 \u00b5m, width 5 \u00b5m, f10 length 110 \u00b5m, width 40 \u00b5m. Thorax mainly dark brown. Prescutum dark brown, only small yellowish spots on hind lateral corners. Scutum dark brown with longitudinal yellow median line and yellow lateral spots near wing base. Mediotergite and anepisternum dark brown, mediotergite sometimes with narrow yellowish anterior margin. Laterotergite and anepimeron yellowish brown. Katepisternum bicolored: anterior half dark brown, posterior half yellowish brown. Fore coxa brown, mid and hind coxae yellowish brown. Femorae light brown or brown, tibiae and tarsi dark brown. Length of fore femora 4500 \u00b5m, tibia 5250 \u00b5m, t1 3500 \u00b5m, t2 1100 \u00b5m, t3 875 \u00b5m, t4 300 \u00b5m, t5 175 \u00b5m, claw 130 \u00b5m. Length of mid femora 5575 \u00b5m, tibia 5625 \u00b5m, t1 3200 \u00b5m, t2 1150 \u00b5m, t3 625 \u00b5m, t4 275 \u00b5m, t5 175 \u00b5m, claw 130 \u00b5m. Length of hind femora 5600 \u00b5m, tibia 5750 \u00b5m, t1 3050 \u00b5m, t2 1150, t3 650 \u00b5m, t4 275 \u00b5m, t5 178 \u00b5m, claw 130 \u00b5m. Halter grayish-brown. Wing clear, veins light brown - brown, pterostigma brown intricata. Ventrobasal lobe of ventral gonostylus sinuous, apex oval. Inner appendage of gonocoxite apically rounded. Rostral prolongantion of ventral apically rather narrow and subrostral prolongation simple, not bilobed, bearing dark stout spines. Female infra-anal plate with strong caudal peak.Brownish, small species, very close to borealis, Latin)= north, baltica (Latin)= referring to the Baltic Sea. The species is so far known from the northern Baltic area. The species name is deemed to be a latinized adjective in nominative singular.Boreo intricata). These coastal meadows are produced by a phenomenon called land uplift, that is, the rebound of earth's crust after the retreating of the ice sheet; in the Bothnian Bay the rate of land uplift is about 8 mm/year (D. (I.) boreobaltica Salmela sp.n. is a recent relict species in the fen. It should be noted that some plants typical for the Baltic shores or brackish water have isolated populations on calcareous ponds or mires far from coastal areas boreobaltica Salmela sp.n. was absent from the samples. This and other negative records (i.e. absence) from >500 Malaise trapping sites in Finnish wetlands and insect species in the Baltic coastal areas (D. (I.) boreobaltica Salmela sp.n. could either be i) a recently evolved allopatric species that survived Pleistocene glaciations and is currently only present in the Baltic area or ii) a disjunct species having populations in other areas.Due to its apparent rarity, that is, small area of occupancy and extent of occurrence, the species could most likely be assessed as a threatened species according to IUCN criteria. Habitats of this species are highly endangered, usually small and isolated. There are a total of ca. 4200 ha of Baltic coastal meadows along the Finnish coast, and all such habitat types are red-listed . Also spal areas . Hence, D. (I.) intricata. As already stated in the title of this article, the new species is cryptic, meaning that it is hard to distinguish from its sister species by morphological characters. Strictly speaking, cryptic species may mean taxa that are morphologically indisguishable boreobaltica Salmela sp.n. and D. (I.) intricata are not separated by a distinct barrier, they have non-overlapping ranges perhaps because of biogeographic factors driven by climate boreobaltica Salmela sp.n. and D. (I.) intricata are practically identical. The most important differences in male and female post-abdomen between the species are summarized in Table D. (Idiopyga) species, the new species is quite close to D. (I.) esbeni. Besides other details, the ventrobasal lobe of gonocoxite in D. (I.) esbeni is sinuous (see D. (I.) boreobaltica Salmela sp.n. Dicranomyia (I.) melleicauda complicata de Meijere is also quite close to the new species, but has rather stout iagx and apically wide lvg sequence of Dicranomyia (I.) boreobaltica Salmela sp.n. BOLD Sample ID JES-20120094, holotype specimen:Standard 5\u2032 region (658 bp) of the cytochrome TACCTTATACTTTATTTTTGGAGCTTGAGCAGGAATAGTGGGAACTTCATTAAGTATTATTATTCGAGCAGAATTAGGACACCCAGGTGCATTAATTGGAGACGACCAGATTTATAATGTGGTAGTTACTGCCCATGCTTTTATTATAATTTTCTTTATAGTTATACCAATTATAATTGGAGGATTCGGTAATTGATTAGTTCCTTTAATATTAGGAGCCCCAGATATAGCTTTCCCTCGAATAAATAATATAAGTTTTTGAATACTTCCCCCTTCTTTAACTTTATTATTAGCTAGAAGCATAGTTGAAAACGGGGCAGGAACTGGCTGAACAGTATACCCTCCCCTTTCTTCTGGAATTGCCCATTCAGGGGCTTCTGTAGATTTAGCTATTTTTTCTCTTCACCTAGCAGGTATTTCTTCTATTTTAGGAGCTGTTAATTTTATTACAACTGTTATTAATATACGTTCAGCAGGAATTTCATTTGATCGAATACCATTATTTGTTTGATCAGTAGTAATTACTGCTATTTTATTGCTTTTATCACTTCCTGTTTTAGCCGGAGCTATTACAATATTATTAACAGATCGAAACTTAAATACTTCATTTTTTGATCCCGCAGGTGGAGGAGACCCTATTTTATATCAGCATTTATTTD. (I.) intricata (K2P distance 5.13 %), D. (I.) esbeni (7.16 %) and D. (I.) magnicauda (9.51 %); other distances within examined D. (Idiopyga) species range between 10.76 and 15.70 %.Based on K2P distanceAlexander, 1927Type status:Holotype. Occurrence: recordedBy: O. Bryant; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Canada; stateProvince: Alberta; verbatimLocality: Lesser Slave Lake; verbatimLatitude: 55.35; verbatimLongitude: -115.09; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: eventDate: 1924-8-1; Record Level: institutionCode: USNMType status:Paratype. Occurrence: recordedBy: O. Bryant; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Canada; stateProvince: Alberta; verbatimLocality: Lesser Slave Lake, Grizzly mt.; minimumElevationInMeters: 914; Event: eventDate: 1924-8-15; Record Level: institutionCode: USNMType status:Holotype. Occurrence: catalogNumber: 855; recordedBy: H. Frantz; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: suecica; scientificNameAuthorship: Nielsen; Location: country: Sweden; stateProvince: Abisko; verbatimLatitude: 68.35; verbatimLongitude: 18.79; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: eventDate: unknown; Record Level: institutionCode: ZMUCType status:Other material. Occurrence: recordedBy: P.T. Bruggemann; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Canada; stateProvince: Yukon; verbatimLocality: Dawson; minimumElevationInMeters: 335; Event: eventDate: 1949-8-6; Record Level: institutionCode: USNMType status:Other material. Occurrence: recordedBy: W.W. Moss; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Canada; stateProvince: British Columbia; verbatimLocality: Telegraph Creek; minimumElevationInMeters: 335; Event: eventDate: 1960-8-28; Record Level: institutionCode: USNMType status:Other material. Occurrence: recordedBy: W.W. Moss; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Canada; stateProvince: British Columbia; verbatimLocality: Telegraph Creek, Sawmill Lake; Event: eventDate: 1960-8-18; Record Level: institutionCode: USNMType status:Other material. Occurrence: recordedBy: O. Bryant; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Canada; stateProvince: Northwest Territories; verbatimLocality: Aklavik; Event: eventDate: 1931-8-27; Record Level: institutionCode: USNMType status:Other material. Occurrence: catalogNumber: JES-20120082; recordedBy: J. Salmela; individualCount: 1; sex: female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Lapponia kemensis pars occidentalis; verbatimLocality: Kittil\u00e4, Mustaoja-Nunaravuoma Mire Conservation Area, Mustaoja W; verbatimLatitude: 67.6390; verbatimLongitude: 25.4277; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: sweep net; eventDate: 2009-8-19; habitat: rich flark fen; Record Level: institutionCode: ZMUTType status:Other material. Occurrence: catalogNumber: DIPT-JS-2014-0336; recordedBy: J. Salmela; individualCount: 32; sex: 29 male, 3 female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Lapponia enontekiensis; verbatimLocality: Enonteki\u00f6, Tarvantovaara Wilderness Area, Tomuttirova W; verbatimLatitude: 68.6369; verbatimLongitude: 22.5381; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: sweep net; eventDate: 2009-8-26; habitat: swampy flark fen; Record Level: institutionCode: JESType status:Other material. Occurrence: catalogNumber: JES-20110082; recordedBy: J. Salmela; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Lapponia enontekiensis; verbatimLocality: Enonteki\u00f6, Tarvantovaara Wilderness Area, Tomuttirova W; verbatimLatitude: 68.6369; verbatimLongitude: 22.5381; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: sweep net; eventDate: 2009-8-26; habitat: swampy flark fen; Record Level: institutionCode: ZMUTType status:Other material. Occurrence: catalogNumber: DIPT-JS-2014-0337; recordedBy: J. Salmela; individualCount: 10; sex: 5 male, 5 female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Lapponia enontekiensis; verbatimLocality: Enonteki\u00f6, Tarvantovaara Wilderness Area, Tomuttirova N; verbatimLatitude: 68.6391; verbatimLongitude: 22.5518; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: sweep net; eventDate: 2009-8-26; habitat: intermediate rich flark fen; Record Level: institutionCode: JESType status:Other material. Occurrence: catalogNumber: DIPT-JS-2014-0182; recordedBy: J. Salmela; individualCount: 1; sex: male; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Lapponia kemensis pars orientalis; verbatimLocality: Sodankyl\u00e4, Pomokaira-Tenni\u00f6aapa Mire Conservation Area, Syv\u00e4kuru; verbatimLatitude: 67.8718; verbatimLongitude: 26.2126; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: Malaise trap; eventDate: 2013-8-15/9-19; habitat: spring fen; Record Level: institutionCode: JESType status:Other material. Occurrence: catalogNumber: DIPT-JS-2014-0338; recordedBy: J. Salmela; individualCount: 4; sex: 1 male, 3 female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Ostrobothnia borealis pars borealis; verbatimLocality: Kemij\u00e4rvi, Salmiaavanhete; verbatimLatitude: 66.9929; verbatimLongitude: 27.0578; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: sweep net; eventDate: 2009-8-15; habitat: rich flark fen; Record Level: institutionCode: JESType status:Other material. Occurrence: catalogNumber: DIPT-JS-2014-0340; recordedBy: J. Salmela; individualCount: 1; sex: 1 female; Taxon: genus: Dicranomyia; subgenus: Idiopyga; specificEpithet: intricata; scientificNameAuthorship: Alexander; Location: country: Finland; stateProvince: Lapponia inariensis; verbatimLocality: Inari, Kaunisp\u00e4\u00e4; verbatimLatitude: 68.4461; verbatimLongitude: 27.4351; verbatimCoordinateSystem: decimal degrees; verbatimSRS: WGS84; Event: samplingProtocol: sweep net; eventDate: 2013-8-16; habitat: alpine wetland; Record Level: institutionCode: JESDicranomyiaintricataLimonia (Dicranomyia) suecicaLimonia (Dicranomyia) suecicaDicranomyia (Idiopyga) intricataD. (I.) intricata intricata by D.suecica is lost , but based on Tjeder's detailed illustrations this nomenclature can be verified. Alexander's original description is good, and there is no need to thoroughly re-describe this species. However, male and female genitalia are illustrated here and diagnostic characters are discussed under D. (I.) boreobaltica Salmela sp.n.The holotype specimen of ata Fig. a is in gata Fig. , fig. 1 ata Fig. b. The hoy Tjeder and the D. (I.) boreobaltica Salmela sp.n., see Fig. 101010Male hypopygium. 9th tergite and proctiger as in Fig. 10Female postabdomen. Cerci and hypogynial valves, see Fig. D. (I.) intricata is known from the north boreal ecoregion, both from the zone of coniferous forests and from the subarctic fell area in the northernmost part of the country , Sweden intricata (Sphagnum mosses (http://en.wikipedia.org/wiki/Muskeg). Most of the Finnish sampling sites are aapamires, that is, minerotrophic fens with wet, usually moss covered, flarks (hollows) and drier hummock-level strings. Most of the sites are intermediate rich or rich fens, characterised by brown mosses . The species was especially abundant on two closely lying intermediate rich, Sphagnum dominated aapamires in Enonteki\u00f6, NW Finnish Lapland, but single specimens were also caught along a spring and a headwater stream intricata is red-listed in Finland intricata is absent from the northern Baltic coastal area and is replaced there by a sibling species (D. (I.) boreobaltica sp.n. Salmela). Thus the range (\"extent of occurrence\") of D. (I.) intricata is actually smaller that was thought in the 2010 assessment. However, the species is not extremely rare and there are most likely hundreds of square kilometres of suitable breeding sites for the species in Finnish Lapland. Nevertheless, the species may be jeopardized by climate change and it may also be used as an indicator of pristine boreal mires.land NT, . At the Dicranomyia (I.) boreobaltica Salmela sp.n.See c oxidase I (COI) gene of Dicranomyia (I.) intricata :Standard 5\u2032 region (658 bp) of the cytochrome TACCTTATACTTTATTTTTGGAGCTTGAGCAGGAATAGTAGGAACTTCACTAAGTATTATTATTCGAGCAGAATTAGGACACCCAGGAGCATTAATTGGAGATGACCAAATTTATAATGTAGTAGTTACTGCCCATGCTTTTATTATAATTTTTTTTATAGTTATACCAATTATAATTGGTGGATTCGGTAATTGATTAGTTCCTTTAATATTAGGAGCCCCAGATATAGCTTTCCCTCGAATAAATAATATAAGTTTTTGAATACTTCCCCCTTCTTTAACCTTATTATTAGCTAGAAGTATAGTTGAAAACGGGGCAGGAACTGGTTGAACAGTTTACCCTCCCCTTTCTTCTGGAATTGCTCATTCAGGAGCTTCTGTAGACTTAGCTATTTTTTCTCTTCATTTAGCAGGTATTTCTTCTATTTTAGGAGCTGTTAACTTTATTACAACTGTTATTAATATACGTTCAGCAGGAATTTCATTCGACCGAATACCATTATTTGTTTGATCAGTAGTAATTACTGCTATTCTATTACTCTTATCACTCCCTGTTTTAGCTGGAGCTATTACAATATTATTAACAGATCGAAACTTAAACACTTCATTTTTTGACCCTGCAGGTGGAGGAGATCCTATTTTATACCAACACTTATTTL = -3501.956818) in Fig. 13D. (I.) boreobaltica Salmela sp.n. as sister to D. (I.) intricata and these two species grouping together with D. (I.) esbeni. Nodal supports in both results are good giving strong indications that D. (I.) boreobaltica Salmela sp.n. forms its own group being in a sister group relationship with D. (I.) intricata. There are altogether 31 bases in COI that differ between D. (I.) boreobaltica Salmela sp.n. and D. (I.) intricata, resulting in 4.7 % difference between these species. Although nodal supports in the deeper, evolutionary older nodes are low, separate species are clearly distinct.The phylogenetic tree (length 622 steps) resulting from the parsimony analysis is shown in Fig. 13Supplementary material 1Diptera, Limoniidae), USNMDicranomyia (I.) intricata Alexander, 1927 (Data type: imagesDicranomyia (I.) intricata Alexander, males, permanently slide-mounted by C.P. Alexander, deposited in USNM . Digital photos of the slides.Brief description: Non-type material of File: oo_33643.pdfJukka SalmelaSupplementary material 2COI sequences of Dicranomyia (Idiopyga) species and three out-group speciesData type: GenomicBrief description: COI 5' standard DNA barcoding fragmentFile: oo_33852.txtJukka Salmela"} +{"text": "The incidence of oropharyngeal cancer is increasing in the developed world. This has led to a large rise in research activity and clinical trials in this area, yet there is no consensus on which outcomes should be measured. As a result, the outcomes measured often differ between trials of comparable interventions, making the combination or comparison of results between trials impossible. Outcomes may also be \u2018cherry-picked\u2019, such that favourable results are reported, and less favourable results withheld. The development of a minimum outcome reporting standard, known as a core outcome set, goes some way to addressing these problems. Core outcome sets are ideally developed using a patient-centred approach so that the outcomes measured are relevant to patients and clinical practice. Core outcome sets drive up the quality and relevance of research by ensuring that the right outcomes are consistently measured and reported in trials in specific areas of health or healthcare.This is a mixed methods study involving three phases to develop a core outcome set for oropharyngeal cancer clinical trials. Firstly, a systematic review will establish which outcomes are measured in published oropharyngeal cancer randomised controlled trials (RCTs). Secondly, qualitative interviews with patients and carers in the UK and the USA will aim to establish which outcomes are important to these stakeholders. Data from these first two stages will be used to develop a comprehensive list of outcomes to be considered for inclusion in the core outcome set. In the third stage, patients and clinicians will participate in an iterative consensus exercise known as a Delphi study to refine the contents of the core outcome set. This protocol lays out the methodology to be implemented in the CONSENSUS study.A core outcome set defines a minimum outcome reporting standard for clinical trials in a particular area of health or healthcare. Its consistent implementation in oropharyngeal cancer clinical trials will improve the quality and relevance of research.13823 (17 January 2013).This study is registered at the National Institute for Health Research (NIHR) Clinical Research Network (CRN) portfolio, ID Around 1,500 cases of oropharyngeal squamous cell carcinoma (OPSCC) are diagnosed in the UK every year 2. (\u201cHead and Neck Neoplasms\u201d[Mesh:NoExp])3. \u201cOtorhinolaryngologic Neoplasms\u201d[Mesh:NoExp]4. \u201cPharyngeal Neoplasms\u201d[Mesh:NoExp]5. \u201cNeoplasms\u201d[Mesh]6. 9. (#5 OR #6)10. \u201cOropharynx\u201d[Mesh]11. 12. (#10 OR #11)13. (#9 AND #12)14. (HNSCC ORSCCHN OR OP-SCC OR OPSCC)15. (#1 OR #2 OR #3 OR #4 OR #13 OR #14)16. ) OR ) OR ) OR OR OR OR OR OR OR OR OR (\u201cMulticenter Study\u201d[Publication Type]) OR (\u201cMulticenter Studies as Topic\u201d[Mesh]) OR (\u201cRandom Allocation\u201d[Mesh]) OR (\u201cDouble-Blind Method\u201d[Mesh]) OR (\u201cSingle-Blind Method\u201d[Mesh]) OR (\u201cCross-Over Studies\u201d[Mesh]) OR (\u201cPlacebos\u201d[Mesh]) OR ) OR (blind[tiab] OR blinding[tiab] OR blinded[tiab] OR mask[tiab] OR masking[tiab] OR masked[tiab] OR placebo[tiab] OR placebos[tiab] OR rct[tiab] OR random[tiab] OR randomised[tiab] OR randomized[tiab] OR randomly[tiab] OR randomisation[tiab] OR randomization[tiab]) OR OR (divided[tiab] AND (group[tiab] OR groups[tiab])) OR (crossover[tiab]) OR (\u201ccross over\u201d[tiab]) OR (multicentre[tiab] OR multicentred[tiab] OR multicentric[tiab]) OR (versus[ti] OR vs[ti]) OR (\u201ctreatment arm\u201d[tiab]) OR (\u201cphase III\u201d[tiab] OR \u201cphase three\u201d[tiab] OR \u201cphase 3\u201d[tiab]) OR (\u201clatin square\u201d[tiab]) NOT NOT AND (\u201cHumans\u201d[Mesh])))))17. (#15 AND #16)18. \u201c\u201cCochrane Database Syst Rev\u201d\u201c[Journal]19. 20. (#19 OR #18)21. (#17 NOT #20)Cochrane Central Register of Controlled Trials (CENTRAL): 1 January 2003 to 14 May 20131. MeSH descriptor: [Oropharyngeal Neoplasms] explode all trees2. MeSH descriptor: [Head and Neck Neoplasms] this term only3. MeSH descriptor: [Pharyngeal Neoplasms] this term only4. MeSH descriptor: [Otorhinolaryngologic Neoplasms] this term only5. MeSH descriptor: [Neoplasms] explode all trees6. cancer* OR carcinoma* OR neoplas* OR tumor* OR tumour* OR malignan* OR SCC7. #5 OR #68. MeSH descriptor: [Oropharynx] explode all trees9. oropharyn* OR mesopharyn* OR tonsil* OR \u201chead and neck\u201d OR \u201chead neck\u201d OR \u201chead-neck\u201d OR \u201chead-and-neck\u201d OR pharyn* OR \u201ctongue base\u201d OR \u201csoft palate\u201d10. #8 OR #911. #7 AND #1012. HNSCC OR SCCHN OR OP-SCC OR OPSCC13. #1 OR #2 OR #3 OR #4 OR #11 OR #12Embase: 1 January 2003 to 14 May 20131. Exp Oropharynx tumor/2. Pharynx cancer/3. Neoplasm/4. .tw.5. #3 OR #46. exp OROPHARYNX/OR exp OROPHARYNX CANCER/OR exp OROPHARYNX CARCINOMA/7. .tw.8. #6 OR #79. #5 AND #810. (HNSCC OR SCCHN OR OP-SCC OR OPSCC).tw.11. #1 OR #2 OR #9 OR #1012. .mp. OR crossover*.tw. 13. (cross adj over*).tw.14. (cross adj over*).tw.15. ((blind* OR mask*) and (single OR double OR triple OR treble)).tw.16. (treatment adj arm*).tw.17. (control* adj group*).tw.18. (phase adj III).mp. OR three.tw. 19. (versus OR vs).tw.20. rct.tw.21. CROSSOVER PROCEDURE/22. DOUBLE BLIND PROCEDURE/23. SINGLE BLIND PROCEDURE/24. RANDOMIZATION/25. PLACEBO/26. exp CLINICAL TRIAL/27. PARALLEL DESIGN/28. LATIN SQUARE DESIGN/29. #12 OR #13 OR #14 OR #15 OR #16 OR #17 OR #18 OR #19 OR #20 OR #21 OR #22 OR #23 OR #24 OR #25 OR #26 OR #27 OR #2830. #11 AND #2931. limit #30 to human32. \u201csystematic review\u201d.tw.33. #31 NOT #32CENTRAL: Cochrane Central Register of Controlled Trials; CNS: Clinical nurse specialist; COMET: Core Outcome Measures in Effectiveness Trials; CRT: Chemoradiotherapy; HPV: Human papillomavirus; HPV-16: Human papillomavirus type 16; HTA: Health Technology Assessment; ICF: International Classification of Functioning, Disability and Health; NHS: National Health Service; NIHR: National Institute for Health Research; OMERACT: Outcome Measures in Rheumatology; OPSCC: Oropharyngeal squamous cell carcinoma; PI: Principal investigator; PRO: Patient-reported outcome; RA: Rheumatoid arthritis; RCT: Randomised controlled trial; RT: Radiotherapy; SCCHN: Squamous cell carcinoma of the head and neck; SLT: Speech and language therapist.The authors declare that they have no competing interests.AW conceived and designed the study, and wrote the manuscript. CTS conceived and designed the study, and provided critical revision of the manuscript. BY conceived and designed the study, and provided critical revision of the manuscript. TMJ conceived and designed the study, and provided critical revision of the manuscript. All authors read and approved the final manuscript."} +{"text": "Scientific Reports6: Article number: 2977910.1038/srep29779; published online: 07152016; updated: 08162016This Article contains typographical errors in Table 1. In the column \u2018Slip (twinning) system\u2019, the seventh {332} <113> twin value \u201c(3"} +{"text": "The correct name is: Petr Stastny. The correct citation is: Petr M, Stastny P, Pecha O, \u0160teffl M, \u0160eda O, Kohl\u00edkov\u00e1 E (2014) PPARA Intron Polymorphism Associated with Power Performance in 30-s Anaerobic Wingate Test. PLoS ONE 9(9): e107171. doi:"} +{"text": "The second half is gererated by inversion symmetry. The crystal structure has a layered arrangement built from distorted edge-sharing LiO3(OH)2 tetra\u00adhedra parallel to (100), with naphthalenedi\u00adcarboxyl\u00adate bridging the LiO3(OH)2 layers along the [100] direction. Hydrogen bonding between the water molecule and adjacent carboxylate groups consolidates the packing.The title compound, [Li DOI: 10.1107/S1600536814013130/pj2011Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814013130/pj2011Isup3.molSupporting information file. DOI: 1006973CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "In the crystal, C\u2014H\u22efO hydrogen-bond inter\u00adactions link the mol\u00adecules into chains running parallel to the b axis.The mol\u00adecule of the commercially available title compound, C DOI: 10.1107/S2056989015008816/rz5158Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015008816/rz5158Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015008816/rz5158fig1.tif. DOI: The mol\u00adecular structure of title compound with displacement ellipsoids drawn at the 30% probability level.Click here for additional data file.10.1107/S2056989015008816/rz5158fig2.tifb via . DOI: b axis via C\u2014H\u22efO hydrogen bonds (dashed lines). H atoms not involved in hydrogen bonding are omitted.Crystal packing of the title compound, showing the formation of chains parallel to the 1063415CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Abdominal infections are frequent causes of sepsis and septic shock in the intensive care unit (ICU) and are associated with adverse outcomes. We analyzed the characteristics, treatments and outcome of ICU patients with abdominal infections using data extracted from a one-day point prevalence study, the Extended Prevalence of Infection in the ICU (EPIC) II.EPIC II included 13,796 adult patients from 1,265 ICUs in 75 countries. Infection was defined using the International Sepsis Forum criteria. Microbiological analyses were performed locally. Participating ICUs provided patient follow-up until hospital discharge or for 60\u00a0days.Escherichia coli, methicillin-sensitive Staphylococcus aureus and anaerobic isolates, and fewer enterococci than patients who had been in the ICU longer. ICU and hospital mortality rates were 29.4% and 36.3%, respectively. ICU mortality was higher in patients with abdominal infections than in those with other infections . In multivariable analysis, hematological malignancy, mechanical ventilation, cirrhosis, need for renal replacement therapy and SAPS II score were independently associated with increased mortality.Of the 7,087 infected patients, 1,392 (19.6%) had an abdominal infection on the study day . Microbiological cultures were positive in 931 (67%) patients, most commonly Gram-negative bacteria (48.0%). Antibiotics were administered to 1366 (98.1%) patients. Patients who had been in the ICU for \u22642\u00a0days prior to the study day had more The characteristics, microbiology and antibiotic treatment of abdominal infections in critically ill patients are diverse. Mortality in patients with isolated abdominal infections was higher than in those who had other infections.The online version of this article (doi:10.1186/1471-2334-14-420) contains supplementary material, which is available to authorized users. Abdominal infection is a common indication for admission to the intensive care unit (ICU) and the abdomen is the second most common site of invasive infection among critically ill patients in epidemiological \u20133 and thMulticenter data on the clinical features and microbiology of abdominal infections in the critically ill are rare, and often limited to a single region or country. In recent years, an increase in abdominal infections due to nosocomial and resistant organisms has been reported \u201314, but The Extended Prevalence of Infection in the ICU (EPIC) II study was a large one-day point-prevalence study of infections in the ICU. The study showed that half of all ICU patients were infected on the study day and 71% were being treated with antibiotics ), median (interquartile range [IQR]), or number (%) as appropriate. To identify factors associated with mortality, a multivariable logistic regression model was constructed using variables for which the P-value was <0.1 in univariable analysis. Goodness of fit was assessed by the Hosmer-Lemeshow statistic. All tests were two-tailed, and a P\u2009<\u20090.05 was considered statistically significant.Of the 7,087 infected patients, 1,392 (19.6%) were diagnosed as having an abdominal infection on the study day , methicillin-resistant staphylococci in 59 patients (6.3%). Candida species were isolated in 156 patients (16.8%), 75.6% of these isolates were Candida albicans.Microbiological data were available for 931 patients (67%), with a total of 1,289 microorganisms isolated were receiving antibiotics: penicillins and other beta-lactam antibiotics were used most frequently and hospital lengths of stay (LOS) were similar in patients with abdominal infections and those with other infections. Overall ICU and hospital mortality rates were 29.4% and 36.3%, respectively , which was not found in previous studies. In an analysis of patients from the Sepsis Occurrence in Acutely Ill Patients (SOAP) study, Volakli et al. reported no differences in mortality rates among patients with abdominal infections and those with respiratory infections . The higAs expected, comorbidities, such as cirrhosis and hematological cancer, were associated with increased mortality, as was found in the EPIC II patients in general . Most noE. coli being the most prevalent pathogen; typical nosocomial microorganisms, such as P. aeruginosa and Enterobacter spp. were also frequently isolated. Indeed, P. aeruginosa was the second most frequently isolated Gram-negative microorganism, which may in part be due to the design of the study, but the percentages are comparable to other studies in this field [P. aeruginosa and Stenotrophomonas maltophilia isolated twice and four times more often, respectively, in non-survivors than in survivors. These pathogens may have a greater degree of pathogenicity , or may be more difficult to treat. Detailed data regarding antibiotic resistance, including information regarding resistance to specific antibiotics, were not collected so we are unable to comment further on these aspects.The microbiology patterns were diverse, and quite different from those in the overall EPIC II study population, in which staphylococci were isolated most frequently, and Gram-positive and Gram-negative organisms were equally present . In the is field . Among tThe findings in this study suggest that physicians around the world seem to comply with international guidelines in this field as most patients receive broad-spectrum antibiotics, often in combination with agents aimed at fungi or even at resistant Gram-positive microorganisms. We also found that patients who had stayed in the ICU for 2\u00a0days or less on the study day had different characteristics to those who had been longer on the ICU. Microbiological isolates and antibiotic treatments were remarkably different between these groups with fewer carbapenems, glycopeptides and antifungals used in patients with shorter stays. Current guidelines for the selection of antibiotic therapy in critically ill patients do not mention length of stay in the hospital as a consideration for empirical treatment in patients with high-severity non-nosocomial infections. Nevertheless, this group represents a category of patients, presumably with community-acquired infection, who could potentially be treated with narrower spectrum antibiotics when local ecology allows. This hypothesis warrants further evaluation.Candida isolation has been identified as an independent predictor of mortality in some studies [Candida non-albicans isolates was lower than frequently reported in invasive candidiasis studies or other studies in patients with Candida peritonitis. For example, Montravers et al. reported that only 58% of patients with Candida peritonitis had C. albicans isolated from intraoperative cultures [C. albicans[Candida peritonitis accounted for only 1% of the patients in this review, however. It is not clear whether the infecting Candida species or its susceptibility plays a major role in determining outcome [Fungal infections have received considerable attention in the last decade. Although the debate continues as to whether fungi are relevant in community-acquired disease, the situation is different in nosocomial infections and in severely ill patients . Candida studies , 26, 27, studies , should cultures . In pati albicans; patient outcome .This study has a number of limitations. Because the study was not primarily focused on abdominal infections, the exact source and extent of infection were not recorded and the efficacy of source control and appropriateness of antimicrobial therapy could not be evaluated. The rate of superinfection and/or tertiary peritonitis could not be assessed. Data on the community-acquired versus nosocomial nature of infections were also not available and we, therefore, used the length of stay as a surrogate marker, but acknowledge that this has its limitations. Finally, as in all point-prevalence studies, patients who are admitted for a long period of time may skew the findings with more data collected on those who stay in the ICU for a longer period of time.In conclusion, this study found that abdominal infections were present in about one fifth of ICU patients on the study day and concomitant infections were common. Microbiology patterns and choice of antibiotic therapy were diverse and differed in patients who had stayed in the ICU for 2\u00a0days or less compared to those with longer stays. Abdominal infections carry a poor prognosis, with higher mortality rates than in patients with infections from other sources. Disease severity, need for organ support and presence of comorbidities were independently associated with mortality in our cohort.Andorra: Hospital Nostra Senyora de Meritxell (A Margarit); Argentina: Centro de Educaci\u00f3n M\u00e9dica E Investigaciones Cl\u00ednicas ; Clinica de Especialidades Villa Maria (AJ Zazu); Cl\u00ednica Modelo de Mor\u00f3n (C Bevilacqua); Clinica Y Maternidad Suizo (M Curone); CMIC (R Rabuffetti); Hospital Aleman (P Comignani); Hospital Argerich (M Torres Boden); Hospital Britanico (F Chertcoff); Hospital Central de San Isidro (G Cardonatti); Hospital de Ni\u00f1os Dr. H\u00e9ctor Quintana (F Ad\u00e9n); Hospital del Ni\u00f1o Jes\u00fas (L Marcos); Hospital Dr Pedro Ecay (M D\u00f3nofrio); Hospital Espa\u00f1ol de Mendoza (R Fern\u00e1ndez); Hospital Espa\u00f1ol Medical Plaza (R Lamberghini); Hospital Internacional General de Agudos \"Jos\u00e9 de San Mat\u00edn\" ; Hospital Interzonal Dr. O. Alende (J Teves); Hospital Italiano de Buenos Aires ; Hospital Juan A. Fern\u00e1ndez (D Ceraso); Hospital Municipal de Chivilcoy (D Curcio); Hospital Profesor Alejandro Posadas (L Aguilar); Hospital Provincial de Rosario (C Weller); Hospital Provincial del Centenario (L Cardonnet); Hospital Regional Rio Gallegos (R Santa Cruz); Hospital Regional Ushuaia (E Manrique); Hospital Universitario Austral ; Hospital Universitario Universidad Abierta Interamericana (G Chiappero); Instituto Privado del Quemado Med-Inter (D Curcio); Nuevo Hospital El Milagro (P Ramos); Ramos Mejia Hospital (J Vergara); Sanatorio Agote (I Moine); Sanatorio de la Trinidad Mitre (S Ilutovich); Sanatorio de Los Arcos (G Jannello); Sanatorio Dupuytren (M Waschbusch); Sanatorio Frangioli de Salud 2000 Srl (G Rios Picaza); Sanatorio Mater Dei (A Raimondi); Sanatorio Otamendi Y Miroli (M Miriam); Sanatorio Parque (L Carlos); Sanatorio San Jos\u00e9 (D Curcio); Armenia: Centro Gallego de Buenos Aires (M Caridi); Australia: Alfred Hospital (T Leong); Barwon Health (N Orford); Blacktown Hospital (G Reece); Box Hill Hospital (D Ernest); Cabrini Hospital (F Hawker); Concord Repatriation General Hospital (J Tan); Epworth Eastern Private Hospital (C Giannellis); Epworth Hospital Richmond (B Ihle); Flinders Medical Centre (A Bersten); Frankston Hospital (J McInnes); Gold Coast Hospital ; John Hunter Hospital (B Mcfadyen); Joondalup Health Campus (J Vibert); Liverpool Hospital, Sydney South West Area Health Service (M Parr); Logan Hospital (K Tran); Mater Health Services (J Sutton); Mount Hospital (S Webb); Nambour General Hospital (N Groves); Nepean Hospital, NSW (L Cole); Prince Charles Hospital (D Long); Prince of Wales Hospital (F Bass); Princess Margaret Hospital For Children (S Erickson); Royal Brisbane and Womens' Hospital (J Lipman); Royal Children\u2019s Hospital, Brisbane (D Long); Royal Children\u2019s Hospital, Melbourne (C Delzoppo); Royal Darwin Hospital (J Thomas); Royal Perth Hospital (G Dobb); Royal Prince Alfred Hospital ; Sir Charles Gairdner Hospital (B Roberts); St John of God Hospital, Subiaco (S Webb); St Vincent\u2019s Hospital, Melbourne (J Santamaria); Sydney Children\u2019s Hospital (J Young); The Children\u2019s Hospital at Westmead, Sydney (M Festa); The John Flynn Private Hospital (R Holland); The Prince Charles Hospital (D Mullany); The Queen Elizabeth Hospital (P Williams); The Townsville Hospital (M Corkeron); The Wollongong Hospital ; Westmead Hospital (A Banerjee); Women\u2019s and Children\u2019s Hospital, Adelaide (M Yung); Austria: University Hospital Innsbruck ; General Hospital (P Faybik); Hospital Hietzing ; Krankenhaus Barmherzige Br\u00fcder Linz (F Firlinger); Krankenhaus Der Barmherigen Brueder Wien (G Zasmeta); Krankenhaus Der Barmherzigen Br\u00fcder St. Veit (M Zink); Krankenhaus Der Barmherzigen Schwestern Linz (W Sieber); Krankenhaus Steyr (J Hildegard); Landeskrankenhaus Klagenfurt (R Bakondy); Landeskrankenhaus Stolzalpe (J Schlieber); Landeskrankenhaus Deutschlandsberg (G Filzwieser); Medical University Innsbruck ; Medical University of Vienna (T Staudinger); Otto-Wagner Hospital (R Schuster); Unfallkrankenhaus Meidling Der Auva (W Scherzer); University Hospital (K Smolle); Wilhelminenspital ; Bangladesh: Central Hospital Limited (R Manzoor); Belgium: A.I.T. (J Brunain); Ambroise Par\u00e9 (A Dive); Asz-Aalst (G Huylenbroeck); Az Groeninge Kortrijk (M Van der Schueren); Az Maria Middelares (H 't kindt); Az Sint Jozef Malle (E Slock); Az Sint Lucas (D Rijckaert); Az St Augustinus (J Raemaekers); Az St Jan Av (M Bourgeois); Az Vesalius (I Van Cotthem); Az Damiaan Oostende (G Nackaerts); C.H.N.D.R.F. (D Gusu); Centre Hospitalier de Mouscron (P Gadisseaux); CH Libramont (V Olivier); Chirec - Braine-L'Alleud (H Lignian); CHPLT Verviers (P Michel); CHR Citadelle (V Fraipont); CHR Haute Senne Soignies (M Van der Stappen); CHR St Joseph Mons-Warquignies (F For\u00eat); CHU Brugmann ; CHU Charleroi (P Biston); CHU Saint-Pierre (A Roman); CHU Sart Tilman, Li\u00e8ge (B Lambermont); Clinique Sainte Elisabeth (A De Meulder); Clinique Notre Dame (V Frederic); Clinique Notre-Dame de Gr\u00e2ce (T Sottiaux); Clinique Saint Luc, Bouge (P Ruyffelaere); Cliniques de L'Europe, St-Michel (V Collin); Cliniques de L'Europe, Ste Elisabeth (S Anane); H\u00f4pital Francais (P Kleiren); H\u00f4pital Saint-Joseph (M Simon); Hornu (S Machayekhi); Imeldaziekenhuis (E Frans); Institut Jules Bordet ; Jan Yperman Hospital (R Joseph); Olv Ter Linden Ziekenhuis, Knokke (J Eerens); Saint Luc University Hospital (PF Laterre); Sint Augustinus, Veurne (B Lagrou); St Vincent (R Rutsaert); St-Jozefkliniek Bornem-Willebroek (W Pisarek); UCL Mont-Godinne (A Dive); Universitair Ziekenhuis Gent (J De Waele); University Hospital Brussels (H Spapen); University Hospital of Liege (P Damas); Erasme University Hospital (JL Vincent); ZNA Stuivenberg ; Belize: Universal Health Services, Medical Center ; Brazil: Bandeirantes Hospital (M Baptista); Barra Dor Hospital ; Biocor Instituto (M Braga); Casa de Saude Sao Jose Caxias (C Avila); Centro Hospitalar Unimed ; Centro Integrado de Aten\u00e7a\u00f5 \u00c0 Sa\u00fade -Unimed Vit\u00f3ria (E Caser); Cl\u00ednica S\u00e3o Vicente da G\u00e1vea (A Alves); Complexo Hospitalar Santa Casa de Porto Alegre (G Friedman); Erasto Gaertner Hospital (M Luz); Federal University of Sao Paulo (M Assuncao); Fundacao Hospital de Clinicas Gaspar Vianna (H Reis); Funda\u00e7\u00e3o Hospitalar Do Estado de Minas Gerais - Fhemig (A Gomes); Funda\u00e7\u00e3o Pio Xii (U Silva); UNIFESP (W Nogueira Fh); Hopital das Cl\u00ednicas - FMUSP (S El-Dash); Hospital Padre Albino-Faculdade de Medicina de Catanduva ; Hospital Alberto Cavalcanti (A Barbosa); Hospital Badim (C Coelho); Hospital Cardiotrauma Ipanema (M Knibel); Hospital Carlos Fernando Malzoni (C Minelli); Hospital Da Cidade de Passo Fundo (J Caovilla); Hospital das Cl\u00ednicas da Faculdade de Medicina de Ribeir\u00e3o Preto da Universidade de S\u00e3o Paulo (G Teixeira); Hospital das Cl\u00ednicas, Universisty of S\u00e3o Paulo (A Hovnanian); Hospital das Nacoes (A Rea-Neto); Hospital de Base-Famerp (SL Lobo); Hospital de Cl\u00ednicas Mario Lioni (M Lugarinho); Hospital de Cl\u00ednicas Niter\u00f3i (P Souza); Hospital de Doen\u00e7as Tropicais de Goi\u00e2nia (D Ferreira); Hospital do Cancer/Uopeccan (P Duarte); Hospital do Trabalhador (M Oliveira); Hospital dos Servidores do Estado Rio de Janeiro (J Marques); Hospital E Maternidade S\u00e3o Jos\u00e9 (R Machado); Hospital Estadual Diadema (P Rehder); Hospital Estadual do Grajau-Unisa ; Hospital Evangelico (M Grilo); Hospital Evangelico do Rio de Janeiro (P Quesado); Hospital Geral de Pedreira (M Moock); Hospital Geral de S\u00e3o Mateus (F Ferreira); Hospital Geral Roberto Santos (J Teles); Hospital Israelita Albert Einstein (E Silva); Hospital Israelita Albert Sabin (C Coelho); Hospital J\u00falia Kubitschek (A Morais); Hospital Mater Dei ; Hospital Memorial Arthur Ramos (M Wanderley); Hospital Meridional (M Velasco); Hospital Moinhos de Vento (N Brand\u00e3o da Silva); Hospital Municipal S\u00e3o Jos\u00e9 (J Feij\u00f3); Hospital Nossa Senhora Da Salete (P Duarte); Hospital Pasteur (V Souza Dantas); Hospital Portugu\u00eas (J Teles); Hospital Pr\u00f3-Card\u00edaco (R Costa Filho); Hospital Quinta D'Or (A Japiassu); Hospital Regional Ant\u00f4nio Dias (D Villela); Hospital Regional de Barbacena (C Santos); Hospital Salvador (R Passos); Hospital Samaritano (R Alheira-Rocha); Hospital Santa Izabel (R Silva); Hospital Santa Paula (J Houly); Hospital Sao Cristovao (J Aldrighi); Hospital S\u00e3o Lucas (R Hatum); Hospital S\u00e3o Lucas da PUCRS (F Suparregui Dias); Hospital S\u00e3o Luiz - Unidade Itaim (L Ferreira); Hospital S\u00e3o Rafael (L Ferro); Hospital S\u00e3o Vicente de Paulo (J Gomez); Hospital Universit\u00e1rio Clementindo Fraga Filho - Ufrj (R Fleury); Hospital Universitario da Universidade Federal do Rio de Janeiro (C David); Hospital Universit\u00e1rio de Santa Maria (T Resener); Hospital Universit\u00e1rio do Oeste do Paran\u00e1 (P Duarte); Hospital Universit\u00e1rio Lauro Wanderley - UTI Adulto (C Mendes); Hospital Universitario Regional de Maringa (A Germano); Hospital Vita Curitiba (M Oliveira); Hospital Vivalle (F De marco); Instituto de Espquisa Clinica Evandro Chagas (A Japiassu); Instituto Do Cora\u00e7\u00e3o - HC-FMUSP (S Lage); Instituto Nacional de Cancer ; Irmandade Santa Casa de Misericordia de Porto Alegre (A Torelly); Luxemburgo Hospital (R Sad); Mternidade Odete Valadares (A Barbosa); Prontocor Lagoa (G Oliveira); Samaritano Hospital (R Lima); Santa Casa Da Miseric\u00f3rdia de S\u00e3o Jo\u00e3o del Rei (J Paranhos); Santa Casa de Misericordia de Passos (M Oliveira); Santa Casa de Porto Alegre (M Rocha); S\u00e3o Sebasti\u00e3o Hospital (W Bitencourt); Universidade Federal Do Parana (A Rea-Neto); University of Londrina (C Grion); University of Sao Paulo (D Forte); Uti Da Disciplina de Cl\u00ednica M\u00e9dica-Unifesp (H Guimar\u00e3es); Vit\u00f3ria Apart Hospital (C Piras); Bulgaria: Mbal Ruse (L Stephanova); Multiprofile Hospital of Active Treatment, Ruse (L Lyubenov); Uh St. Ekaterina (G Tsarianski); Univerisity Hospital (G Dimov); Canada: Capital Health-Queen Elizabeth II Health Sciences Centre (R Green); Centre Hospitalier R\u00e9gional de Lanaudi\u00e8re (J Levasseur); Children\u2019s Hospital of Eastern Ontario (R Ward); CHU Sherbrooke (O Lesur); H\u00f4pital Charles Lemoyne (G Poirier); Mount Sinai Hospital (R Wax); Royal Jubilee Hospital (G Wood); St. Joseph\u2019s Healthcare (D Cook); St. Michael\u2019s Hospital ; Toronto General Hospital (M Herridge); Toronto Western Hospital (N Ferguson); Victoria General Hospital (G Wood); Chile: Clinica Alemana de Santiago (M Espinoza); Clinica las Condes ; Hospital Cl\u00ednico de la Pontificia Universidad Cat\u00f3lica de Chile (A Bruhn); Hospital del Trabajador (J Micolich); Hospital Dr G. Fricke ; Hospital El Pino (I Escamilla Leon); China: Beijing Chaoyang Hospital (Q Zhan); Beijing Tongren Hospital (Y Xu); Chinense Pla General Hospital (Y Zhao); Fuxing Hospital, Capital Medical University (L Zhang); Guangdong Provincial People\u2019s Hospital (T Qin); Peking Union Medical College Hospital (B Du); Peking University People\u2019s Hospital (M Li); Ren Ji Hospital,Shanghai Jiao Tong University (X Wang); The Affiliated Hospital of Ningxia Medical College of China (Y Jing); The First Affiliate Hospital of China Medical University (Z Zhang); The First Affiliated Hospital of Dalian Medical University (W Xianyao); The First People\u2019s Hospital of Nantong, Jiangsu (F Li); Zhong-Da Hospital and School of Clinical Medicine, Southeast University (Y Congshan); Colombia: Clinica General del Norte (C Rebolledo); Clinica Central del Quindio (D Diaz); Clinica Medellin (R Murillo Arboleda); Clinica Saludcoop (C Rebolledo); Clinica Santa Isabel de Valledupar. 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(S Smith); Newcastle General Hospital (A Vincent); Newham University Hospital Trust (P Withington); NHS Tayside (C Macmillan); Northampton General Hospital (R Webster); Papworth Hospital (A Vuylsteke); Peterborough Hospitals (B Appadu); Princess Royal Hospital (C Barrera groba); Queen Alexandra Hospital, Portsmouth (P McQuillan); Queen Elizabeth Hospital (M Blunt); Queen Elizabeth Medical Center, Birmingham (N Parekh); Rotherham DGH (D William); Royal Berkshire Hospital (C Jones); Royal Blackburn Hospital (A Krige); Royal Bournemouth NHS Foundation Trust (M Schuster-Bruce); Royal Cornwall Hospital (J Boyden); Royal Devon & Exeter NHS Foundation Trust (C Boulanger); Royal Infirmary of Edinburgh (D Swann); Royal Liverpool University Hospital ; Royal Marsden Hospital (T Wigmore); Royal Shrewsbury Hospital (R Law); Royal Sussex County Hospital ; South Tyneside Hospital (C Muench); Southmead Hospital (S Robinson); St George\u2019s Hospital ; St Helens and Knowsley Hospital (T Mahambrey); St John\u2019s Hospital (L Cameron); St. James\u2019s University Hospital (J Thornton); St. Mary\u2019s Hospital (M Stotz); St. Peters Hospital (M Russell); Stirling Royal Infirmary (A Longmate); Tameside General Hospital (R Kitson); Taunton & Somerset NHS Trust (B Browne); The Hillingdon Hospital (A Thorniley); The James Cook University Hospital ; Torbay Hospital (M Swart); University College Hospital (M Singer); University Hospital Birmingham (N Gautam); University Hospital of South Manchester (V Prasad); University Hospitals Coventry & Warwickshire Nhs Trust (D Watson); West Middlesex University Hospital (T Szakmany); West Suffolk Hospital (J Cardy); Western Infirmary Glasgow (A Binning); Wexham Park Hospital (R Loveland); Wirral Hospitals Nhs Trust (J Gannon); Wolverhampton Hospital (G Martinelli); Wythenshawe Hospital ; Yeovil District Hospital (J Howes) United States: Baystate Medical Center (J Steingrub); Denver Health Medical Center (L Ammons); Emory University Hospital - MICU (M Fisher); Englewood Hospital Medical Center (N Gandhi); Grady Memorial Hospital-Emory University (G Martin); Hospital of The University of Pennsylvania (C Deutschman); LDS Hospital, Salt Lake City (N Dean); Inova Fairfax Hospital (C Michetti); Los Angeles County\u2009+\u2009University of Southern California Medical Center (H Belzberg); LSUHSC Shreveport (K Hutchinson); Maine Medical Center (T Van der kloot); Mayo Clinic (B Afessa); Mount Sinai School of Medicine (D Kaufman); Nassau University Medical Center ; New York University (D Ost); Northwestern University ; Northwestern University Feinberg School of Medicine Critical Care (S Afifi); Olive View Ucla Medical Center (S Stein); Oregon Health & Science University (D Hagg); Orlando Regional Medical Center (E Jimenez); Penn State Hershey Medical Center (S Blosser); Rochester General Hospital (S Chhangani); Rush University Medical Center (R Kleinpell); Rutland Regional Medical Center (H Reich); Scott and White Hospital (E Fileds); Sharp Memorial Hospital (D Willms); South Texas Veterans Health Care System (P Castellanos-Mateus); St. Joseph Medical Center Fhs (L Melnik); Texas Tech University Health Sciences Center (L Oud); Cardiovascular ICU, The Methodist Hospital, Houston ; Medical ICU, The Methodist Hospital, Houston ; The University of Mississippi Medical Center (A Badr); The University of Texas Health Science Center at San Antonio ; University of Chicago (A Pohlman); University of Cincinnati (R Branson); University of Kansas Hospital (S Simpson); University of Miami School of Medicine (D Kett); University of Michigan ; University of Texas Health Science Center at San Antonio (C Patricia); University of Toledo Medical Center ; University of Virginia (R Sawyer); Uthsc At Memphis - Regional Medical Center (Site) (A Freire); Veterans Caribbean Healthcare System (W Rodriguez); Washington Hospital Center (A Ryan); West Suburban Medical Center (B Margolis); Winthrop University Hospital (M Groth) Uruguay: Amecom (H Escanda); Comta (J Baraibar); Hopital Policial (D Paciel); Hospital Maciel (H Bagnulo); Hospital Tacuarembo (F Hitta); M\u00e9dica Uruguaya Corporaci\u00f3n de Asistencia M\u00e9dica ; Sanatorio Americano - Femi (H Albornoz) Venezuela: Hospital Dr Luis Ortega ; Hospital Unversitario de Caracas (C Pacheco) Vietnam: Bach Mai Hospital (T Bui); Franco Vietnamese Hospital (F Potie); Ninh Thuan Hospital (C Nguyen Huu)Table S2. Antibiotic use in patients with abdominal infections. Table S3. Microbiology and antibiotic use in survivors and non-survivors. (DOC 117 KB)Additional file 1: Table S1: Sites of infection."} +{"text": "S7 FigRegression analyses of biochemical measures against population doublings. Regressions were made combining all data from all 3 donors (n \u2265 23). A-E Atmospheric oxygen tension, F-J Low (5%) oxygen tension; A, F) Wet weight vs. population doublings; B,G) Total GAG (per aggregate) vs. population doublings; C,H) Total HP (per aggregate) vs. population doublings; D, I) Normalized GAG (GAG/DNA) vs. population doublings; E,J) Normalized HP (HP/DNA) vs. population doublings.(TIF)Click here for additional data file."} +{"text": "The Editors would like to thank the following reviewers for their continuous support during the year of 2014:Franck AccadbledMichael D. AionaZaid Al-AubaidiJavier AlbinanaCristina AlvesAntonio AndreacchioDavid D. AronssonElhanan Bar-OnJeremy BauerJames BeatyMichael J. BellMohan V. BelthurMichael K.D. BensonErnesto BersuskyVictor BialikRainer Georg BiedermannJohn G. BirchRobert Dale BlasierStephanie BoehmThomas BoeniSilvio BoeroGerard BolliniDieter BolzChristopher F. BradishAmichai BreznerReinald BrunnerMichael T. BuschCarlo CamathiasFederico CanaveseKelly CarmichaelNorris C. CarrollPablo Casta\u00f1edaAnthony CatterallHenry ChambersTae-Joon ChoFranck ChotelAur\u00e9lien CourvoisierJuan Carlos CoutoAlvin Howell CrawfordRobert Jay CummingsPeter John CundyJaroslaw CzubakCharles d\u2019AmatoLuciano DiasJohn DimitriouMatthew B. DobbsJohn P. DormansDenis S. DrummondDeborah EastwoodEric W. EdmondsJohn EmansTomas EpeldeguiThomas ErbG. Ulrich ExnerSharon EylonEli EzraGuy FabryDavid S. FeldmanFrank FitoussiEdilson ForlinNiklaus F. FriederichBruno FuchsPatricia Moraes Barros FucsToshio FujiiJulia F. FunkRudolf GangerMark GastonYael GelferIsmat GhanemWerner GirschJoe Eric GordonReinhard GrafH. Kerr GrahamAlfred D. GrantFranz GrillRichard Henri GrossGunnar H\u00e4gglundCarol HaslerDorian HaukeShlomo HayekHanne Bastrup HedinBernhard HeimkesAnna Kathrin HellYoram HemoJohn Anthony HerringJohn E. HerzenbergSevan HopyanGamal HosnyJames B. HunterIvan HvidTalal IbrahimErnesto IppolitoRoger JawishAndrea JesterCharles E. JohnstonBenjamin JosephJean-Luc JouveAndre KaelinLori KarolHidehiko KawabataDerek M. KellyDavid KeretSam KhamisMininder S. KocherJoseph Ivan KrajbichRuediger KrauspeAndreas KriegKen N. KuoRon LamdanErica LamprechtMario LampropulosLennart A. LandinPierre LascombesDavid LebelSeok Hyun LeeWallace LehmanJoseph LessingLynn LindamanDavid G. LittleRandall LoderJohn E. LonsteinScott J. LuhmannNicolas LutzWilliam G. MackenzieEran MamanHans Michael MannerJohannes MayrTerence McGuireCharles T. MehlmanA. Ludwig MeissCarlo MilaniFreeman MillerMichael B. MillisKan MinBjarne Moeller-MadsenGuy MolenaersJose MorcuendeVincent MoscaScott J. MubarakAndreas Marc MuellerKishore MulpuriLucas MurnaghanYasuharu NakashimaMarek NapiontekYrj\u00e4n\u00e4 NietosvaaraIulian NusemAvi OhryHakan OmerogluNorman Y. OtsukaDror OvadiaKlaus ParschLaura Montserrat P\u00e9rez L\u00f3pezPeter PizzutilloThomas PresselTamir PritschGeorge T. RabChristof RadlerLeonhard E. RamseierJames E. RobbAndreas RoposchYishai RosenblattErich RutzRalph SakkersWudbhav N SankarDietrich SchlenzkaPerry L. SchoeneckerAstrid SchulzeEitan Nathan SegevDalia A. Sep\u00falvedaSheldon R. SimonDavid L. SkaggsTheddy SlongoHae Ryong SongPaul D. SponsellerCarl L. StanitskiRobert P. StantonDaniel StuderMichael D. SussmanMarek SynderTerje TerjesenTim TheologisStephen J. TredwellChristian TschaunerCosimo TudiscoAnja Van CampenhoutJohannes A. van der SluijsMichael G. VitaleAndrew WainwrightEric WallStewart WalshJohn H. WedgeDennis S. WeinerStuart L. WeinsteinDennis R. WengerBettina WesthoffRoger F. WidmannKaye E. WilkinsR. Baxter WillisThomas WirthJames G. WrightHaruhisa YanagidaMoshe YanivMuharrem YaziciReinhard D. ZellerKai Ziebarth"} +{"text": "The CuII atom is tetra\u00adcoordinated by two N,S-bidentate ligands, forming a highly distorted tetra\u00adhedral environment. The structure displays two intra\u00admolecular N\u2014H\u22efO hydrogen bonds. The title complex, [Cu(C DOI: 10.1107/S2056989015005022/lr2133Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015005022/lr2133fig1.tif. DOI: The mol\u00adecular structure of (I), with atom labels and 50% probability displacement ellipsoids for non-H atoms.1039799CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The correct reference is: Bosc N, Wroblowski B, Aci-S\u00e8che S, Meyer C, Bonnet P (2015) A Proteometric Analysis of Human Kinome: Insight into Discriminant Conformation-Dependent Residues. ACS Chem Biol 10: 2827\u20132840. doi:"} +{"text": "Scientific Reports6: Article number: 2269010.1038/srep22690; published online: 03112016; updated: 04202016This Article contains errors in the legend of Fig. 5.Diap3-Tg mutant mice.\u201d\u201cPost-weaning dietary supplement slowed or reversed hearing loss in should read:Diap3-Tg mutant mice.\u201d\u201cPost-weaning dietary supplement accelerated hearing loss in"} +{"text": "Nature Communications 6: Article number: 745110.1038/ncomms8451 (2015); Published: 06162015; Updated: 10222015The original version of the Supplementary Figures 1-15, Supplementary Table 1, Supplementary Note 1 and Supplementary Reference."} +{"text": "In the crystal, O\u2014H\u22efN hydrogen bonds lead to the formation of infinite chains along [101] which are further linked by N\u2014H\u22efO hydrogen bonds, forming (010) sheets.The title compound, C DOI: 10.1107/S2056989015009172/ff2137Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015009172/ff2137Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989015009172/ff2137fig1.tif. DOI: Mol\u00adecular structure of the title compound, showing the atom-labelling scheme. Displacement ellipsoids are drawn at the 50% probability level. H atoms are drawn as spheres of arbitrary radius.Click here for additional data file.10.1107/S2056989015009172/ff2137fig2.tif. DOI: Mol\u00adecular packing of the title compound with hydrogen bonding shown as dashed lines.1400729CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The central coordination angles with the PdII atom range from 83.14\u2005(10) to 97.25\u2005(12)\u00b0.In the title compound, [Pd(CF DOI: 10.1107/S1600536814007855/vn2082Isup2.hklStructure factors: contains datablock(s) I. DOI: 996158CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "The correct sentence is: Transfusion recipients received the human umbilical cord-derived mesenchymal stem cells (hUC-MSC; 4 [2.87\u201310]\u00d710"} +{"text": "In the crystal, the solvent mol\u00adecule is linked to the cation via a weak C\u2014H\u22efO hydrogen bond.In the tetra\u00adhydro\u00adfuran solvate of the title salt, C DOI: 10.1107/S1600536814011258/lh5704Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814011258/lh5704Isup3.cdxSupporting information file. DOI: 1003430CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "AbstractHemiptera: Adelgidae) is presented. Six family-group names are listed, five being synonyms of Adelgidae. Twenty-two genus-group names, of which nine are subjectively valid and in use, are presented with their type species, etymology, and grammatical gender. One hundred and six species-group names are listed, of which 70 are considered subjectively valid.A taxonomic and nomenclatural Catalogue of the adelgids ( Adelgidae is a small family of Hemiptera with 65 species, closely related to Aphididae. They exhibit a two-year life cycle, with some species alternating hosts between spruce (Picea) one year and species of another conifer genus the next. Other species or populations do not alternate hosts, feeding only on Picea or one of the other conifer genera. Like other Aphidomorpha, Adelgidae exhibit cyclical parthenogenesis, although they are oviparous unlike the viviparous Aphididae. Some adelgid species are important forestry pests, most notably the hemlock woolly adelgid, Adelgestsugae (Annand) and the balsam woolly adelgid, Adelgespiceae (Ratzeburg). Adelgidae are two extinct families, Elektraphididae and Mesozoicaphididae, the three families comprising the superfamily Adelgoidea and several subgenera, although some have preferred to treat the latter as full genera , two and seven valid genera and subgenera , and 65 and five valid species and subspecies . We include one genus-group nomen dubium, four suppressed genus-group names, three species-group nomina dubia, and two unavailable species-group names; the many such names still in combination with Chermes are not listed here geniculatus (Chermes)iculatus :202 (Cheisedakii Eichhorn in Adelges)japonicus (Chermes)aponicus :71 lapponicus (Chermes)pponicus :390 (Chepraecox (Chermeslapponicus Cholodkovsky)=praecox :28 (varilariciatus (Chermes)riciatus :137 (ChelaricisAdelges) (nomen protectum with respect to Coccuslaricis Bouch\u00e9)laricisVallot 1836subspecies atratus (Chermes)=atratus :39 (Chercoccineus (Chermes)=occineus :202 (Checonsolidatus (Chermes)=olidatus :137 (Chehamadryas (Anisophleba)=amadryas :320 (Anilariceti (Chermes)=lariceti :279 (Chelaricis (Coccus) =laricis :22 (Cocclaricis (Chermes)=laricis :644 (Cheobtectus (Chermes)=obtectus :200 (Chestrobilobius (Chermes)=bilobius :203 subspecies tardoides ardoides :175 (vartardus (Chermes)tardus :3 (=affinis :167 (Cnaniger (Chermes)=niger :41 (CherANNANDINASubgenus AdelgestsugaeType species Etymology. (Percy Nicol) Annand [American entomologist] + -inaGender. FemininetsugaeAdelges)APHRASTASIASubgenus ChermespectinataeType species. Etymology. Greek aphrastos \u2018unnoticed\u2019 + -iaGender. Femininepectinatae (Chermes)ctinatae :47 (Cherishiharai (Chermes)subspecies shiharai :75 (Cherpectinatae (subspecies ctinatae CHOLODKOVSKYASubgenus ChermesviridanusType species. Etymology. (Nikolai Alexandrovitsch) Cholodkovsky [Russian entomologist] + -aGender. FeminineoregonensisAdelges)viridanus (Chermes)iridanus :39 (Cherlaricicola (Chermes)=ricicola :151 (Cheviridulus (Chermes)iridulus :175 (CheDREYFUSIASubgenus ChermespiceaeType species. Etymology. (Ludwig Theodor) Dreyfus [German entomologist] + -iaGender. Feminineabietispiceae (Chermes) nomen dubium indicates that the species is probably real but that the description is insufficient to confirm its identity; PageBreakcompare with their description of Dreyfusiaknucheli Schneider-Orelli and Schneider. Dreyfusiaknucheli, but qualified it with a question mark)ispiceae :57 nomen dubium (nitectus :6 (Chermn dubium joshii (Dreyfusia)joshii :260 (Dreknucheli (Dreyfusia)knucheli :416 (Dremerkeri (Dreyfusia)merkeri :312 (Drenebrodensis (Dreyfusia)rodensis :246 (Drenordmannianae (Chermes)annianae :90 (Chernuesslini (Dreyfusia)=uesslini :739 (Drepiceae (Chermes)piceae :204 (Checanadensis (Dreyfusiapiceae (Ratzeburg))subspecies nadensis :454 )subspecies piceae (subspecies piceae bouvieri (Chermespiceae Ratzeburg)=bouvieri :10 (varipindrowiAdelges)prelli (Dreyfusia)prelli :822 (Dreschneideri (Dreyfusia)hneideri :684 (Dretodomatsui (Dreyfusia)domatsui :73,92 (DGILLETTEELLASubgenus ChermescooleyiType species. Etymology. (Clarence Preston) Gillette [American entomologist] + -ella [diminutive suffix]Gender. FeminineGilletteaB\u00f6rner 1909dNote. Replacement name for GILLETTEA=ChermescooleyiType species. Etymology. (Clarence Preston) Gillette [American entomologist] + -aGender. FeminineGilletteaHymenoptera, Cynipidae)Note. Junior homonym of cooleyi (Chermes)cooleyi :3 (Chermcoweni (Chermescooleyi Gillette)coweni :10 (varicummingae (Gilletteella) nomen nudumummingae :10,22,42glandulae (Zhang in Gilletteella)Zhang in :382 abietis :454 (Cheabietislaricis (Chermes) based on Larix-associated form of Chermesabietis=slaricis :88 =eviridis :39 nomen dubium=mabietis :99 (Aphilaricifoliae (Chermes)=cifoliae :752 (ChediversisAdelges)karafutonisAdelges)kitamiensis (Sacchiphantes)amiensis :341 segregis (Sacchiphantes)segregis :67 (Sacctorii (Eichhorn in Sacchiphantes)viridis (Chermes)viridis :202 =dentalis :281 Gistel [German entomologist] + -i + ella [diminutive suffix]PageBreakGender. FeminineAphanusNote. Replacement name for APHANUS=ChermeslapidariusType species. Etymology. Greek aphan\u0113s \u2018invisible\u2019Gender. MasculineAphanusHemiptera, Lygaeidae)Note. Junior homonym of lapidaria (Chermes) nomen dubium (placement unknown)apidaria :306 (ChePINEUSPINEODESSubgenus ChermespinifoliaeType species. Pine(us) [Hemiptera: Adelgidae]+ Greek -\u014dd\u0113s \u2018resembling\u2019Etymology. Gender. Masculinepinifoliae (Chermes)nifoliae :741 (Cheabieticolens (Chermes)=ticolens :156 (Chearmiger (Chermes)=armiger :5 (Chermmontanus (Chermes)=montanus :14 (CherPINEUSSubgenus CoccuspinicorticisType species. Etymology. Latin pineus \u2018of or pertaining to pine\u2019Gender. MasculineCHERMAPHIS=Kermaphispinivar.laevisType species. Cherm(es) [Hemiptera] + Aphis [Hemiptera: Aphididae]Etymology. Gender. FeminineCNAPHALODES=ChermespiniType species. Etymology. Greek knaphallon \u2018pillow\u2019 + Greek -\u014dd\u0113s \u2018resembling\u2019Gender. MasculineEOPINEUS=ChermesstrobiType species. Pineus [Hemiptera: Adelgidae]Etymology. Greek \u0113\u014ds \u2018dawn\u2019, \u2018early\u2019 + Gender. MasculineKERMAPHIS=AnisophlebapiniType species. Kerm(es) [Hemiptera: Coccoidea] + Aphis [Hemiptera: Aphididae]Etymology. Gender. FemininePageBreakPITYOPSYLLA=ChermespiniType species. Psylla [Hemiptera: Psyllidae]Etymology. Greek pitys \u2018pine\u2019 + Gender. FeminineCnaphalodesAmyot and Audinet Serville 1843Note. Suppressed and juniabietinusPineus)armandicolaPineus)boerneriPineus) (Pineuslaevis (Maskell), but iPineus) :11, InouiPineus) :36, and iPineus) :8 list tboyceiPineus)cembrae (Chermes)cembrae :47 (Chercembrae (subspecies cembrae sibiricus (Chermes)=ibiricus :388 (ChepinikoreanusPineuscembrae (Cholokovsky))subspecies cladogenousPineus)coloradensis (Chermes)radensis :16 (ChercortecicolusPineus)engelmanniiPineus)floccus (Chermes)floccus :137 (CheghaniiPineus)harukawaiPineus)havrylenkoiPineus)hosoyaiPineus)konowashiyaiPineus)laevis (Kermaphispini (Koch))laevis :16 (varimatsumuraiPineus)orientalis (Chermes)ientalis :3,6 (ChepatchaePineus)pineoides (Chermespini (Koch))ineoides :263 (varpini (Chermes)pini :328 (Checoniferarum (Chermes)=iferarum :222 (Chepini (Anisophleba)=pini :322 (Anipinicola (Chermespini (Koch))=pinicola :57 (varipiniyunnanensisPineus)sichunanus Zhang in Pineus)similis (Chermes)similis :15 (ChersimmondsiPineus)strobi (Coccus)strobi :643 =rticalis :197 (Chepinicorticis (Coccus)=corticis :871 (CocPageBreakstrobi (Coccus)=strobi :174 (Cocstrobi (Chermes)=strobi :203 (ChesylvestrisPineus)wallichianaePineus)ADELGESVallot 1836abieticolensPineus (Pineodes) pinifoliaeabietinusPineus (Pineus)abietisAdelges (Sacchiphantes)abietislaricisAdelges (Sacchiphantes) abietisabietispiceaeAdelges (Dreyfusia)aenigmaticusAdelges (Adelges)affinisAdelges (Adelges) tardusalaeviridisAdelges (Sacchiphantes) abietisANISOPHLEBAAdelges (Adelges)ANNANDINAAdelgesAPHANUSGisteliellaAPHRASTASIAAdelgesarmandicola Zhang et al. in Chen 1992 \u2013 Pineus (Pineus)armigerPineus (Pineodes) pinifoliaeatratusAdelges (Adelges) laricislariciboerneriPineus (Pineus)bouvieriAdelges (Dreyfusia) piceaepiceaeboyceiPineus (Pineus)canadensisAdelges (Dreyfusia) piceaecembraePineus (Pineus)CHERMAPHISPineus (Pineus)CHERMESLinnaeus 1758CHOLODKOVSKYAAdelgescladogenousPineus (Pineus)CNAPHALODESPineus (Pineus)coccineusAdelges (Adelges) laricislariciscoloradensisPineus (Pineus)coniferarumPineus (Pineus) piniconsolidatusAdelges (Adelges) laricislariciscooleyiAdelges (Gilletteella)cortecicolusPineus (Pineus)corticalisPineus (Pineus) strobicoweniAdelges (Gilletteella)cummingaeAdelges (Gilletteella)PageBreakdiversisAdelges (Sacchiphantes)DREYFUSIAAdelgesELATIPTUSAdelges (Sacchiphantes)engelmanniiPineus (Pineus)EOPINEUSPineus (Pineus)floccusPineus (Pineus)funitectusAdelges (Dreyfusia)gallarumabietisAdelges (Sacchiphantes) abietisgeniculatusAdelges (Adelges)ghaniiPineus (Pineus)GILLETTEAAdelges (Gilletteella)GILLETTEELLAAdelgesGISTELIELLAStrand 1928glandulae Zhang in Adelges (Gilletteella)hamadryasAdelges (Adelges) laricislaricisharukawaiPineus (Pineus)havrylenkoiPineus (Pineus)himalayensisAdelges (Dreyfusia) abietispiceaehosoyaiPineus (Pineus)isedakii Eichhorn in Adelges (Adelges)ishiharaiAdelges (Aphrastasia) pectinataejaponicusAdelges (Adelges)joshiiAdelges (Dreyfusia)karafutonisAdelges (Sacchiphantes)karamatsuAdelges (Adelges)KERMAPHISPineus (Pineus)kitamiensisAdelges (Sacchiphantes)knucheliAdelges (Dreyfusia)konowashiyaiPineus (Pineus)laevisPineus (Pineus)lapidariaGisteliellalapponicusAdelges (Adelges)LARICETHUSAdelges (Adelges)laricetiAdelges (Adelges) laricislaricislariciatusAdelges (Adelges)laricicolaAdelges (Cholodkovskya) viridanuslaricifoliaeAdelges (Sacchiphantes) abietislaricisAdelges (Adelges) laricislaricislaricisAdelges (Adelges) laricislaricislaricisAdelges (Adelges)matsumuraiPineus (Pineus)merkeriAdelges (Dreyfusia)montanusPineus (Pineodes) pinifoliaePageBreaknebrodensisAdelges (Dreyfusia)nigerAdelges (Adelges) tardusnordmannianaeAdelges (Dreyfusia)nuessliniAdelges (Dreyfusia) nordmannianaeobtectusAdelges (Adelges) laricislaricisoccidentalisAdelges (Sacchiphantes) viridisoccidentalisAdelges (Dreyfusia) piceaeoregonensisAdelges (Cholodkovskya)orientalisPineus (Pineus)patchaePineus (Pineus)pectinataeAdelges (Aphrastasia)PHLOEOPHTHIRIDIUMAdelges (Sacchiphantes)piceae Ratzeburg 1944 \u2013 Adelges (Dreyfusia)pindrowiAdelges (Dreyfusia)PINEODESPineuspineoidesPineus (Pineus)PINEUSShimer 1869piniPineus (Pineus)piniPineus (Pineus) pinipinicolaPineus (Pineus) pinipinicorticisPineus (Pineus) strobipinifoliaePineus (Pineodes)pinikoreanusPineus (Pineus) cembraepiniyunnanensisPineus (Pineus)PITYOPSYLLAPineus (Pineus)potaninilaricis Zhang in Adelges (Adelges) laricispraecoxAdelges (Adelges) lapponicusprelliAdelges (Dreyfusia)roseigallisAdelges (Sacchiphantes)SACCHIPHANTESAdelgesschneideriAdelges (Dreyfusia)segregisAdelges (Sacchiphantes)sibiricusPineus (Pineus) cembraecembraesichunanus Zhang in Pineus (Pineus)similisPineus (Pineus)simmondsiPineus (Pineus)strobiPineus (Pineus) strobistrobiPineus (Pineus)strobiPineus (Pineus) strobistrobilobiusAdelges (Adelges) laricislaricissylvestrisPineus (Pineus)tardoidesAdelges (Adelges)tardusAdelges (Adelges)PageBreaktodomatsuiAdelges (Dreyfusia)torii Eichhorn in Adelges (Sacchiphantes)tsugaeAdelges (Annandina)viridanusAdelges (Cholodkovskya)viridisAdelges (Sacchiphantes)viridulusAdelges (Cholodkovskya)wallichianaePineus (Pineus)"} +{"text": "Paenibacillus larvae is a Firmicute bacterium that causes American Foulbrood, a lethal disease in honeybees and is a major source of global agricultural losses. Although P. larvae phages were isolated prior to 2013, no full genome sequences of P. larvae bacteriophages were published or analyzed. This report includes an in-depth analysis of the structure, genomes, and relatedness of P. larvae myoviruses Abouo, Davis, Emery, Jimmer1, Jimmer2, and siphovirus phiIBB_Pl23 to each other and to other known phages.P. larvae phages Abouo, Davies, Emery, Jimmer1, and Jimmer2 are myoviruses with ~50 kbp genomes. The six P. larvae phages form three distinct groups by dotplot analysis. An annotated linear genome map of these six phages displays important identifiable genes and demonstrates the relationship between phages. Sixty phage assembly or structural protein genes and 133 regulatory or other non-structural protein genes were identifiable among the six P. larvae phages. Jimmer1, Jimmer2, and Davies formed stable lysogens resistant to superinfection by genetically similar phages. The correlation between tape measure protein gene length and phage tail length allowed identification of co-isolated phages Emery and Abouo in electron micrographs. A Phamerator database was assembled with the P. larvae phage genomes and 107 genomes of Firmicute-infecting phages, including 71 Bacillus phages. Phamerator identified conserved domains in 1,501 of 6,181 phamilies (only 24.3%) encoded by genes in the database and revealed that P. larvae phage genomes shared at least one phamily with 72 of the 107 other phages. The phamily relationship of large terminase proteins was used to indicate putative DNA packaging strategies. Analyses from CoreGenes, Phamerator, and electron micrograph measurements indicated Jimmer1, Jimmer2, Abouo and Davies were related to phages phiC2, EJ-1, KC5a, and AQ113, which are small-genome myoviruses that infect Streptococcus, Lactobacillus, and Clostridium, respectively.Paenibacillus genus and the first organization of P. larvae phages based on sequence and structure. This analysis provides an important contribution to the field of bacteriophage genomics by serving as a foundation on which to build an understanding of the natural predators of P. larvae.This paper represents the first comparison of phage genomes in the The online version of this article (doi:10.1186/1471-2164-15-745) contains supplementary material, which is available to authorized users. Paenibacillus larvae (P. larvae) is a sporulating Firmicute. It is the causative agent of American Foulbrood (AFB), a disease that infects and destroys the larvae of honeybees (Apis mellifera). The first eight P. larvae phages were reported between 1955 and 1999 and included BLAPaenibaciuded BLA, PBL0.5uded BLA, and PPLuded BLA. These p. larvae\u201310. Phagbacteria, 12.Recent advances in DNA sequencing technology have made it possible to sequence many bacteriophage genomes. When these sequences are analyzed, putative protein functions can be determined. Other studies have used comparative genomics to organize phages into related clusters, correlaComparative genomics can be accomplished using software specialized for phage genomes such as the computer program, Phamerator. PhameraP. larvae phages were isolated. These phages were fully sequenced and their genomes published, 0305phi8-36 (B. thuringiensis) [NC_009760], 250 (B. cereus) [GU229986], Andromeda (B. pumilus) [KC330684], AP50 (B. anthracis) [NC_011523], B103 (B. subtilis) [NC_004165], B4 (B. cereus) [JN790865], B5S (B. cereus) [JN797796], Bam35c (B. thuringiensis) [NC_005258], Basilisk (B. cereus) [KC595511], Bastille (B. cereus) [NC_018856], BCD7 (B. cereus) [NC_019515], BceA1 (B. cereus) [HE614282], BCJA1c (B. clarkii) [NC_006557], BCP78 (B. cereus) [NC_018860], BCU4 (B. cereus) [JN797798], BMBtp2 (B. thuringiensis) [JX887877], BPS13 (B. cereus) [NC_018857], BtCS33 (B. thuringiensis) [NC_018085], CAM003 (B. thuringiensis) [NC_024216.1], Cherry (B. anthracis) [NC_007457], Curly (B. pumilus) [KC330679], Eoghan (B. pumilus) [KC330680], Evoli, (B. thuringiensis) [NC_024207.1], Fah (B. anthracis) [NC_007814], Finn (B. pumilus) [KC330683], G (B. megaterium) [JN638751], GA-1 (Bacillus sp.) [NC_002649], Gir1 (Bacillus sp.) [Bacillus_Draft], Gamma 51 (B. cereus) [DQ222853], Gamma 53 (B. anthracis) [DQ222855], Gamma isolate d\u2019Herelle (B. cereus) [DQ289556], Gemini (B. pumilus) [KC330681], GIL16c (B. thuringiensis) [NC_006945], Hakuna (B. thuringiensis) [NC_024213.1], Hoody T (B. thuringiensis) [NC_024205], IEBH (B. thuringiensis) [NC_011167], JL (B. cereus) [KC595512], JPB9 (B. thuringiensis) [Bacillus_Draft], Megatron (B thuringiensis) [NC_024211.1], MG-B1 (B. weihenstephanensis) [NC_021336], Nf (B. subtilis) [EU622808], Pappano (B. pumilus) [Bacillus_Draft], PBC1 (B. cereus) [NC_017976], Pegasus (Bacillus sp.) [bacillus.phagesdb.org], pGIL01 (B. thuringiensis) [AJ536073], phi105 (B. subtilis) [NC_004167], phi29 (B. Subtilis) [NC_011048], phiAGATE (B. pumilus) [JX238501], phiNIT1 (B. subtilis) [NC_021856], phIS3501 (B. thuringiensis) [NC_019502], Pleiades (B. pumilus) [Bacillus_Draft], PM1 (B. subtilis) [NC_020883], Polaris (B. pumilus) [Bacillus_Draft], PZA (B. subtilis) [M11813], Riley (B. thuringiensis) [KJ489402], Shanette (B. cereus) [KC595513], SP10 (B. subtilis) [NC_019487], SPbeta (SPBc2) (B. subtilis) [NC_001884], SPO1 (B. subtilis) [NC_011421], SPP1 (B. Subtilis) [NC_004166], Stitch (Bacillus sp.) [Bacillus_Draft], Taylor (B. pumilus) [KC330682], TP21-L (B. cereus) [NC_011645], Troll (B. thuringiensis) [KF208639], W.Ph. (B. cereus) [NC_016563], WBeta (B. cereus) [NC_007734], Wip1 (B. anthracis) [KF188458], phBC6A51 (B. cereus) [NC_004820], phBC6A52 (B. cereus) [NC_004821], Bacillus virus 1 (Bacillus. sp. 6\u00a0k512) [NC_009737]; Clostridium phage phiC2 (C. difficile) [NC_009231]; Enterococcus phages phiEf11 [NC_013696], phiEF24C [NC_009904], phiFL3A [NC_013648]; Geobacillus phages GBSV1 (Geobacillus sp. 6\u00a0k51) [NC_008376], E2 (Geobacillus) [NC_009552]; Lactobacillus phages A2 (L. casei) [NC_004112], KC5a (L. gasseri) [NC_007924], Lb338-1 (L. paracasei) [NC_012530], Lc-Nu (L. rhamnosus) [NC_007501], LP65 (L. plantarum) [NC_006565], phiAT3 (L. casei) [NC_005893], phig1e (Lactobacillus) [NC_004305]; Listeria phages P100 (L. monocytogenes) [DQ004855], A118 (L. monocytogenes) [NC_003216], A500 (L. monocytogenes) [NC_009810], A511 (L. monocytogenes) [NC_009811], B054 (L. monocytogenes) [NC_009813], P40 (L. monocytogenes) [NC_011308]; Paenibacillus phages Abouo (P. larvae) [KC595517], Davies (P. larvae) [KC595518], Emery (P. larvae) [KC595516], Jimmer1 (P. larvae) [KC595515], Jimmer2 (P. larvae) [KC595514], PG1(P. glucanolyticus) [HQ332138], phiIBB_Pl23 (P. larvae) [KF010834]; Staphylococcus phages phi 12 (S. aureus) [AF424782], 37 (S. aureus) [NC_007055], 3A (S. aureus) [NC_007053], 47 (S. aureus) [NC_007054], 55 (S. aureus) [NC_007060], 88 (S. aureus) [NC_007063], G1 (S. aureus) [NC_007066], K (S. aureus) [NC_005880], PH15 (S. epidermidis) [NC_008723], phiSLT (S. aureus) [NC_002661], SA11-v (S. aureus) [NC_019511], SpaA1 (S. pasteuri) [NC_018277], Twort (S. aureus) [NC_007021], X2 (S. aureus) [NC_007065], tp310-2 (S. aureus) [NC_009762]; Streptococcus prophage EJ-1 (S. pneumoniae) [NC_005294].The neighbor-joining phylogenetic tree . The same files are also available atPhamerator database containing the 113 phage genomes.(ZIP 7 MB)Additional file 1:Spreadsheet exported from the Phamerator database to report all phage gene products in the database, the phams to which the gene products are assigned, and the conserved domains found in gene products in those phams.(XLSX 1 MB)Additional file 2:"} +{"text": "Scientific Reports5: Article number: 13827; 10.1038/srep13827 published online: 09082015; updated: 10162015.In this Article, Figure 4 is incorrect. The correct Figure 4 appears below as"} +{"text": "Nature Communications7 Article number:1110310.1038/ncomms11103 (2016); Published 03222016; Updated 06082016In"} +{"text": "In comparison with the previous report . The HgS4 polyhedra share a common S atom, building up chains extending parallel to [010]. All S atoms of the resulting 1\u221e[HgS2/1S2/2] chains are also part of SCN\u2212 anions that link these chains with the K+ cations into a three-dimensional network. The K\u2014N bond lengths of the distorted KN7 polyhedra lie between 2.926\u2005(2) and 3.051\u2005(3)\u2005\u00c5.The crystal structure of the room-temperature modification of K[Hg(SCN)adze 1952. Zh. Fiz DOI: 10.1107/S1600536814013403/hb0013Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814013403/hb0013fig1.tif3 4 . DOI: 3] in a projection along [010]. Displacement ellipsoids are drawn at the 90% probability level. Colour code: Hg green, S yellow, C blue, N magenta, K grey. The HgS4 polyhedron is shown in red.The crystal structure of K[Hg(SCN)1006909CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "In the crystal, pairs of O\u2014H\u22efO hydrogen bonds between carb\u00adoxy\u00adlic groups link mol\u00adecules, related by a twofold rotation axis, into supra\u00admolecular dimers.In the title compound, C DOI: 10.1107/S2056989014028254/xu5833Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989014028254/xu5833Isup3.cmlSupporting information file. DOI: Click here for additional data file.10.1107/S2056989014028254/xu5833fig1.tif. DOI: A mol\u00adecule showing atom labels and 50% probability displacement ellipsoids for non-H atoms.Click here for additional data file.10.1107/S2056989014028254/xu5833fig2.tif. DOI: Crystal packing in the structure with H atoms omitted and hydrogen bonds shown as dotted lines.1041493CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Scientific Reports5: Article number: 10378; 10.1038/srep10378 published online: 05212015; updated: 01202016.The Acknowledgements section is incomplete.\u201cThis work was supported by SUTD-MIT international design center (IDC) grant.\u201dshould read:\u201cThis work was supported by SUTD-MIT international design center (IDC) grant and SUTD Temasek Seed funding (IGDSS1402031).\u201d"} +{"text": "The dioxane ring is in a half-chair conformation. An intra\u00admolecular C\u2014H\u22efO hydrogen forms an S(6) ring. The amine N atom is sp2-hybridized.In the title mol\u00adecule, C DOI: 10.1107/S1600536814013191/lh5709Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S1600536814013191/lh5709Isup3.cmlSupporting information file. DOI: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "In the crystal, the complex mol\u00adecules stack at a distance of 4.6738\u2005(3)\u2005\u00c5 along the a axis, which exclude any significant inter\u00adactions between the aromatic rings.In the title complex, [Ni(C DOI: 10.1107/S2056989015000328/ds2244Isup2.hklStructure factors: contains datablock(s) I. DOI: Click here for additional data file.10.1107/S2056989015000328/ds2244fig1.tifORTEP L 2 . DOI: ORTEP drawing (ellipsoid probability at 50%) of the centrosymmetric NiL2 complex.Click here for additional data file.10.1107/S2056989015000328/ds2244fig2.tif. DOI: Crystal packing of the complex.1035820CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Correction: BMC Plant Biol 22, 269 (2022)\u00a0 \u00a0https:// doi. org/ 10. 1186/ s13063-\u200b021-\u200b05592-zFollowing the publication of the original article , we wereIncorrect tagging:GivenName: Lorena Fern\u00e1ndez.FamilyName: de la Cruz.Correct tagging:GivenName: Lorena.FamilyName: Fern\u00e1ndez de la Cruz.The original article has been corrected."} +{"text": "Erratum zu:Herzschr Elektrophys 202210.1007/s00399-022-00855-xIn der Originalversion des Beitrags stand der Hinweis zu Teil\u00a02 im Untertitel. Dieser Hinweis wurde nun in den Haupttitel eingef\u00fcgt.Der Originalbeitrag wurde korrigiert."} +{"text": "Erratum zu:Herzschr Elektrophys 202210.1007/s00399-022-00917-0In diesem Artikel wurde Abb.\u00a0Der Originalbeitrag wurde korrigiert."} +{"text": "Erratum zu:HNO 202110.1007/s00106-021-01143-9Dinh Nam Pham f\u00e4lschlicherweise als Nam Dinh Pham wiedergegeben.In diesem. Beitrag wurde versehentlich der Name des Autors Die Tab.\u00a0The original article has been corrected."} +{"text": "Correction: SN Bus Econ (2022) 2:166 10.1007/s43546-022-00347-7In this article the author family and given names have been interchanged:Tjulin \u00c5saVinberg StigLandstad Bodil JHedlund MarianneNordenmark MikaelThey should be read:\u00c5sa TjulinStig VinbergBodil J. LandstadMarianne HedlundMikael NordenmarkThe original article has been corrected."} +{"text": "This article was published with incorrect corresponding author details.sunshine1d1@126.comCurrently reads: * Corresponding author: Xian Sun, email sunshine1d1@126.com and Wei-Jan Wang, email: cvcsky@gmail.comThis should read: * Corresponding authors: Xian Sun, email"} +{"text": "Erratum zu:Herzschr Elektrophys 202210.1007/s00399-022-00854-yIn der Originalversion des Beitrags stand der Hinweis zu Teil\u00a01 im Untertitel. Dieser Hinweis wurde nun in den Haupttitel eingef\u00fcgt.Der Originalbeitrag wurde korrigiert."} +{"text": "Erratum zu:Der Nervenarzt 202110.1007/s00115-021-01108-xDer Beitrag enth\u00e4lt eine fehlerhafte Information. Bitte beachten Sie: Sigmund Freud (1856\u20131939) hat auch den Nobelpreis f\u00fcr Literatur nicht erhalten.Please note: Sigmund Freud (1856\u20131939) did not even receive the Nobel Prize for Literature."} +{"text": "Augochloropsis and other shiny green Halictinae have had various taxonomic issues and are often misidentified. One prevailing taxonomic issue is that Augochloropsismetallica (Fabricius) has two subspecies, that have long been recognized as morphologically distinct , but the subspecies are inconsistently applied in the literature. Here, we review the Augochloropsis of the Midwest and further address the Augochloropsis species in the broader United States to resolve the outstanding taxonomic issues with the midwestern species. We provide identification keys and diagnoses for the genera and species of the shiny green Halictinae of the midwestern United States, which includes the genera Agapostemon, Augochlora, Augochlorella, and Augochloropsis. This work results in taxonomic changes to Augochloropsis. Augochloropsissumptuosa (Smith) is split into two species, with the name Augochloropsissumptuosa retained for the eastern form, and Augochloropsishumeralis (Patton), stat. nov., reinstated for the western form. Augochloropsismetallica is split into five species, with two of those species occurring in the midwestern United States: Augochloropsismetallica and Augochloropsisviridula (Smith), stat. nov. Examination of the holotype of Augochloropsisfulgida (Smith) revealed that it does not agree with the prevailing concept of Augochloropsismetallicafulgida; it is reinstated as Augochloropsisfulgida, stat. nov., but is currently known only from the holotype female from Florida. Augochloropsiscuprea (Smith), long considered to be a synonym of Augochloropsismetallica, is also distinct, and we are reinstating Augochloropsiscuprea, stat. nov., though the range of this species is unclear. We further recognize Augochloropsisfulvofimbriata (Friese), stat. nov., from South and Central America, as distinct. These changes result in a total of three Augochloropsis species in the Midwest and seven named species in the United States. We are aware of additional species from the southern and southwestern United States that are undescribed, and we highlight additional taxonomic work that remains to be done. Augochloropsis Cockerell contains approximately 140 species, recognizable by their metallic coloration and distinctly-shaped tegula and Augochloropsiscuprea (Smith). Augochloropsiscuprea was in fact two species in his region and split it into Augochloropsiscuprea and Augochloropsisviridula (Smith). Augochloropsiscaerulea with the earlier name of Augochloropsishumeralis (Patton). After examination of the Fabricius types, and apparently unaware of the work by Dreisbach, Augochloropsiscuprea with the older name Augochloropsismetallica (Fabricius). Augochloropsismetallica into subspecies, suggesting Augochloropsismetallicafulgida (Smith) for the \u201csouthern variety.\u201d Moure\u2019s classification was followed by the most recent treatment performed by Augochloropsismetallica, replaced the name Augochloropsishumeralis with Augochloropsissumptuosa (Smith) based on correspondence with Moure, and recognized a third species, Augochloropsisanonyma Cockerell.The species of Augochloropsis in the United States in recent bee diversity studies, primarily with the usage of the subspecies of Augochloropsismetallica, with some researchers recognizing them and others not. As a result, when papers refer to \u201cAugochloropsismetallica\u201d it is often impossible to know whether they were referring to \u201cAugochloropsismetallicametallica\u201d or \u201cAugochloropsismetallicafulgida,\u201d especially given that many publications fail to cite the identification resources or taxon concepts they used to full species .NHMUKThe Natural History Museum, London, United Kingdom (J. Monks).CNBL The collection of the Cariveau Native Bee Lab, St. Paul Minnesota, USA (Z. Portman).CRC Catherine Reed Collection. Currently resides in the Cariveau Native Bee Lab and will be accessioned into the UMSP.EERC Elaine Evans Research Collection (E. Evans). Housed at the Cariveau Native Bee Lab (CNBL) and will be accessioned into the UMSP.IDNP Indiana Dunes National Park. Examined specimens deposited at the UMSP.iNat Selected high-quality records from the community science portal iNaturalist.com were examined for Augochloropsishumeralis. All record information is included in the material examined section.MASR Mike Arduser specimen record. Includes a combination of specimens in Mike Arduser\u2019s personal collection, as well as specimens Mike Arduser has personally identified but no longer has in hand.MNDNR The Minnesota Department of Natural Resources, St. Paul, MN, USA (J. Petersen and N. Gerjets). These are primarily deposited in the UMSP except for a small synoptic collection.NHMD Natural History Museum of Denmark, Copenhagen, Denmark (L. Vilhelmsen).USNMSmithsonian National Museum of Natural History, Washington D.C., USA.OSUC C.A. Triplehorn Insect Collection, Ohio State University Columbus, Ohio, USA (L. Musetti).OUMNH University Museum of Natural History, Oxford, United Kingdom (J. Hogan).UMSPUniversity of Minnesota Insect Collection, St. Paul, Minnesota, USA (R. Thomson).ggplot2\u2019 package . For county level records, points were mapped to the county centroids. Specimen images were taken using an Olympus DP27 camera mounted on an Olympus SZX16 stereo microscope, with the images stacked using CombineZP software . Images package and the package . State a package .Halictinae of the midwestern United States.Identification of the shiny green Taxon classificationAnimaliaHymenopteraHalictidae\ufeffGenusGu\u00e9rin-M\u00e9neville8D7C203F-8557-5AD3-B9B4-F4D1076EF99DAgapostemon are diagnosed by the complete carina on the rear face of the propodeum east of the central part of the state, with the easternmost records from Ellsworth and Rice counties. Recent survey efforts in eastern Nebraska have not found any Agapostemonangelicus east of the Grand Island area . No confirmed recent records are known from Minnesota, Missouri, or Iowa, despite extensive collection efforts in those states. However, care should be taken to look for it and more work needs to be done to confirm the eastern extent of the range of Agapostemonangelicus. In areas where the two species may overlap, it is recommended that females identified morphologically as Agapostemonangelicus or Agapostemontexanus be treated as a single morphospecies. The two species can also be separated by DNA barcodes.1Taxon classificationAnimaliaHymenopteraHalictidae\ufeffCresson2BE9D4EE-91AC-5E04-8770-7C82FF03F895Agapostemonmelliventris can be recognized by having the apex of the clypeus yellow as well as their non-metallic, light-colored metasoma. The terga are generally amber-colored but can be dark enough F638DA21-69D3-5C5F-B8A3-860D7F7E3F27Agapostemonsericeus can be recognized by the combination of the metallic green metasoma e.g., but was Agapostemonfemoratus Crawford, primarily a western species not recorded east of New Mexico, Colorado and Wyoming by Agapostemonsericeus, though the males are quite distinct, possessing a grossly enlarged hind femur, its width and length equal or nearly so. The key in Agapostemonsericeus is more distinctly punctate than Agapostemonfemoratus, but we do not consider this a reliable separating character. Curiously, there are several Missouri records of Agapostemonfemoratus from the 1960s identified by Roberts in separate online databases, 93483CC2-EAA6-59D6-BDCF-9FE3D3F52DF9Agapostemonsplendens can be recognized by the combination of the metallic green metasoma .The female of ate Figs , 6A. Agadge Fig. , the uprdge Fig. , and it Agapostemonsplendens can be recognized from all other midwestern Agapostemon by their very enlarged hind femur, with the length twice the width have used the shape of the ridges of the propodeal triangle to separate female Agapostemonsplendens from Agapostemonsericeus , but we have found the character variable and it can be quite subtle, particularly in smaller Agapostemonsplendens. Agapostemonsplendens is largely restricted to areas of deep sands. We have examined material from throughout the range of Agapostemonsplendens, and there are many individuals, especially in the southern US, that have the scutal sculpturing more reticulate, similar to Agapostemonsericeus. More work is needed to determine whether this represents normal variation or is potentially due to a cryptic species complex.Some previous works .The females of een Fig. and can een Fig. . FemalesAgapostemontexanus have S3 and S4 with a low transverse swelling and generally have distinct yellow marks on the apical sterna Agapostemonsericeus but can be distinguished based on the relative lengths of F1 and F2: Agapostemontexanus has F1 about three-fourths the length of F2 .Taxon classificationAnimaliaHymenopteraHalictidae\ufeff(Fabricius)13AFF97E-73A0-502B-A92D-F6E0847010F0Agapostemonvirescens are the only midwestern species that has the metasoma dark .Females of ark Fig. , rather Agapostemonvirescens can be recognized by the lack of a transverse swelling on S4 is a Great Plains species which occurs as far east as eastern Kansas, though Agapostemoncoloradinus is usually noticeably larger than Agapostemonvirescens with finer, closer striations on the hypostomal area on the underside of the head 70239F90-EDEB-5503-B9E2-E93B9396FAD0Augochlorellaaurata is very similar to Augochlorellapersimilis. Female Augochlorellaaurata can be recognized by having the striations of the propodeum continuing to the posterior margin A9FE1A28-2F27-53EF-BB6F-B41BD5CF0890Augochlorellapersimilis is very similar to Augochlorellaaurata. Females can be distinguished by the lack of rugae at the rear of the propodeal triangle, though this character can often be subtle 08C86848-7F67-5DD9-9487-910CFC28984DAugochlorapura is most similar to Augochlorellaaurata and Augochlorellapersimilis. Both sexes of Augochlorapura can be recognized by the distinct and prominent facial lobes and they have distinct punctures on the rear of the propodeum stat. nov.325809A4-9F43-55EC-9FC5-06CFB5C1657FAugochlorahumeralisLectotype: \u2640 USA, North-western Kansas, 8 Sep 1877 leg. S.W. Williston, on goldenrod [ANSP]. Images examined by ZP and MA. New lectotype designation. . Patton, 1879: 365 \u2640\u2642. AgapostemoncaeruleusHolotype: \u2642 USA, Colorado, Denver [USNM ENT 00536769]. Images examined by ZP and MA. Online record: http://n2t.net/ark:/65665/320b8ee01-69e8-40bd-ab90-fcb717151953. (Labels read: \u201cCol. // [illegible symbol] Type / No 5516 / U.S.N.M. [red label] // Ashmead / Collection // Collection / Ashmead // Augochlora (Agapostemon) / \u2640 coerulea Ash // USNM ENT / 00536769 [yellow label with barcode]\u201d). Ashmead, 1890: 7 \u2642 (not \u2640) syn. . HolotypAugochlorasumptuosabollianaAugochloropsiscaerulea by New synonym. Syntype(s?): USA, Texas, Lee Co. [USNM Type No. 23306 barcode #: 00536763]. Online record: http://n2t.net/ark:/65665/32fdc8c3b-b5b4-4cec-968e-4040825fa92d (Labels read: \u201cLee Co. / TX. 06 / VI. 0 [illegible symbol] // [red label] Type No. / 23306 / U.S.N.M. // A. sumptuosa / bolliana Ckll / TYPE // USNM ENT / 00536763 [yellow label with barcode]\u201d). Cockerell, 1909: 31 \u2640 pattonihumeralis Patton; syn. by Vachal, 1903: 132 (proposed replacement name for Augochlora (Augochloropsis) humeralis sumptuosa , whereas Augochloropsissumptuosa has the punctures always well-separated (about 3\u20135 puncture widths apart). In addition, females of Augochloropsissumptuosa have a weak but distinct semicircular carina around the propodeal triangle were located in the ANSP collection, where Augochlorahumeralis n.s.\u201d and \u201cAugochlorahumeralis n.sp.\u201d. The combination of the little-used name, the \u201cn. sp.\u201d, the type locality, and the fact that A.humeralis Patt., marked \u2018N. W. Kans., Williston\u2019\u201d. However, our inquiries to the Smithsonian have received no answer.Two syntypes of Augochloropsiscaerulea (Ashmead) to have priority because the name humeralis is a secondary homonym in the genus Halictus. However, humeralis is not a secondary homonym in the genus Augochloropsis and the substitute name is no longer in use, so following IZCN Article 59.3, the name humeralis is available and has priority.Augochlorasumptuosabolliana Cockerell is from Texas and was synonymized with Augochloropsissumptuosa by Augochloropsishumeralis, but a more critical evaluation of the specimen, with additional Texas material, should be performed.Augochloropsishumeralis occurs throughout the prairie region, ranging from North Dakota and Minnesota south to New Mexico and Texas, extending to Colorado in the west and Indiana in the east . The sociality and the specifics of the nesting biology are unknown.Colorado: Adams Co.: Denver : 1 \u2642 [iNat], 29 Aug 2019, @francesco167 leg.; Douglas Co.: : 1 \u2640 [iNat], Jul 2020, @calebcam leg.; Logan Co.: : 1 \u2642 [iNat], 22 Aug 2014, R. Webster leg. Illinois: Hancock Co.: Warsaw : 1 \u2642 [iNat], 14 Aug 2016, A. Moorehouse leg., Monardapunctata; Madison Co.: [MASR]; Mason Co.: : 1 \u2640 [iNat], 18 Jun 2019, A. Moorehouse leg., Asclepias sp. Indiana: Lake Co.: Indiana Dunes NP, Marquette Trail : 1 \u2640 [IDNP], 19 Jun 2019, McGill leg., blue pan; Indiana Dunes NP, Miller woods : 1 \u2642 [IDNP], 12 Sep 2018, McGill leg., white pan; 1 \u2640 [IDNP], 4 Jun 2019, McGill leg., yellow pan; 1 \u2640 [IDNP], 23 Jul 2019, McGill leg., yellow pan; Indiana Dunes NP, Miller woods : 1 \u2640 [IDNP], 23 Jul 2019, McGill leg., yellow pan; Newton Co.: Kankakee Sands : 1 \u2640 [iNat], 24 May 2018, D. Lucas leg.; Porter Co.: Indiana Dunes National Lakeshore, Mnoke Prairie : 1 \u2640 [IDNP], 29 Jun 2017, J. Villalpando leg., bee bowl. Minnesota: Faribault Co.: : 1 \u2640 [UMSP], 18 Sep 1911; Fillmore Co.: Pin Oak SNA : 1 \u2640 [MNDNR], 24 Jul 2017, bowl; Hennepin Co.: : 1 \u2642 [UMSP], date unknown; Norman Co.: Agassiz Dunes SNA : 1 \u2642 [MNDNR], 24 Aug 2015, bowl; Sherburne Co.: Sherburne National Wildlife Refuge : 2 \u2640 [EERC], 15 Aug 2016, E. Evans leg., bowl; Wabasha Co.: Weaver Dunes : 1 \u2640 [UMSP], 28 May 2015, M.J. Hatfield leg., Ceanothusherbaceus; Weaver Dunes TNC/SNA : 21 \u2640 [MNDNR], 6 May 2017, bowl; 15 \u2640 [MNDNR], 26 Jun 2017, bowl; 8 \u2642 [MNDNR], 24 Jul 2017, bowl; 3 \u2642 [MNDNR], 19 Aug 2017, bowl; 1 \u2640 [MNDNR], 21 Sep 2017, bowl; Washington Co.: Belwin Conservancy : 1 \u2640 [EERC], 4 Sep 2015, J. Gardner leg., net, Solidagonemoralis; Belwin Conservancy : 1 \u2640 [CRC], 12 Jun 1995, C.C. Reed leg., net, Penstemongrandifloris; 1 \u2640 [UMSP], 12 Jun 1995, C.C. Reed leg., net, P.grandiflorus; 9 \u2640 [CRC], 15 Jun 1995, C.C. Reed leg., net, P.grandifloris; 6 \u2640 [CRC], 16 Jun 1995, C.C. Reed leg., net, P.grandifloris; 1 \u2640 3 \u2642 , 15 Aug 1995, C.C. Reed leg., net, Daleapurpurea; 3 \u2640 [CRC], 13 Jun 1997, C.C. Reed leg., net, P.grandifloris; Gray Cloud Dunes : 1 \u2640 4 \u2642 [UMSP], 9 Jul 1988; Grey Cloud Dunes : 1 \u2642 [CNBL], 23 Jul 2018, J. Petersen leg., net; Grey Cloud Dunes : 1 \u2642 [iNat], 14 Sep 2018, A. Birkey leg.; Grey Cloud Dunes SNA : 1 \u2642 [MNDNR], 9 Oct 2018, net, S.nemoralis; Grey Cloud Dunes SNA : 1 \u2642 [MNDNR], 31 Jul 2018, net, D.villosa; Winona Co.: Whitewater WMA : 1 \u2640 [MNDNR], 6 May 2017, bowl; 1 \u2640 [MNDNR], 26 Jun 2017, bowl. Missouri: Clark Co.: [MASR]; Scott Co.: [MASR]. Nebraska: Hooker Co.: [MASR]; Rock Co.: : 1 \u2642 [iNat], Sep 2018, @allysond leg.; Thomas Co.: Neb Ntl For, near Halsey, 1 \u2642 [WRME], 9 Aug 1991, Arduser leg.; Neb. Ntl For. Nr Whitetail campground: 1 \u2640 [WRME], 10 Aug 1991, Arduser leg., Helianthuspetiolarus. New Mexico: Chaves Co.: [MASR]. North Dakota: Ransom Co.: : 1 \u2642 [iNat], 9 Aug 2021, E. Wood leg.. Oklahoma: Ellis Co.: [MASR]. South Dakota: Clay Co.: Missouri National Recreation River : 1 \u2642 [iNat], 7 Jul 2021, @stenthesnake leg. Texas: Taylor Co.: : 1 \u2640 [OSUC], 18 Jun 1952, J.N. Knull, D.J. Knull leg.Taxon classificationAnimaliaHymenopteraHalictidae\ufeff(Fabricius)B0093FDA-70B2-5EFB-A0E8-DF014DEA3C33AndrenametallicaHolotype: \u2640 \u201cAmerica\u201d [NHMD 308680]. Images examined by ZP and MA . Fabricius, 1793: 309 \u2640. MA Fig. (Labels Augochlorafervidacuprea] by Holotype: \u2642 North America [NHMUK014024969] Images examined by ZP and MA. Online record: https://data.nhm.ac.uk/object/3429259d-5af9-4c5f-9062-96a4a2770077 (Labels read: \u201cType / H.T. [label is circular with red border] // B.M. TYPE / HYM / 14.a.1230 // B.M. TYPE / HYM. / augochlora / fervida / NHMUK 014024969 [label with QR code]\u201d). Smith, 1853: 81 \u2642 (syn. ; Faulkner Co.: [MASR]; Franklin Co.: [MASR]; Jackson Co.: [MASR]; Monroe Co.: [MASR]; White Co.: [MASR]; Woodruff Co.: [MASR]. Illinois: Calhoun Co.: [MASR]; Carroll Co.: [MASR]; Jasper Co.: [MASR]; Madison Co.: [MASR]; Marion Co.: [MASR]; Randolph Co.: [MASR]; Williamson Co.: [MASR]. Iowa: Jasper Co.: [MASR]. Kansas: Barton Co.: [MASR]; Bourbon Co.: [MASR]; Butler Co.: [MASR]; Chase Co.: [MASR]; Coffey Co.: [MASR]; Dickinson Co.: [MASR]; Douglas Co.: : 1 \u2640 [UMSP], 11 Jun 1919, W.F. Hoffman leg.; 1 \u2640 [UMSP], 2 Jul 1919, W.F. Hoffman leg.; Geary Co.: [MASR]; Gove Co.: [MASR]; Greenwood Co.: [MASR]; Hodgeman Co.: [MASR]; Lane Co.: [MASR]; Lyon Co.: [MASR]; Morris Co.: [MASR]; Osage Co.: [MASR]; Pawnee Co.: [MASR]; Pottawatomie Co.: [MASR]; Reno Co.: [MASR]; Rice Co.: [MASR]; Riley Co.: [MASR]; Sheridan Co.: [MASR]; Thomas Co.: [MASR]; Trego Co.: [MASR]. Minnesota: Anoka Co.: Bunker Hills Reg. Pk. : 1 \u2640 [EERC], 8 Jun 2015, J. Gardner leg., net, Tradescantiaoccidentalis; Bunker Hills Regional Park : 1 \u2640 [EERC], 13 Jul 2016, E. Evans leg., bowl; Bunker Pr. Dunes : 1 \u2640 [UMSP], 20 Jun 1947; Cedar Creek Ecosystem Science Reserve : 2 \u2640 [EERC], 22 May 2015, J. Gardner leg., bowl trap; Cedar Creek Nat. Hist. : 1 \u2642 [CRC], 1 Aug 1991, C.C. Reed leg., net, Daleapurpurea; 1 \u2642 [UMSP], 20 Aug 1991, C.C. Reed leg.; Cedar Creek Natural History Area : 1 \u2640 [UMSP], 23 Jul 1986; 1 \u2642 [UMSP], 30 Jul 1990; 1 \u2640 [UMSP], 21 Sep 1992; 1 \u2640 [UMSP], 15 Aug 1995; Cedar Creek Ecosystem Science Reserve : 1 \u2642 [EERC], 12 Aug 2015, J. Gardner leg., net, D.villosa; Helen Allison Savanna SNA : 1 \u2640 [MNDNR], 6 May 2017, bowl; Rum River Cent. Reg. Pk. : 1 \u2640 [EERC], 12 Jun 2015, E. Evans leg., net, Amorphafruticosa; Anoka/Isanti Co.: Cedar Creek Natural History Area : 1 \u2640 [UMSP], 15 Aug 2000; Hennepin Co.: Crow Hassan Park Reserve : 2 \u2640 [UMSP], 13 Jul 1995, C.C. Reed leg., net, Astersericeus; Isanti Co.: Cedar Creek Natural History Area : 1 \u2640 [UMSP], 29 Aug 1981; 1 \u2640 [UMSP], 13 Jul 1991; 1 \u2640 [UMSP], 14 Jul 1992; 1 \u2640 [UMSP], 30 Sep 1992; 1 \u2640 [UMSP], 11 Aug 1993; Irving & John Anderson County Park : 1 \u2642 [EERC], 20 Jul 2015, E. Evans leg., net, Asclepiastuberosa; Lincoln Co.: Hole in the Mountain : 1 \u2640 [UMSP], 15 Jun 2016, N. Pennarolla, J. Leone leg., bowl; 1 \u2640 [UMSP], 27 Jun 2017, N. Pennarolla, J. Leone leg., bowl; Hole-in-the-Mountain TNC : 2 \u2640 [MNDNR], 6 Jun 2016, bowl; 1 \u2640 [MNDNR], 27 Jun 2016, bowl; Murray Co.: : 1 \u2640 [CNBL], 29 Jun 2019, Bee Bowls; Pipestone Co.: Prairie Coteau SNA : 1 \u2640 [MNDNR], 6 Jun 2016, bowl; Stearns Co.: St. Cloud : 1 \u2640 [UMSP], 22 Jun 1967; Yellow Medicine Co.: Mound Spring Prairie SNA : 6 \u2640 [MNDNR], 6 Jun 2016, bowl. Missouri: Barry Co.: [MASR]; Barton Co.: [MASR]; Benton Co.: [MASR]; Boone Co.: Columbia : 1 \u2640 [OSUC], 19 Oct 1955, W.A. Dimmitt leg.; Camden Co.: [MASR]; Douglas Co.: [MASR]; Franklin Co.: [MASR]; Harrison Co.: [MASR]; Howard Co.: Fayette : 9 \u2642 [UMSP], 25 Sep 1966, D.B. Crockett leg.; Jackson Co.: [MASR]; Jasper Co.: [MASR]; Jefferson Co.: [MASR]; Laclede Co.: [MASR]; Lafayette Co.: [MASR]; Linn Co.: [MASR]; Macon Co.: [MASR]; Mercer Co.: [MASR]; Miller Co.: [MASR]; Monroe Co.: [MASR]; Newton Co.: [MASR]; Pettis Co.: [MASR]; Ray Co.: [MASR]; Reynolds Co.: [MASR]; Saline Co.: [MASR]; Scott Co.: [MASR]; St. Clair Co.: [MASR]; St. Louis Co.: [MASR]; Ste. Genevieve Co.: [MASR]; Stoddard Co.: [MASR]; Sullivan Co.: [MASR]; Taney Co.: [MASR]. Nebraska: Co.: Halsey : 1 \u2640 [UMSP], 3 Sep 1924, R.W. Dawson leg.; Lancaster Co.: [MASR]; Richardson Co.: [MASR]. North Carolina: Wake Co.: Raleigh : 1 \u2640 [UMSP], 26 May 1940; 1 \u2642 [UMSP], 17 Nov 1940. Ohio: Gallia Co.: : 1 \u2640 [OSUC], 23 Aug 1942, C.H. Kennedy leg.; Jackson Co.: : 1 \u2642 [OSUC], 9 Aug 1942, J.E. Gillaspy leg.; 1 \u2640 [OSUC], 9 Aug 1942, R.W. Strandtmann leg.; Lawrence Co.: : 1 \u2642 [OSUC], 8 Aug 1942, R.W. Strandtmann leg.; 4 \u2640 1 \u2642 [OSUC], 9 Aug 1942, R.W. Strandtmann leg.; 6 \u2640 1 \u2642 [OSUC], 23 Aug 1942, C.H. Kennedy leg.; Muskingum Co.: New Concord : 1 \u2640 [OSUC], 22 May 1975, C. Dasch leg. Oklahoma: Ellis Co.: [MASR]. South Dakota: Co.: Black Hills : 1 \u2640 [UMSP], 15\u201330 Jun 1931, F. Miller leg. Texas: Dallas Co.: : 1 \u2640 [UMSP], 14 May 1937, H.C. Knutson leg., Marshalliacaespitosa; Smith Co.: : 1 \u2640 [UMSP], May 1947, Barr leg. Virginia: Arlington Co.: : 2 \u2642 [UMSP], 20 Jul 1929, C.E. Michel leg.; Fauquier Co.: Warrentown : 1 \u2642 [UMSP], 28 Jul 1929, C.E. Michel leg.Taxon classificationAnimaliaHymenopteraHalictidae\ufeff(Smith)stat. nov.79050CF9-D859-50A6-963B-8F9B9609075BAugochloraviridulaHolotype: \u2642 USA, New York, Trenton Falls [NHMUK 014024971]. Images examined by ZP and MA. Online record: https://data.nhm.ac.uk/object/10fb10b0-58d6-448c-b1b8-d3807ca35e0e (Labels read \u201cType / H.T. [label is circular with red border] // B.M. TYPE / HYM / 14.a.1232 // B.M. TYPE / HYM. / augochlora / viridula / NHMUK 014024971 [label with QR code]\u201d). Smith, 1853: 81 \u2642. AugochloralucidulaHolotype: \u2640 North America. Images examined by ZP and MA. Online record: https://data.nhm.ac.uk/object/9195d66b-dde0-4554-a11e-8352601fa232 (Labels read \u201cType / H.T. [label is circular with red border] // B.M. TYPE / HYM / 14.a.1233 // B.M. TYPE / HYM / augochlora / lucidula / NHMUK 014024972 [label with QR code]\u201d). Smith, 1853: 81 \u2640 syn. . HolotypHalictus (Augochlora) viridissimusviridula Smith, preoccupied in Halictus). Viereck, 1910: 688 (in Augochloropsis (Paraugochloropsis) metallicafulgida in : biologyAugochloropsis (Paraugochloropsis) fulgida and the interspaces between the punctures have slight tessellation, though they are still somewhat shining , which was previously used by Augochloropsisfulgida is reinstated as a separate species (see remarks for that species).This species has historically been referred to as ida Fig. , we founAugochloropsismetallica and Augochloropsisviridula recognition of ded Fig. , the gonded Fig. , the latded Fig. , and theded Fig. , in compwer Fig. , the gonwer Fig. , the latwer Fig. , and thewer Fig. . The shawer Fig. appears Augochloropsisviridula (Smith) and Augochloropsislucidula (Smith) were different sexes of the same species was recognized by Augochloropsiscuprea by Augochloropsisviridula was then correctly applied by viridula and lucidula conspecific as he considered Augochloropsisviridula a junior synonym of Augochloropsismetallicametallica and Augochloropsislucidula a junior synonym of Augochloropsismetallicafulgida. viridula and lucidula junior synonyms of Augochloropsismetallica. Here, after examination of the primary types, we agree with the interpretation of Augochloropsisviridula and Augochloropsislucidula as both conspecific and a true species.That Augochloropsismetallica were not recognized. However, the illustrations of the genitalia and other characters are clearly of Augochloropsisviridula based on the apically diverging lateral margins of the gonostyli.In the generic revision of augochlorine bees by USA: Alabama: Hale Co.: [MASR]. Arkansas: Lawrence Co.: [MASR]; Monroe Co.: [MASR]; White Co.: [MASR]; Woodruff Co.: [MASR]. Georgia: Catoosa Co.: [MASR]. Illinois: Carroll Co.: [MASR]; Jasper Co.: [MASR]; Madison Co.: [MASR]; Marion Co.: [MASR]; Ogle Co.: : 1 \u2640 [NACH], 1 Jul 2017, B. Bruninga-Socolar leg., net, Partheniumintegrifolium; : 1 \u2640 [NACH], 13 Jun 2017, B. Bruninga-Socolar leg., net, Trifoliumpratense; Randolph Co.: [MASR]; Williamson Co.: [MASR]. Indiana: Lake Co.: Indiana Dunes NP, Miller woods : 1 \u2640 [IDNP], 23 Aug 2019, McGill leg., blue pan. Iowa: Clayton Co.: [MASR]; Jasper Co.: [MASR]; Pottawattamie Co.: [MASR]; Story Co.: Ames : 2 \u2640 [UMSP], 16 Jun 1930, B.A. Haws leg., Swept from sweet clover. Kansas: Johnson Co.: [MASR]; Linn Co.: [MASR]. Maine: Knox Co.: : 1 \u2640 [OSUC], 15 Jul 1956, D.J. Borror leg. Michigan: Cheboygan Co.: : 1 \u2640 [OSUC], date unknown, C.H. Kennedy leg.; Gladwin Co.: [MASR]. Minnesota: Anoka Co.: Bunker Hills Regional Park : 1 \u2640 [EERC], 24 Jun 2016, J. Gardner leg., net, Crepistectorum; Cedar Creek Nat. Hist. : 1 \u2642 [UMSP], 1 Aug 1991, C.C. Reed leg.; Cedar Creek Natural History Area : 1 \u2640 [UMSP], 10 May 1993; Rum River Cent. Reg. Pk. : 1 \u2640 [EERC], 12 Jun 2015, E. Evans leg., net, Rosaarkansana; Rum River Cent. Reg. Pk. : 2 \u2640 [EERC], 12 Jun 2015, E. Evans leg., net, Ziziaaurea; Rum River Cent. Reg. Pk. : 7 \u2640 [EERC], 12 Jun 2015, E. Evans leg., net, Amorphafruticosa; Anoka/Isanti Co.: Cedar Creek Natural History Area : 1 \u2640 [UMSP], 17 Sep 2004; Blue Earth Co.: Gilfillan Lake WMA : 1 \u2640 [MNDNR], 3 Oct 2016, net, Symphyotrichumlanceolatum; Maple River WMA : 1 \u2642 [MNDNR], 14 Aug 2015, net, Solidagoaltissima; Carver Co.: Schneewind WMA : 1 \u2640 [MNDNR], 8 Aug 2018, net, Melilotusalba; Schneewind WMA : 1 \u2640 [MNDNR], 16 Jul 2018, bowl; Chisago Co.: Wild River SP : 1 \u2640 [MNDNR], 22 Jun 2020, N. Gerjets leg., pantrap; Douglas Co.: StaffansonTNC : 1 \u2640 [CNBL], 5 Jun 2018, G. Pardee leg., net, Z.aptera; 1 \u2640 [CNBL], 5 Jun 2018, I. Lane leg., net, Z.aptera; Fillmore Co.: : 1 \u2640 [UMSP], 24 May 1937, G. Kohls leg.; Goodhue Co.: Frontenac : 1 \u2640 [UMSP], 29 May 1930, C.E. Michel leg.; Spring Creek Prairie SNA : 1 \u2642 [MNDNR], 11 Aug 2017, net, Asclepiasverticillata; Goodhue/Wabasha Co.: E Frontenac, Lake Pepin : 1 \u2640 [UMSP], 29 May 1941, M.W. Wing leg.; Frontenac, Lake Pepin : 1 \u2640 [UMSP], 29 May 1941, M.W. Wing leg., net; Hennepin Co.: : 1 \u2640 [UMSP], 27 May 1922, A.A. Nichol leg.; Crow-Hassan Park Reserve : 1 \u2640 [MNDNR], 25 Aug 2015, bowl; Minnesota Valley National Wildlife Refuge : 1 \u2640 [MNDNR], 17 Jul 2017, net, Solanumdulcamara; St Bonifacius: 6 Mile Marsh : 1 \u2640 [CNBL], 28 Jul 2018, Z. Portman leg., net, M.alba; St Bonifacius: 6 Mile Marsh : 1 \u2640 [CNBL], 5 Jun 2020, Z. Portman leg., net, Z.aurea; Houston Co.: : 3 \u2640 [UMSP], 21 May 1938, H.E. Milliron leg.; : 2 \u2640 [UMSP], 23 May 1936, C.E. Michel leg.; 4 \u2640 [UMSP], 23 May 1936, D. Murray leg.; 1 \u2640 [UMSP], 23 May 1936, O. Elster leg.; 3 \u2640 [UMSP], 23 May 1936, R. Cottrell leg.; 1 \u2640 [UMSP], 22 May 1937, H.S. Telford leg.; 2 \u2640 [UMSP], 24 May 1937, C.E. Michel leg.; 1 \u2640 [UMSP], 20 May 1938, P. Nicholson leg.; 3 \u2640 [UMSP], 21 May 1938, C.E. Michel leg.; 2 \u2640 [UMSP], 21 May 1938, H.E. Milliron leg.; 1 \u2640 [UMSP], 21 May 1938, R. Anderson leg.; 1 \u2640 [UMSP], 22 May 1938, R. Anderson leg.; 1 \u2640 [UMSP], 21 Jun 1938, C.E. Michel leg.; 1 \u2640 [UMSP], 26 May 1940, I. Tarshie leg.; Beaver Crk. Valley St. Park : 2 \u2640 [UMSP], 4 Jul 1973, Malaise trap; Eitzen : 1 \u2640 [UMSP], 23 May 1936; Mississippi Bluff, 1\u20132 m N State Line : 1 \u2640 [UMSP], 30 May 1941, J.H. Hughes leg.; 1 \u2640 [UMSP], 27 May 1950; 1 \u2640 [UMSP], May 1957; Mississippi Bluffs 1 mi N. New Albin, Ia. : 1 \u2640 [UMSP], 29 May 1960; Mound Prairie SNA : 1 \u2640 [MNDNR], 26 Jun 2017, bowl; S.E. tip of county : 1 \u2640 [UMSP], 24 May 1935, H. Dodge leg.; Winnebago Cr. Vy., 2\u20134 m NE Eitzen : 1 \u2640 [UMSP], 27 Jun 1956; Isanti Co.: Cedar Creek Natural History Area : 1 \u2640 [UMSP], 1 Aug 1985; 2 \u2640 [UMSP], 21 May 1987, Rubus sp; 1 \u2642 [UMSP], 30 Sep 1992; 1 \u2640 [UMSP], 1 Sep 1993; 2 \u2640 [UMSP], 27 Jul 1994; 1 \u2642 [UMSP], 17 Sep 1994; 1 \u2640 [UMSP], 19 Aug 2000; 1 \u2640 [UMSP], 19 Aug 2001; Jackson Co.: Des Moines River SNA : 6 \u2640 [MNDNR], 6 Jun 2016, bowl; Kanabec Co.: Rice Creek WMA : 1 \u2640 [MNDNR], 30 Jun 2020, D. Drons leg., net, Rhusglabra; Kandiyohi Co.: Brenner : 1 \u2640 [CNBL], 7 Jun 2018, G. Pardee leg., net, Z.aptera; Brenner Lake WPA : 2 \u2640 [MNDNR], 6 Jul 2016, bowl; Nelson : 1 \u2640 [CNBL], 26 Jun 2017, R. Tucker leg., net, Cirsiumarvense; 1 \u2640 [CNBL], 4 Jun 2018, I. Lane leg., net, Z.aurea; 3 \u2640 [CNBL], 4 Jun 2018, S. Marconie leg., net, Z.aurea; 1 \u2640 [CNBL], 4 Jun 2018, T. Eicholz leg., net, Z.aurea; Rudningen : 1 \u2640 [CNBL], 26 Jun 2017, C. Herron-Sweet leg., net, Achilleamillefolium; Le Sueur Co.: Dove Lake WMA : 1 \u2640 [MNDNR], 1 Sep 2017, net, So. Sp; Kasota Prairie SNA : 1 \u2640 [MNDNR], 6 May 2017, bowl; Lyon Co.: Glynn Prairie SNA : 1 \u2640 [UMSP], 20 Jul 2017, N. Pennarolla, J. Leone leg., bowl; Mille Lacs Co.: Kunkel WMA : 1 \u2640 [MNDNR], 24 Jun 2020, D. Drons leg., pantrap; Princeton : 1 \u2640 [UMSP], 3 Oct 1994, A. Johnson leg.; Murray Co.: : 1 \u2640 [CNBL], 29 Jun 2019, Bee Bowls; Olmsted Co.: Oronoco Prairie SNA : 1 \u2640 [MNDNR], 13 Sep 2013, bowl; Pine Co.: Chengwatana State Forest : 1 \u2642 [MNDNR], 16 Jul 2020, N. Gerjets leg., net, Veranicastrumvirginicum; St. Croix SP : 1 \u2640 [MNDNR], 25 Aug 2020, N. Gerjets leg., net, So. Sp.; Pope Co.: Glacial Lakes State Park : 1 \u2642 [UMSP], 25 Jul 1973, Malaise trap; Ramsey Co.: Bald Eagle Otter Lk. Reg. Pk. : 1 \u2640 [EERC], 5 Sep 2015, E. Evans leg., bowl trap; Battle Creek Reg. Pk. : 1 \u2640 [EERC], 10 Jun 2015, J. Gardner leg., net, Cornussericea; Battle Creek Reg. Pk. : 2 \u2640 [EERC], 27 May 2015, J. Gardner leg., net, Geraniummaculatum; Battle Creek Regional Park : 1 \u2640 [EERC], 17 May 2016, E. Evans leg., bowl trap; Battle Creek Regional Park : 2 \u2640 [EERC], 8 Jun 2016, J. Gardner leg., net, Ru. Allegheniensis; Roseville, 3035 Fairview Avenue N : 1 \u2640 [UMSP], 5\u20137 Sep 2014, R.W. Holzenthal leg.; St Anthony Park : 1 \u2640 [UMSP], Jun year unknown; Redwood Co.: Cedar Mountain SNA : 12 \u2640 [MNDNR], 6 Jul 2016, bowl; Renville Co.: Morton Outcrops SNA : 1 \u2640 [MNDNR], 6 Jul 2016, bowl; 1 \u2640 [MNDNR], 18 Jul 2016, bowl; Sherburne Co.: Sherburne National Wildlife Refuge : 1 \u2640 [EERC], 10 Jun 2016, E. Evans leg., net, R.arkansana; Uncas Dunes SNA : 1 \u2640 [MNDNR], 11 Jun 2013, net; Stearns Co.: Avon Hills Forest SNA : 1 \u2642 [MNDNR], 13 Sep 2018, net, So.altissima; St. Cloud : 2 \u2640 [UMSP], 25 May 1968; 1 \u2642 [UMSP], 30 Jul 1968; Stevens Co.: Freeman WMA : 1 \u2640 [MNDNR], 21 Jun 2015, net, R. sp; Verlyn Marth Memorial Prairie SNA : 3 \u2640 [MNDNR], 6 Jul 2016, bowl; Swift Co.: Rice WPA : 1 \u2640 [UMSP], 26 Jun 2016, N. Pennarolla, J. Leone leg., bowl; Wabasha Co.: Reads Landing : 1 \u2640 [UMSP], 22 Jun 1934, C.E. Michel leg.; Washington Co.: : 1 \u2640 [UMSP], 9 May 1959; Afton State Park : 1 \u2640 [CRC], 11 Sep 1992, C.C. Reed leg., net; Arcola Bluffs SAC : 1 \u2640 [CNBL], 31 May 2018, K. Friedrich leg., vac, G.maculatum; 1 \u2640 [CNBL], 14 Jun 2018, K. Friedrich leg., vac, Erigeronphiladelphicus; Big Marine Park Res. : 6 \u2640 [EERC], 7 Jun 2016, J. Gardner leg., net, R.woodsii; Lost Valley Prairie SNA : 1 \u2640 [MNDNR], 13 Sep 2013, bowl; Lost Valley SNA : 1 \u2640 [UMSP], 19 Sep 1990, C.C. Reed leg.; 1 \u2640 [CRC], 19 Sep 1990, C.C. Reed leg., net; 1 \u2640 [UMSP], 28 Jul 1992, C.C. Reed leg.; St. Croix Savanna SNA : 1 \u2640 [MNDNR], 16 Sep 2013, bowl; St. Croix Savanna SNA : 1 \u2640 [MNDNR], 13 Sep 2013, bowl; St. Croix Savanna SNA : 1 \u2640 [UMSP], 5 Aug 1994, C.C. Reed leg., Monardafistulosa; Winona Co.: Great River Bluffs SP : 1 \u2640 [MNDNR], 19 Aug 2017, bowl; Wright Co.: Lake Maria SP : 1 \u2640 [MNDNR], 6 May 2017, bowl. Mississippi: Bolivar Co.: Cleveland : 1 \u2640 [UMSP], 21 Apr 1937, R.W. Dawson leg. Missouri: Atchison Co.: [MASR]; Barry Co.: [MASR]; Barton Co.: [MASR]; Benton Co.: [MASR]; Bollinger Co.: [MASR]; Callaway Co.: [MASR]; Camden Co.: [MASR]; Crawford Co.: [MASR]; Dallas Co.: [MASR]; Dent Co.: [MASR]; Douglas Co.: [MASR]; Franklin Co.: [MASR]; Greene Co.: [MASR]; Grundy Co.: [MASR]; Harrison Co.: [MASR]; Jackson Co.: [MASR]; Jasper Co.: [MASR]; Jefferson Co.: [MASR]; Johnson Co.: [MASR]; Laclede Co.: [MASR]; Lafayette Co.: [MASR]; Lewis Co.: [MASR]; Lincoln Co.: [MASR]; Macon Co.: [MASR]; Madison Co.: [MASR]; Mercer Co.: [MASR]; Monroe Co.: [MASR]; Montgomery Co.: [MASR]; Pemiscot Co.: [MASR]; Pettis Co.: [MASR]; Putnam Co.: [MASR]; Randolph Co.: [MASR]; Ray Co.: [MASR]; Reynolds Co.: [MASR]; Saline Co.: [MASR]; Shannon Co.: [MASR]; St. Francis Co.: [MASR]; St. Louis Co.: [MASR]; Ste. Genevieve Co.: [MASR]; Stoddard Co.: [MASR]; Taney Co.: [MASR]; Warren Co.: [MASR]. New York: Tompkins Co.: Ithaca : 1 \u2640 [OSUC], 27 Aug 1950, J. Cillie leg. North Carolina: Sampson Co.: Ivanhoe : 1 \u2640 [UMSP], 3 May 1945, T.B. Mitchell leg. Ohio: Champaign Co.: : 1 \u2642 [OSUC], 24 Jul 1954; 1 \u2640 [OSUC], 8 Jun 1994, N.F. Johnson leg., Malaise trap; Delaware Co.: : 1 \u2640 [OSUC], 2 Aug 1942, R.W. Strandtmann leg.; Fairfield Co.: : 1 \u2640 [OSUC], 16 Jun 1994, A. Sharkov leg.; Franklin Co.: : 1 \u2642 [OSUC], 21 Aug 1942; 1 \u2640 [OSUC], 18 Jun 1952; Greene Co.: [MASR]; : 1 \u2640 [OSUC], 6 Jun 1956, J.N. Knull leg.; 1 \u2640 [OSUC], 20 Jun 1957, J.N. Knull, D.J. Knull leg.; Hocking Co.: : 1 \u2640 [OSUC], 10 May 1935, R.C. Osburn leg.; 1 \u2640 [OSUC], 14 Jun 1943, R.C. Osburn leg.; 1 \u2640 [OSUC], 23 May year unknown, J.N. Knull, D.J. Knull leg.; 1 \u2640 [OSUC], 14 Jun year unknown, R.C. Osburn leg.; Jackson Co.: : 1 \u2640 [OSUC], 9 Aug 1942, R.W. Strandtmann leg.; Lawrence Co.: : 1 \u2642 [OSUC], 8 Aug 1942, R.W. Strandtmann leg.; Logan Co.: : 1 \u2640 [UMSP], 16 Jul 1930, J. Patton leg.; Lucas Co.: [MASR]; : 1 \u2640 [OSUC], 19 May 2003, M. Arduser leg., Lupinusperennis; Ottawa Co.: Catawba Island : 1 \u2640 [OSUC], 27 Jun 1902, J.G. S. leg.; Put-in-Bay : 1 \u2640 [OSUC], 20\u201330 Jun 1924; 1 \u2640 [OSUC], 14 Jul 1935, R.C. Osburn leg.; 1 \u2640 [OSUC], 22 Aug 1941, R.C. Osburn leg.; 1 \u2640 [OSUC], date unknown, C.H. Kennedy leg.; Paulding Co.: Charloe : 1 \u2640 [OSUC], 12 May 1951, H.F. Price leg.; Scioto Co.: : 1 \u2640 [OSUC], 6 Aug 1942, R.W. Strandtmann leg.; 1 \u2640 [OSUC], 9 Jun 1943, J.N. Knull, D.J. Knull leg.; Summit Co.: Ira : 1 \u2640 [OSUC], date unknown, J.S. Hine leg.; Vinton Co.: : 1 \u2640 [OSUC], 20 Jun 1901; Williams Co.: Bryan : 2 \u2640 [OSUC], date unknown. Tennessee: Davidson Co.: Nashville: [MASR]. Wisconsin: Burnett Co.: : 1 \u2640 [UMSP], M. Sabourin leg.; Crawford Co.: Barnum : 1 \u2640 [UMSP], 2 Aug 1922, A.M. Holmquist leg.; Dane Co.: Madison : 1 \u2640 [OSUC], 25 Jun 1916; La Crosse Co.: [MASR]; Oconto Co.: Lakewood : 1 \u2640 [UMSP], 15 Jul 1948, H.E. Milliron leg.; Polk Co.: Tewksbury SACN : 1 \u2640 [CNBL], 25 May 2017, K. Friedrich leg., vac, Barbareavulgaris; 2 \u2640 [CNBL], 8 Jun 2017, K. Friedrich leg., vac, Ru. Sp.; 1 \u2640 [CNBL], 4 Jun 2018, K. Friedrich leg., vac, Ru. Sp. Canada: Ontario: Middlesex Co.: London: [MASR].Taxon classificationAnimaliaHymenopteraHalictidae\ufeffCockerellBB67D262-7F85-5D6A-9BB1-DF7C093E0DAEAugochloraanonymaHolotype: \u2640 USA, Florida, No Name Key . Images examined by ZP and MA. Online record: http://n2t.net/ark:/65665/347b15a43-e8d1-4195-8eaf-f8ac9cbbec94 (labels read \u201cNo Name / Key 3.98 Fla // GN Collins / Collector // CL Pollard / Collector // TypeNo. / 24890 / U.S.N.M. [red label] // Augochlora / anonyma / Ckll. TYPE.\u201d). Cockerell, 1922: 15 \u2640. Augochloropsiscuprea (in Augochloropsis (Paraugochloropsis) anonyma in : catalogAugochloropsisanonyma can be recognized by the short propodeal triangle, which is impressed and narrower than the metanotum than the medial length of the metanotum . However, the narrow propodeal triangle of Augochloropsisanonyma stat. nov.0562824D-D2EC-5427-97DB-7290F59096AEAugochloracupreaHolotype: \u2640 North America [OUMNH]. / J.S. Moure 1957 // Probably the Holotype as labelled. No specimen labelled Type in B.M. / C.D. Michener in litt. 13 VIII 1965\u201d). Smith, 1853: 79 \u2640. Images examined by ZP and MA Fig. . HolotypAugochloropsiscuprea stat. nov.978E8C30-228E-50E9-8C5D-A504A558E484AugochlorafulgidaHolotype: \u2640 USA, Florida, St. John\u2019s Bluff, East Florida [NHMUK014024970]. Images examined by ZP and MA . Smith, 1853: 79 \u2640. MA Fig. . Online Augochlorafulgida A9E7120B-EDC0-533B-B6E7-A20A3FCE01D6AugochlorasumptuosaSyntype(s?): \u2640 North America. Type or types missing and presumed lost. Smith, 1853: 82 \u2640. AugochloralacustrisHolotype: \u2640 USA, Florida, Lakeland [USNM Type no. 24888]. Images examined by ZP and MA. Online record: http://n2t.net/ark:/65665/32a505d56-7e7d-4fea-ba47-574f3858121f . Cockerell, 1922: 14 \u2640 syn. . HolotypAugochlorafloridicaHolotype: \u2642 USA, Florida, Monticello [USNM Type no. 24889]. Images examined by ZP and MA. Online record: http://n2t.net/ark:/65665/3053e0fc2-b95d-49b6-9630-b55645b3e89d . Cockerell, 1922: 14 \u2642 syn. . HolotypAugochlorasumptuosa sumptuosa .Augochloropsissumptuosa in a more restricted sense than previous authors because we have split it into two species: Augochloropsissumptuosa and Augochloropsishumeralis. Now, Augochloropsissumptuosa refers to the species occurring in the southeastern United States though the exact range is unknown at this time, and it remains to be seen to what degree, if any, the range of the two species overlaps.We use Augochloropsissumptuosa have been lost. The type could not be located by Augochloropsissumptuosa can be determined from the original description. Specifically, the original description states \u201cthe base of the metathorax enclosed by an arched ridge, the enclosed space granulated, the sides of the truncation margined by sharp carinae.\u201d This description matches the southeastern species , the types of which were collected in western Kansas.The type or types of Augochloropsissumptuosa because we have not critically evaluated the status of two synonyms: Augochloralacustris Cockerell and Augochlorafloridica Cockerell. They were originally synonymized with Augochloropsissumptuosa by lacustris or floridica.\u201d We have examined images of the types, which are clear enough for us to tentatively agree. However, given that we have split Augochloropsissumptuosa into two species and there is potentially a third similar species in Florida, these types should be critically reexamined as part of a reevaluation of the Florida fauna.More work remains to be done on the taxonomy of Augochloropsis in the United States. We are listing them here in order to alert readers to their presence, as many have been incorrectly lumped together under existing species, particularly Augochloropsismetallica. However, we do not treat them further. We lack sufficient material of these species, and it is unknown whether they are undescribed or not, as they may be described from Mexico or they may be one of the many poorly known species described by Cockerell. The potential species and their locations include:We are aware of at least four additional potential species of Arizona: A species with a broad and shining propodeum in the female .Augochloropsissumptuosa seen in material from Archbold Biological Station .Florida: A species similar toAugochloropsismetallica andAugochloropsisviridula . This species may have contributed to the confusion by previous authors who believed thatAugochloropsismetallica andAugochloropsisviridula were a single variable species.Texas: A species that has a unique propodeal triangle Fig. and an iAugochloropsishumeralis .Texas: A species similar toAugochloropsis of the Midwest and made additional changes to the Augochloropsis of the broader United States. This work will allow for the confident identification of the species in the midwestern United States and allow the species\u2019 ranges to be better understood. However, there are areas of the southern United States (particularly Florida and Texas) where any Augochloropsis identifications must be undertaken with great care due to the number of undescribed or unknown species. We estimate there are an additional four species of Augochloropsis in the United States that are unknown or undescribed, not counting Augochloropsisfulgida, which is only known from the type and has the male now unknown. In addition, more work needs to be done to check the status of some of the current synonyms of Augochloropsissumptuosa and Augochloropsishumeralis from Texas and Florida. Even the genus name may change at some point, as Paraugochloropsis to genus level.Here, we have revised the Augochloropsis and the other shiny green Halictinae. However, similar to the situation in Augochloropsis, more taxonomic work is still needed in the other shiny green Halictinae. For example the Agapostemon of the United States were last revised 50 years ago are contributing to the high rates of misidentifications in bees.The taxonomic changes and identification resources provided here will allow for more accurate identification of ears ago , the Aug complex . Given tmens see . In addiAugochloropsis species in the United States and split what was formerly Augochloropsismetallica into five species , particularly since prior taxonomic research on those groups predates molecular tools and high-resolution images.Our work also demonstrates the difficulty, indeed the futility, of attempting to monitor many bee groups that are in taxonomic disarray . Here, wes Table . This wies Table , and it Epeolus ; 20 new oglossum ). This h"} +{"text": "Brain magnetic resonance imaging (MRI) showed multiple white matter T2-lesions with incomplete peripheral enhancement . Conside"} +{"text": "Vision was able to uphold its high standards for published papers due to the outstanding efforts of our reviewers. Thanks to the efforts of our reviewers in 2022, the median time to first decision was 30.5 days and the median time to publication was 65 days. Regardless of whether the articles they examined were ultimately published, the editors would like to express their appreciation and thank the following reviewers for the time and dedication that they have shown Vision:Ahmed AbdelghanyJuliette E. McGregorAkira ObanaKang-Ming ChangAlessandro MeduriKatarzyna NowomiejskaAlessio FacchinKazuo IchikawaAlfonso Vasquez-PerezKevin PatersonAlice Verticchio VercellinKjetil Falkenberg HansenAlicia Ruiz-PomedaKristopher R. GenschmerAlina GheorgheKrzysztof SchabowiczAmedeo D\u2019AngiulliKwok Ping ChanAmir KheradmandLaurence HarrisAna Tajadura-JimenezLei WanAndr\u00e9 MermoudLeo FleishmanAndreas EichlerLuca BattagliniAndrzej GrzybowskiLuigi Tame\u00c1ngel De-Juanas OlivaLuke ChongAnita Lyssek-Bor\u00f3nMael LeverAnna PiroManfred MarschallAnna Przekoracka-KrawczykManuel PereaArjen AlinkMarco BertaminiArne Lykke LarsenMare KoitArne OhlendorfMarek HamplArthur ZhaoMarialuisa MartelliBaingio PinnaMarina GregoricBenjamin KnierMario DalmasoBhagyashri BurguteMark J. SimcoeBiswajit PadhyMark W. GreenleeBrad BarnettMartin HowBruno RichardMarty BanksCalvin EiberMassimo BusinCarlos Ferr\u00e1s SextoMaurizio CammalleriCecilia PerinMaxim BakaevChong-Bin TsaiMd Manjurul AhsanChris OrietMelinda Y. ChangChristoph FaschingerMengxi ShenChristoph M. FriedrichMichael D. CrosslandClara Martinez-PerezMichael HoffmannClaudio BucoloMichael J. LipsonCl\u00e9mence BonnetMicha\u0142 S. NowakCord HuchzermeyerMichele LanzaDanial RoshandelMiguel TeusDaniel Josef LindeggerMile Bo\u0161njakDaniel L\u00f3pez MaloMinglang YinDavid Manzano S\u00e1nchezMohammad Shokrolah ShiraziDmitrii S. MaltsevMohsen Mosayebi-SamaniDoreen SchmidlMuneeswar NittalaDoug D. ChungNehal ElsherbinyDu\u0161ica PahorNicola Di StefanoEleftherios AnastasopoulosNicolae GicaElena DinteNicoleta AntonEleonora MauriziNikos KonstantinouEliya LevingerNingli WangEmily HandNorman M. SpivakEvan PalmerOlaia Lucas-Jim\u00e9nezEwald LindnerPadmanabhan PattabiramanFrancesco LenaPastore MassimilianoFrancisco AlonsoPatrick CavanaghFrank H. DurginPaul HibbardGaganpreet KaurPaul LintonGeorges DellatolasPavol Bo\u017eekGeorgios LabirisPeter KoulenGerd GigerenzerPushpa Raj JoshiGerd U. AuffarthQi FangGiacomo CollettiRafael IribarrenGiancarlo MontaniRalph WeidnerGiovanni William OliverioRan DuGiuseppe CirilloRebecca FullerGrainne ScanlonRicardo Bernardez-VilaboaGregory DeAngelisRicardo F. FraustoGrzegorz \u0141abuzRobert J. EnnisGuido MaielloRobert L. WhitwellGysbert van SettenRobert S. AllisonHafiz Tayyab RaufRoberto BellucciHakan KaymakRohan Bir SinghHaluk OgmenRosa BocciaHamdy AbdelkaderRuobing QianHarold BedellRupesh Kumar ChikaraHaruka AbeSamantha R. De SilvaHe-Sheng WangSerenella D\u2019IngeoHirokazu SakaguchiSergio MorraHortensia T. Sanchez-TocinoShao-Bin WangHuei-Jane LeeSinwan CheungHun-Ju YuSiyi ChenIoannis HalkiadakisSreelakshmi VasudevanIrene SperandioTae Keun YooIvan MatveevTatu RojalinIvana MravicicTejas KarhadkarJames J. WolffsohnThomas A. BuseyJamie M. BogleThomas SchmidtJared CoburnTimothy J. VickeryJavier Mart\u00ednTina McKayJee Taek KimTomislav KuzmanJeffrey BaraTsung-Jen WangJeffrey J. HuangVasile-Gabriel IanaJer\u00f3nimo Gonz\u00e1lez-BernalVida DemarinJin BaiWaldemar SwiderskiJinjun XiaWladimir KirschJoanna Konopi\u0144skaYokrat TonJovana Bjeki\u0107Yuntao HuJukka HyonaZhong-Lin LuHigh-quality academic publishing is built on rigorous peer review."} +{"text": "Article title: N-oleoylethanolamine_phosphatidylcholine complex loaded, DSPE-PEG integrated liposomes for efficient strokeAuthors: Xiangrui Yang and Shichao WuJournal:Drug DeliveryBibliometrics: Volume 28, Number 1, pages 2525\u20132533DOI:https://doi.org/10.1080/10717544.2021.2008058As per author\u2019s suggestions the figure 3 and 4 are replaced in the published article."} +{"text": "Correction To: BMC Medical Education (2022) 22:81210.1186/s12909-022-03881-y.Following publication of the original article , the aut\u201cOn average, Norwegian schools had stricter policies (mean score: 0.9) followed by Sweden (mean score: 0.7) and Denmark (mean score: 0.5)\u201d.Previous version: \u201cOn average, Norwegian schools had stricter policies (mean score: 0.8) followed by Sweden (mean score: 0.7) and Denmark (mean score: 0.5)\u201d.Amended version:"} +{"text": "Erratum zu:Chirurg 202110.1007/s00104-021-01450-5Dieser Beitrag zum Thema \u201eRobotische Hernienchirurgie. Rv-TAPP und r\u2011Rives/r-TARUP\u201c ist der zweite Teil einer Reihe von mehreren Beitr\u00e4gen zum Thema. Titel und Untertitel wurden angepasst. Die Originalversion dieses Beitrags wurde korrigiert."} +{"text": "Correction: Stem Cell Research & Therapy (2017) 8:17https://doi.org/10.1186/s13287-017-0476-7When sorting out the original data, the authors noted the representative masson images for MI\u2009+\u2009MET/CDC and MI\u2009+\u2009MET\u2009+\u2009MET/CDC groups in Fig."} +{"text": "Scientific Reportshttps://doi.org/10.1038/s41598-022-27290-9, published online 03 January 2023Correction to: The Acknowledgments section in the original version of this Article was incomplete.\u201cF.N. thanks the ERC Starting Grant n. 307322.\u201dnow reads:\u201cF.N. thanks the ERC Starting Grant n. 307322. D.B. warmly acknowledges financial support by the Italian MIUR PRIN2017\u00a0(Project Number 2017KY5ZX8).\u201dThe original Article has been corrected."} +{"text": "Correction: Antimicrobial Resistance & Infection Control (2020) 9:76https://doi.org/10.1186/s13756-020-00741-6The original article containsThe current, incorrect value is \u2018y (31.5%)\u2019 whereas the correct value is instead \u201917 (31.5%)\u2019."} +{"text": "DOI: 10.20945/2359-3997000000465Arch Endocrinol Metab. 2022;66(2):139-51Where you read:Table 2. Newly proposed classification based on two clinical casesShould read:Table 2. Newly proposed classification based on two clinical cases"} +{"text": "A two-microRNA signature predicts the progression of male thyroid cancer. Open Life Sci. 2021;16(1):981\u201391,"} +{"text": "Antibodies was able to uphold its high standards for published papers due to the outstanding efforts of our reviewers. Thanks to the efforts of our reviewers in 2022, the median time to first decision was 21 days and the median time to publication was 51 days. Regardless of whether the articles they examined were ultimately published, the editors would like to express their appreciation and thank the following reviewers for the time and dedication that they have shown Journal:A.J. RosenspireKenneth A. AndreoniAdam BarbKenta HarayaAdam WisnewskiKevin J. SelvaAfua Adjeiwaa MensahKevin M CoombsAlan SchmaljohnKira V. VyatkinaAlastair LawsonKisung KoAlexey TeplyakovKRISHNA CHAITANYAAli R. JazirehiKristine M. KimAlireza ZarebidokiKumiko Nakada-TsukuiAlvise SernicolaLaura TiberioAmita Datta-MannanLaureline BerthelotAmy XuLong Thanh PhamAndrea L. J. MarschallLuca VaraniAnisuz ZamanLuigi R. CeciAnthony CheungLuis Alvarez-VallinaAnton SholukhM. Quadir SiddiquiArtur ZalevskyMarc HilhorstAtheer ZgairMarco PalmaAvneesh GautamMaria RodriguezBernardo VegaMarie-Alix PoulBingchun ZhaoMark S. CraggBrian D. AdamsMartina JonesBruce WalcheckMatthias ScheweCarlo Cosimo CampaMehdi Arbabi GhahroudiCaterina Maria GambinoMichael G. WellerCharles DumontetMichael KundiChinh Tran-To SuMohamed FodaChiuan LeowMonika Christine Brunner-WeinzierlChristiane MoogNeil GreenspanCiesla MaciejNicolas SabarthColin H. QuinnOhad MazorCzeslaw RadziejewskiOlga BorgesDaisuke TsurutaParamita ChakrabortyDario GenovesePaulina \u017barnowiecDelphine Le RouxPenelope M. DrakeDeng-Ho YangPeter KorstenDenise ToscaniP\u00e9ter Ol\u00e1hDennis R. GouletPetros ChristopoulosDiana Panayotova-DimitrovaPrabakaran PonrajDiego MoricoliQun ZhouDominique LesuisseRaffaele FrazziDoreen M. FlossRahul MannanE. F. KolesanovaRenata Von Glehn PonsirenasEdwin J. Vazquez-CintronRicardo GiordanoElena CsernokRitthideach YorsaengElena SavvateevaRonald P. TaylorElizabeth Helen KempRoni NugrahaElizabeth J. PriceRosa Rodr\u00edguez-P\u00e9rezEmilia Bia\u0142opiotrowiczSafder GanaieEmilia CirilloSaketh ChemuruEmmanuel VictorSanjay DeyErika OrbanScott WetzelErwan MortierSebastian YuFaraz A. ChoudhurySebastien CalboFeliciana Real-Fern\u00e1ndezSelami Aykut TemizFlavio Di PisaSeshi SompuramFloris L. Van DelftSharath MadasuFrank BreitlingShin-Ichi OsadaFrank KrauseSina TaefehshokrFrederick J. KaskelSrinath ThirumalairajanG\u00e1bor KonczSukmook LeeGalia Ram\u00edrez-TolozaSyed AhmedGarima ArvikarTae Hyun KangGestur VidarssonTakahiro AnzaiGiorgia ManniTaku KouroGonca E. KarahanTakuya TadaGouveia Zelia LiciniaTaru S DuttHeather BaxTarun KeswaniHyosang BaeTheam Soon LimHyunbo ShimTimm AmendtItai BenharUrszula LisieckaItzel Amaro-EstradaV. Ashutosh RaoIzabela ChmielewskaVeera Venkat Shivaji Rama Rao EdupugantiJamshid TanhaVictoria PolonisJeremy SchmitVladimira BoyadzievaJerome E. TannerWakiro SatoJianlong LouWanessa C. LimaJingzhong GuoWei SunJohn De KruifWibke BayerJos\u00e9 Germano De SousaWilliam David TolbertJuan C. AlmagroXavier Fulladosa OliverasJuli\u00e1n Esteban Barahona-CorreaXingyi JiangJulius GrzeschikYinzhi LangJurgen SanesYoshiyuki NakamuraKarina Kubiak-OssowskaYutaka MatsudaKasturi BanerjeeZahra RattrayKatharine M. Lodge\u017divka DikaHigh-quality academic publishing is built on rigorous peer review."} +{"text": "Correction: BMC Pregnancy Childbirth 22, 456 (2022)https://doi.org/10.1186/s12884-022-04749-1Following publication of the original article , the autThe incorrect author name is: GivenName: Rikke, FamilyName: Damkj\u00e6r MaimburgThe correct author name is: GivenName: Rikke Damkj\u00e6r, FamilyName: MaimburgThe author group has been updated above and the original article has been"} +{"text": "Peer reviewing is a complex and often thankless task. The editors at mSystems are all specialists in their fields, but they are also all peer reviewers and authors. Having an author, reviewer, and editor all in the same brain can often create cognitive dissonance, as I have mentioned previously (https://doi.org/10.1128/mSystems.00797-19). However, all of us are committed to providing robust assessment, through constructive feedback, for every paper that we send out for peer review. Over the last 3\u2009years, it has become increasingly hard to find reviewers willing to perform peer review. While I have no hard data as to why this trend is occurring, like most things, I blame it on the pandemic. However, there has also been a concomitant maturing of many different microbiome-focused journals, which has taxed a relatively small group of researchers, who are often asked to review many different manuscripts simultaneously. I routinely receive 10 to 15 peer-review requests per week. Obviously, no one has the time to assess anything rigorously with that kind of workload, so I end up saying \u201cno\u201d\u2014a lot! How do I choose which ones I say yes to? Well, in the last 2 to 3\u2009years I have been focusing on performing peer review only for society journals. The American Society for Microbiology, Applied Microbiology International, International Society for Microbial Ecology, and many others provide substantial resources to their membership that are in part supported by revenues from the journals. Therefore, by supporting the journals as an editor, reviewer, or an author, you are generating revenue that provides support for your scientific community, and maybe even yourself. What could be better? Thank you to all the reviewers who made peer review at mSystems such a success this last year, and thank you for supporting ASM and your community.Ruth Chingcuangco AbanadorGhulam AbbasWafaa Abd El-GhanyMahmoud M. AbdelsattarLuis A. ActisZaky AdamBeth M. AdamowiczOehmen AdrianInnocent AfekeLivnat Afriat-JurnouHerve AgaisseAshwani AggarwalSurya D. AggarwalStephen Dela AhatorDin Ahmad UdTae-Hyuk AhnLianzhong AiSulaiman M. AlajelM. Tauqeer AlamBegum AlaybeyogluVirginia Helena Albarrac\u00ednMuhammad AliCeleste AllabandJonathan AllenRichard C. AllenCharlotte J. AlsterHassan M. Al-TameemiLauren Victoria AlteioEmrah AltindisJohn AlverdyDani AmorShivanthi AnandanMark T. AndersonMatthew Zack AndersonMichael AndersonAngel Andrade TorresJulien AndreaniCristina Andr\u00e9s-BarraoHaike AntelmannVijay C. AntharamMuzaffer ArikanJean ArmengaudCourtney R. ArmourRavi P. AryaAdrien AssieJennifer M. AuchtungLucas AuerSandrine AugerFrank O. AylwardDerya Aytan-AktugSheyda AzimiReha O. AzizogluJin-Woo BaeHarsh BaisJonathon L. BakerScott E. BakerVimal BalasubramanianAreen BanerjeeKalins BannerjeeMatthieu BarbierRoman Alfredo BarcoLars BarquistFranco BasileAshley C. BatemanBuzz BaumAndreas J. B\u00e4umlerClifford J. BeallPascale B. BeauregardAshley E. BeckChristine BeemelmannsTerrence BellDaniel Bellieny-RabeloMichael BenisraelMariana BenitezTrude BennettFabienne BenzAnne-Sophie BergotAnna BernasconiAnthony BertagnolliMartin BeukemaMohini BhattacharyaDerek Martens BickhartJoseph BielawskiJordan E. BisanzPradeep BistNidhan K. BiswasRyan Andrew BlausteinRan BlekhmanMark BlennerSamuel J. BloomfieldLouis-Marie BobayNick BohmannDavid BolamLuis M. Bola\u00f1osAlte BonesJoanna-Lynn C. BorgognaChiara BorsettoKeith Bouma-GregsonTravis BourretCara C. BoutteRobert BowersPatrick H. BradleyTimothy S. BretonCorinna BreusingSylvain BrisseAmanda M. V. BrownBianca Regina Palmer BrownChris M. BrownAllen BrowneKirsteen BrowningVincent BrunoGregory A. BuckMichal BukowskiAaron BurberryAlejandro BuschmannSusheel Bhanu BusiYuming CaiDouglas R. CallBenjamin J. CallahanAndrew CamilliFran\u00e7ois-Xavier Campbell-ValoisZoe CardonCarlo R. CarereAllison F. CareyJeffrey CareyMichael CarlsonTyler J. CarrierCatherine CarrilloSantiago Castillo-Ram\u00edrezLindsay J. CaverlyYunrong ChaiDipshikha ChakravorttyApostolos ChalkisRishi ChanderrajHao-Xun ChangBenoit ChassaingKausik ChattopadhyayNarendrakumar ChaudhariLianqiang CheTanya CheekeDing-Qiang ChenHuaihai ChenLiang ChenSongcan ChenWen-Hsiang ChenShu ChengLoo Wee ChiaAlexandra ChiaveriniMariana Carmen ChifiriucJason ChinByung-Kwan ChoDavide CiccareseGerard ClarkeChristine ClaytonAna G. Cobi\u00e1n-G\u00fcemesJos\u00e9 Francisco Cobo D\u00edazMaureen L. ColemanJames CollinsFabian CommichauIan Frank ConnertonLydia M. ContrerasGregory M. CookFernando CorralesClaire CouchFelipe H. CoutinhoBrett C. CovingtonDon A. CowanJohn V. CoxKeith A. CrandallAlex Crits-ChristophJie CuiJulia CuiRoss CunningChris CurtinTal DaganZhongmin DaiAjai A. DandekarKristen M. DeAngelisBrian DeFelicePatrick H. DegnanMarcus de GoffauStephen De LisleFrancesco DeloguIlenne Del ValleXin DengYijie DengLaura De NiesMahesh S. DesaiLes DethlefsenRae DevanNeha DhasmanaRishu DheerMuhe DiaoDulce Maria Diaz-Monta\u00f1oGeorge C. DicenzoChristian DienerNicholas DillonTatiana DimitriuFrancisco DionisioRay DixonUlrich DobrindtAlex DornburgGavin M. DouglasRichard G. DouglasSimon L. DoveGlen D\u2019SouzaRebbeca DuarCaroline DubeLeonard DuboisFrank DucaBreck A. DuerkopKarine DufresnePeter F. DunfieldAshley M. DunganJanani DurairajAvishek DuttaJonathan DworkinDavid DyerStefan DyksmaEmily EbelAnna EdlundMoamen ElmassryAkintunde EmiolaMelinda Anne EngevikTobias EnglHannah E. EpsteinMadeleine ErnstOier EtxebesteJay D. EvansDamien EveillardN. L. FahrenfeldYanhua FanAlonso FavelaNicolas FeauSara FedericiMichael J. FederleKelli FeeserJie FengXiaowen FengTimothy G. FerdelmanGabriel da Rocha FernandesMaria-Luz FernandezVal Fern\u00e1ndez-LanzaJustyna Fert-BoberCelio Fernando Figueiredo AngoliniTaicia Pacheco FillHelmut FischerAmaranta FocardiKristen FoustEdward M. FoxParaskevi C. FragkouGad FrankelKyle FrantzShiri FreilichAyari Fuentes Hern\u00e1ndezJed FuhrmanHeather FullertonCesare FurlanelloChikara FurusawaGiovanni GalloMaria Alessandra GammoneSukirth GanesanRaidah GangjiMichael G. GanzleXiang GaoXiaoyu GaoMelanie G. GareauMatthew J. GebertJennifer Geddes-McalisterStephen J. GiovannoniCatherine GirardAlain P. GobertFilipa Godoy-VitorinoAntonio Gonzalez PenaMilena GonzaloDavid R. GoodlettTobias GorisClaire L. GorrieMarcin GrabowiczMatti GralkaPeter L. GraumannMichael Jeffrey GrayChristen GrettenbergerAnne GroveAlyssa GrubeCarsten GrupstraMaria-Eugenia GuazzaroniEric Gu\u00e9donSohini GuhaFengbiao GuoLanping GuoVinod GuptaElaine M. HaaseDaniel H. HaftTatsuro HagiAria S. HahnMatthias HahnYang HaiSarah HainesLarry J. HalversonJoshua HammBrian K. HammerJens Andre HammerlLeendert W. HamoenNancy D. HansonJianjun HaoYanbin HaoJanani HariharanMatthew J. HarkeJoshua HarrisonErica M. HartmannNur A. HasanChristiane Hassenr\u00fcckRoland Hatzenpichler\u00a0Juliette HayerAnna HayesBridget HegartyJohann HeiderCaitlin HeilJack A. HeinemannNoelle HeldV\u00e9ronique HelferNicholas C. K. HengCarly HenkelMichael HensonMelissa M. Herbst-KralovetzAaron D. HerndayRachel HestrinRobert L. HettichTeppo HiltunenChris HineYing-Ning HoWouter D. HoffCasandra L. HoffmanWilliam HofstadterDeborah A. HoganJames F. HoldenSuzie HoopsJulie HorvathPaul A. HoskissonAlice HotoppXiaoyu HuChao-Li HuangEn HuangDavid Andrew-Essman HufnagelWenwen HuoValentina Hurtado-MccormickDouglas L. HusebyFilip HusnikFatima HussainKevin HybiskeS. HyodoFrancesco ImperiKeiichi InaoueIkbal Agah InceRichard E. IsaacsonElliot Walter JacksonScott A. JacksonWilliam R. JacobsCarsten Suhr JacobsenCholsoon JangJayanth JawaharFrancis E. JenneyZhongjun JiaHongchen JiangJuquan JiangSizun JiangYong JiangZiyun JiangShuo JiaoMona JohannessenAnders JohanssonZackary JohnsonEric JonesStuart JonesPeter JorthJayadev JoshiJyoti JoshiAri JumpponenSheryl JusticeLindsay KalanMarina G. KalyuzhnayaBrandi KamermansVinayak KapatralVera KarlicicLisa KarstensKazuyuki KasaharaTakao KasugaKathryn KauffmanShanlin KeChristina A. KelloggPatrick KemmerenMichelle A. KennedyJannigje Gerdien KersShahrbanoo Keshavarz Azizi RaftarChetan KeswaniBrandon KieftKristopher KieftMin-Soo KimTaegyu KimJeffrey Alan KimbrelClaas KirchchelleKwan Soo KoHitoshi KomatsuzawaWeidong KongKonstantinos T. KonstantinidisBon-Sang KooChristian KostAleksandar D. KosticK\u00e1roly Kov\u00e1csSascha KrauseJens KrethNicolas KrinkArianna KrinosLee KroosLee R. KrumholzAnand KumarRolf K\u00fcmmerliBenoit KunathJahnavi KurasamViola KurmKyohei KurodaKirsten K\u00fcselSimon LabartheSteve LabrieLeo LahtiRegina LamendellaLefu LanZachary LandryYelena LapidotGisele LapointeBeatrice LarocheChristian LauberDonald W. LawrenceChristopher E. LawsonChih-Ying LayFrancois LebretonAngelica LebronAlice LeddaCharles Kai-Wu LeeEun Yeol LeeGrace C. LeeJean-Luc LegrasOwen P. LeiserDanielle G. LemayCammie F. LesserPetra Anne LevinJanina P. LewisDan LiFu-Li LiFuyong LiMeng LiXian-Zhi LiXiaogang LiZi-Bo LiGuanxiang LiangChen LiaoJosie LibertucciIan Dennis Edmund Alan LidburyTami LiebermanVirginia LioyBin LiuGang LiuJia LiuJinxin LiuXingyin LiuYa-Jun LiuYu-Rong LiuYannan LiuJames LockeBrett LomanAllison LopatkinStilianos LoucaBrian Michael LunaJustin LundElaine LuoYuheng LuoZhao-Qing LuoJonathan LynchMeinan LyuJing Mei MaLiyuan MaMary MachadoRoderick I. MackieD. Mitch MageeJennifer MahonyRabindra Kumar MandalSubhrangshu MandalAmee MangesMichael ManhartShrikant Subhash MantriAlejandro Manzano-Mar\u00ednRamona MarascoMaria L. MarcoPierre MarijonIgor Mar\u00edn de MasJessica L. Mark WelchClarisse (Lisa) MarotzWilliam MartinJos\u00e9 Luis Mart\u00ednezEsteban Mart\u00ednez-Garc\u00edaAndreza F. MartinsAdam MartinyCristina Marzach\u00ecJen MatthewsFlorent MazelBonita McCuaigJoy A. McKennaKatelyn McNairAlan McNallyStephen J. McSorleyDaniel R. MendeAlessio MengoniSebastian MenkeHayden MetskyEisha MhatreLuciana MiglioreAndrew D. MillardYusuke MinatoJeremiah J. MinichSara MitriJennifer M. MobberleyOmkar Satyavan MohiteMariano A. MolinaKaren M. MollDenise M. MonackShirin MoossaviDaniela Morales-SanchezNancy A. MoranKaren MoreauChristopher E. MorganMorigen MorigenJennifer L. MorrowJamie MortonBenjamin Douglas MoserLuis Mota-BravoThabiso Eric MotaungIwona MrukRyan Sean MuellerArunika MukhopadhayaSunil MundraBrian T. MurphyMario E. MuscarellaVivek K. MutalikJillian MyersJatin NagpalDipti D. NayakStephen NayfachAndrew L. NealBrittany NeedhamWilliam C. NelsonTrang T. H. NguyenJens NielsenVincent NietoYosuke NishimuraCecilia NoeckerJuan NogalesTeresa NogueiraDaniel R. NogueraNoelle NoyesDele OgunremiMitsuo OguraNorio OhmagariKinji OhnoAnil OjhaAngela OliverioElin OrgWilliam D. OrsiOrla O\u2019SullivanPaul W. O'TooleHong-Yu OuAnne-Marie OverstreetMustafa \u00d6z\u00e7amAlan Roberto PachecoC\u00e1tia Pac\u00edficoJon E. PaczkowskiMelinda PaholcsekSepideh PakpourMarton PalatinszkyRobert J. PalmerMeichen PanGaurav PandharikarJason A. PapinTanya ParishTansol ParkElizabeth ParkinsonD. Joshua ParrisEdoardo PasolliAlessandro PasseraNastassia V. PatinKathryn A. PatrasAmaury PayellevilleJos\u00e9 PenadesLuciana PereiraAraceli Perez-LopezEverett C. PesciRita de Cassia PessottiJason M. PetersScott PetersonHrvoje PetkovicCatherine Ann PfisterC\u00e9cile PhilippeAurore PicotFlavia PinzariMircea PodarClaudia PogoreutzPhillip B. PopeDavide PorcellatoJan PostbergBradley E. PoulsenAkbar Adjie PratamaEva C. PreisnerDavid PriceG. W. PriceJohn G. PurdyLeah PyterFahd QadirWeigang QiuJohn QualeRobert Andrew QuinnLilliana RadoshevichSadequr RahmanTracy Lyn RaivioGeeta RamGordon RamageThandavarayan RamamurthyKarthik RamanKelly RamirezDavid RaskoTamar RatishviliChristoph RatzkeSamiksha RautKasie RaymannTimothy D. ReadMar\u00eda Rebolleda G\u00f3mezNicole RedversAndreas ReisnerTaylor Elaine ReiterLinta RejiZe RenAlejandro ReyesTodd B. ReynoldsFran\u00e7ois RibaletCharlie RiceJason M. RidlonAlice RiselyJohn RobertsFrancisco Rodriguez-ValeraRoderich RoemhildGeraint B. RogersRebekah RogersJohn R. RohdeVeronica Roman-ReynaDavid RomeroS\u00f8ren RosendahlCorinna RossCharl\u00e8ne RousselDenis RoyDaniel RozenAlbane RuaudPeter RubbensJohn RubinsteinLorena RuizAlistair RussellJason W. SahlSaaz Sakrikar\u00c1lvaro San MillanMagdalena San RomanTasha Marie Santiago-RodriguezAlyson E. SantoroRumakanta SapkotaGuillaume SarrabayrouseMariana Gabriela SartorioGoor SassonMatthew J. ScarboroughBernhard H. SchinkDirk SchneiderHannah Doris SchweitzerAlison J. ScottNichollas E. ScottJulie A. SegreH. Steven SeifertJana SeifertYuji SekiguchiAlberto SeveriniHeike SeyboldLauren Marie SeylerVahid ShahrezaeiMigun ShakyaHongmei ShangYongqi ShaoZongze ShaoJason W. ShapiroAshok SharmaSaadlee ShehreenCody SheikJiaxian ShenPaul SheridanZhou Jason ShiShota ShibasakiAmanda ShoreJoshua D. ShroutWeitao ShuaiElla T. SieradzkiAnna SimpsonAbhijeet SinghBaneshwar SinghSurender SinghGeorge SiopisClayton M. SmallChuck Randall SmallwoodMichael SmanskiPaul SmithChristian SohlenkampMichael B. SohnVirtu Solano ColladoKevin V. SolomonVincent SomervilleBokai SongUtkarsh SoodPatrick SorensenRogerio R. Sotelo-MundoVenky SoundararajanDiana Zita SousaBarbara SpellerbergPierre StallforthAdi SternNejc StopnisekJorg StulkeJian-Qiang SuXiaoquan SuZhengchang SuSmitha SukumarAnne O. SummersChaomin SunHui-Zeng SunJian SunJun SunMangesh SuryavanshiDouglas SweeneyKazuhiro TakemotoChandni TalwarYinjie J. TangGerald W. TannockHannah TavalireTegwin TaylorAnna TaylorEva TeiraBenno Herman Ter KuileJanne Gesine Th\u00f6mingVivek Thumbigere-MathXiaojun TianCurtis TilvesAnna D. TischlerAnanda TiwariFranklin ToapantaVittorio TracannaEmmanuel TreinerBrian K. TrevellineGareth TrublHein TunTomasz Wojciech TurowskiSilvia TurroniVaibhav UpadhyayBlake UshijimaBal\u00e1zs VajnaAriena H. C. van BruggenJustin J. J. van der HooftJanneke van de WijgertSimon vanVlietWillem J. B. van WamelJan-Willem VeeningClaire Veneault FourreyMarco VenturaBen VezinaPedro Vieira-BaptistaSara Vieira SilvaFlora Julie VincentJoseph M. VinetzMarie-Joelle VirolleJay VornhagenWillem WaegemanIrene Wagner-DoblerBrett Wagner MackenzieDavid W. WaiteSteffen WaldherrAaron WalshMarina Resendes de Sousa Walther-AntonioHai-Hong WangMinggui WangNancy WangQuanxi WangWenjie WangXueshan WangYong WangZhang WangZhong WangAlex D. WashburneKenneth WasmundSamantha Che WaterworthThomas D. WattsShasta WebbLucy A. WeinertMaggie WeinrothBrian James WerthNicole WheelerLeann WhitneyStefanie WidderLutz WiehlmannClaire E. WilliamsTomasz WilmanskiAmanda Marie WilsonMichael R. WilsonEtthel Martha WindelsNathan WisnoskiRobyn J. WrightWei-Li WuZhihong XieYunhe XuZhihui XuJason H. YangJun YangLiang YangQian YangYuyi YangZhaomin YangMin YapSimon YeWeimin YeAvihu YonaNicholas D. YoungblutLoubna YoussarHongwei D. YuKaifan YuRichard YuMin YueOlivier ZablockiJoseph P. ZackularArsalan H. ZaidiRemi ZallotFabio ZaniniLisa Zeigler AllenQinglu ZengQixiao ZhaiKateryna ZhalninaCong ZhangDao-Feng ZhangJie ZhangLei ZhangLiangliang ZhangMingzi ZhangRong ZhangRui ZhangTianyu ZhangXiaobo ZhangYongjun ZhangZheng ZhangJiangchao ZhaoJinbiao ZhaoWenjing ZhaoXilin ZhaoBeiwen ZhengHao ZhengHong ZhengJianqiu ZhengXiang ZhengXueyun ZhengXiang ZhongZengtao ZhongZhi-Ping ZhongXingang ZhouYu ZhouBaoli ZhuLei ZhuLifeng ZhuLong-Ji ZhuQiyun ZhuWenhan ZhuYongzhang ZhuRyan M. ZielsNadine ZiemertMichael ZimmermannFranz Georg ZinglErik R. ZinserMoreno ZolfoQiyun ZuBang \u51afEvery year I write a brief statement of thanks for the hundreds to thousands of reviewers that make peer review possible at"} +{"text": "British Journal of Nutrition/Volume 125/Issue 9/14 May 2021Published online by Cambridge University Press: 29 June 2020, pp. 1034-1042Print publication: 14 May 2021Details of correction: reformatted Table 1 suppliedExisting text:See Table 1Corrected text should read:See updated and reformatted Table 1"} +{"text": "Scientific Reports 10.1038/srep07002, published online 11 November 2014Correction to: This Article contains errors.In Figure"} +{"text": "The correct title is: Strategies to reduce COVID-19 risk perception among grocery shoppers in the US: A survey study. The correct citation is: Li J, Verteramo Chiu LJ, G\u00f3mez MI, Bills NL (2021) Strategies to reduce COVID-19 risk perception among grocery shoppers in the US: A survey study. PLoS ONE 16(4): e0251060."} +{"text": "International Journal of Neonatal Screening was able to maintain its standards for the high quality of its published papers. Thanks to the contribution of our reviewers, in 2021, the median time to first decision was 18 days and the median time to publication was 44 days. The editors would like to extend their gratitude and recognition to the following reviewers for their precious time and dedication, regardless of whether the papers they reviewed were finally published:Aaron GoldenbergLisa M. GehtlandAlessandra EvaLuca BrunelliAlex R. KemperM. Elske Van Den Akker-van MarleAlexander AsamoahMaartje BlomAllan Meldgaard LundMalcolm DonaldsonAmy CunninghamMarelle J. BouvaAmy E. Wiberley-BradfordMaria ContaldoAmy GaviglioMaria Francisca CoutinhoAna Argudo Ram\u00edrezMariaAnna MessinaAngela ScheuerleMarie AudrainAnita BoelenMark R. De HoraAnna SedivaMarleen JansenAntonella OlivieriMatthew HendersonAntonia RibesMay Ee PngArindam BhattacharjeeMei BakerBaba InusaMichele CagganaBeth A. TariniMiguel Angel Alc\u00e1ntara-OrtigozaBradford TherrellMimi S. KimCan FiciciogluMirjam D. Van Der BurgCarla CuthbertNatalya KashirskayaCarmencita PadillaNatasha HeatherCarol JohnsonNenad BlauCatharina SchuetzNikolas BoyChloe Miu MakNobuyuki IshigeColin KennedyNorma P. TavakoliCynthia F. HintonPamela A. Harris-HamanDavid CheillanPaolo CavorettoDavid WengerPatrice K. HeldDawn A LaneyPatrick DucoroyDeborah MarsdenPatrick JayDebra FreedenbergPaul Van TrotsenburgDenise Margaret HarrisonPaula J. WatersDietrich MaternPeter ClementsEduardo TizzanoP\u00e9ter MonostoriEnzo RanieriPeter SchielenErnest M. PostPhilip J. YoungFabian HauckPim W. J. VergeerFlorian Sebald EichlerPin-Wen ChenFran\u00e7ois BoemerR. Rodney HowellFrancois EyskensRajendra SinghFrancyne KubaskiRalph FingerhutFr\u00f6mmel ClaudiaReinson KaritGeorge E. HogansonRichard B. ParadGeorge TavartkiladzeRobert CurrierGo TajimaRoberto GiuglianiGustavo J. C. BorrajoRolf Zetterstr\u00f6mGuy Van VlietRose E. MaaseHanneke A. HaijesRui VitorinoHarvey LevySamantha A. VerganoHisahide NishioScott D. GrosseIsabelle Durand-ZaleskiScott ShoneJ. Gerard LoeberSerena GasperiniJames B. GibsonSerwet DemirdasJames PittShozo TomonagaJennifer TaylorShunji TomatsuJim BonhamStephan KempJoe OrsiniStuart MoatJos\u00e9 A. CochoStuart Paul AdamsJovanka KingSvetoz\u00e1r Dluholuck\u00fdKanshi MinamitaniTudor Lucian PopKarin Engstr\u00f6mUlrika Von D\u00f6belnKarl R. WhiteV\u011bra Frankov\u00e1Katarina Trebu\u0161ak-Podkraj\u0161ekVeronica WileyKate E. ArmstrongVeroniqa Lundb\u00e4ckKaterina S. KuceraVijaya KnightKatja EggermannVineet DhimanKazumichi FujiokaVito TerlizziKendra JonesWuh-Liang HwuKenji YamadaYvonne A. DanielKonstantinos PetritisYvonne Kellar-GuentherLeah HechtZenon Pogoreli\u0107Lennart Hammarstr\u00f6mZheng Feei MaRigorous peer-reviews are the basis of high-quality academic publishing. Thanks to the great efforts of our reviewers,"} +{"text": "This article has been corrected: Due to errors during figure assembly, the image for panel 3, column 1 in Original article: Oncoscience. 2018 Feb 23;5(1-2):21\u201338PMCID: PMC5854290PMID: 29556515DOI: 10.18632/oncoscience.395"} +{"text": "Lepidoptera, Papilionoidea) of Sulaymaniyah Province, in Kurdistan Region, Iraq. Investigations were carried out between April 2016 and April 2021, during which butterfly specimens were collected from 34 different localities throughout Sulaymaniyah Province. The collected butterflies belonged to 103 species within five families: five species of Papilionidae, 19 species of Hesperiidae, 18 species of Pieridae, 25 species of Lycaenidae and 36 species of Nymphalidae.This study investigates the butterfly fauna Pieriskrueperi Staudinger, 1860, Coliaserate Esper, 1803, Polyommatusthersites , Brenthismofidii Wyatt, 1968 and Pseudochazaramamurra Herrich-Sch\u00e4ffer, 1852 have been added as new records to the fauna of Iraqi butterflies.Eight species, Sulaymaniyah Province is a mountainous area located in the northeast of Iraq and the southeast part of the Iraqi Kurdistan Region. As a part of the Iraqi Kurdistan Region biogeographically, Sulaymaniyah is situated in the Irano-Tauranian in the southeast of the western Palearctic realm . The ProPapilionoidea 47E5BD06-C0D7-5380-93D4-01CCFD8684A9Type status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Dukan; locality: Upper Dukan; verbatimCoordinates: 35\u00b056'59\"N, 44\u00b057'38\"EType status:Other material. Location: county: Chamchamal; locality: Goptapa Village; verbatimCoordinates: 35\u00b051'00\"N, 44\u00b050'07\"EType status:Other material. Location: county: Dukan; locality: Chami Razan Valley; verbatimCoordinates: 35\u00b048'03\"N, 44\u00b058'38\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"EType status:Other material. Location: county: Kalar; locality: Awa Khwery; verbatimCoordinates: 34\u00b053'30\"N, 45\u00b033'29\"EReverdin, 1913CB23C105-8CA9-5362-9FF4-D64743141542Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EReverdin, 1913C346BA24-6621-51DE-96F8-39371D13F584Type status:Other material. Location: county: Chwarta; municipality: Basn\u00ea; locality: Upper D\u00ear\u00ea; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets et.al. 2014; Event: eventDate: 21-Jun-20; Record Level: basisOfRecord: PreservedSpecimenType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets etal. 2014; Event: eventDate: 10-Aug-20; Record Level: basisOfRecord: PreservedSpecimenFirst record for Iraq2D313E12-204D-58A1-9BAC-312E4545FA4AType status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"E721F97B5-6EF6-5A92-ABCA-27C68D40B96EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EE50C6867-41F1-52B8-97B5-C68CEB82B944Type status:Other material. Location: county: Chuarta; locality: Shanakhs\u00ea Village; verbatimCoordinates: 35\u00b058'37\"N, 45\u00b031'11\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Chuarta; locality: Little Bar\u00ea Village; verbatimCoordinates: 35\u00b053'02\"N, 45\u00b040'07\"EC3742920-EC1C-5681-83A1-B2F7AC4D6307Type status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E980DA679-1E1B-54FE-AEB1-955E9340269DType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"EType status:Other material. Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"ECF4DFB30-CC29-5F02-B5A2-CDD0B2AF055AType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E0F4F4752-AA89-5478-BC8A-4B2967C2FE35Type status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E9E6F9750-53A1-5D73-B484-75591F23ED05Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EE02D5E0F-AD44-51E8-93AF-B87575CD9A0AType status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EBC816D21-13B0-5A54-96E9-03494F635B44Type status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EDD1AA476-3466-5D23-8E1C-1670835741B1Type status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EF62984C9-9DE4-5349-B0C1-109301E60BBAType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EC8B2A13B-05DD-5667-994E-D63F726806D7Type status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"EF50B8E52-B0AC-5882-85DF-12A28A4CCA0AType status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 2 males; Location: county: Bakrajo; municipality: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets et al. 2014 & Bayta\u015f 2007; Event: eventDate: 14-May-20; Record Level: basisOfRecord: PreservedSpecimenFirst record for IraqAB50C740-1013-5567-86BD-3124B95D6F93Type status:Other material. Location: county: Chuarta; locality: Shanakhs\u00ea Village; verbatimCoordinates: 35\u00b058'37\"N, 45\u00b031'11\"EType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E9A467315-09EF-5FB8-9A94-0B1F2B91E7E4Type status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Goyzha; verbatimCoordinates: 35\u00b034'57\"N, 45\u00b028'09\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Halabja; locality: Zalm Village; verbatimCoordinates: 35\u00b018'53\"N, 46\u00b005'07\"E08518401-1FDC-5CD5-9657-D8F9779F5016Type status:Other material. Location: county: Dukan; locality: Upper Dukan; verbatimCoordinates: 35\u00b056'59\"N, 44\u00b057'38\"EType status:Other material. Location: county: Chamchamal; locality: Goptapa Village; verbatimCoordinates: 35\u00b051'00\"N, 44\u00b050'07\"EType status:Other material. Location: county: Dukan; locality: Chami Razan Valley; verbatimCoordinates: 35\u00b048'03\"N, 44\u00b058'38\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EA1BC242D-8C3E-58AD-A76B-1C6BB1CA8872Type status:Other material. Location: county: Dukan; locality: Upper Dukan; verbatimCoordinates: 35\u00b056'59\"N, 44\u00b057'38\"EType status:Other material. Location: county: Chamchamal; locality: Goptapa Village; verbatimCoordinates: 35\u00b051'00\"N, 44\u00b050'07\"EType status:Other material. Location: county: Dukan; locality: Chami Razan Valley; verbatimCoordinates: 35\u00b048'03\"N, 44\u00b058'38\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E9E7FA5B6-8FF2-52F2-8F73-355160292BCFType status:Other material. Location: county: Ranya; locality: Sarkapkan; verbatimCoordinates: 36\u00b021'04\"N, 44\u00b046'24\"EType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Chuarta; locality: Shanakhs\u00ea Village; verbatimCoordinates: 35\u00b058'37\"N, 45\u00b031'11\"EType status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Penjwen; locality: Sya Gwez Village; verbatimCoordinates: 35\u00b048'37\"N, 45\u00b047'33\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"ELinnaeus, 17584CB87121-22CD-5697-9FEE-3CBD4EB2723DType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Kalar; locality: Awa Khwery; verbatimCoordinates: 34\u00b053'30\"N, 45\u00b033'29\"ELinnaeus, 17588CECF23E-2EEF-527C-892A-8DB984EC6C94Type status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E0A4FBE97-C41A-521A-972B-2FC9AA6B7A19Type status:Other material. Location: county: Ranya; locality: Sarkapkan; verbatimCoordinates: 36\u00b021'04\"N, 44\u00b046'24\"EAA45CC9D-29FF-5838-8A85-C202FF1F4D73Type status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E1587F301-609C-5138-985D-4371CD78E4B6Type status:Other material. Location: county: Chamchamal; locality: Goptapa Village; verbatimCoordinates: 35\u00b051'00\"N, 44\u00b050'07\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EB59C59C9-282B-5A7A-9654-504290F3355BType status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"E005550A4-19F0-5FD5-842A-B651B275CA20Type status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Chuarta; locality: Little Bar\u00ea Village; verbatimCoordinates: 35\u00b053'02\"N, 45\u00b040'07\"EType status:Other material. Location: county: Mawat; locality: Mokaba; verbatimCoordinates: 35\u00b045'26\"N, 45\u00b025'41\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E8CA274E5-AEB3-5FC8-84E7-D9215F75699CType status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 1 male, 2 females; Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets etal. 2014; Event: eventDate: 12-Sep-20; Record Level: basisOfRecord: PreservedSpecimenFirst record for IraqHerrich-Sch\u00e4ffer, 1850FFD6851D-DEFB-55B2-9E87-4DF57BC44A5FType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"E38F8DA10-E271-56A7-8D90-0E9D7D0C256DType status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EType status:Other material. Location: county: Darbandikhan; locality: Sartak; verbatimCoordinates: 34\u00b056'45\"N, 45\u00b046'32\"EType status:Other material. Location: county: Kalar; locality: Awa Khwery; verbatimCoordinates: 34\u00b053'30\"N, 45\u00b033'29\"EA17472A5-6CBE-533A-A89E-F46024C37844Type status:Other material. Location: county: Penjwen; locality: Penjwen; verbatimCoordinates: 35\u00b036'09\"N, 45\u00b057'48\"ED6DA5F04-D749-5DDA-917F-9626F54DAFECType status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 2 males; Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets etal. 2014; Event: eventDate: 4-May-21; Record Level: basisOfRecord: PreservedSpecimenFirst record for IraqABCEF433-40CF-5887-869B-D19D147E6FC9Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E81DCDB13-81C9-59F7-AE24-E02FC9EEF4D8Type status:Other material. Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"EStaudinger, 1860D9D64BCB-8AEB-5EB5-9F65-091424FB3838Type status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 1 male; Location: county: Said Sadiq; locality: Naw\u00ea Village; verbatimCoordinates: 35\u00b024'42\"N, 45\u00b057'59\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets etal. 2014; Event: eventDate: 27-Oct-17; Record Level: basisOfRecord: PreservedSpecimenFirst record for Iraq501E98B6-55BB-5735-9C4E-6400BADECD71Type status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"E652E4B83-81F8-555E-BB7B-42D9B82F4A2DType status:Other material. Location: county: Ranya; locality: Sarkapkan; verbatimCoordinates: 36\u00b021'04\"N, 44\u00b046'24\"EType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Dukan; locality: Upper Dukan; verbatimCoordinates: 35\u00b056'59\"N, 44\u00b057'38\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Chamchamal; locality: Goptapa Village; verbatimCoordinates: 35\u00b051'00\"N, 44\u00b050'07\"EType status:Other material. Location: county: Dukan; locality: Chami Razan Valley; verbatimCoordinates: 35\u00b048'03\"N, 44\u00b058'38\"EType status:Other material. Location: county: Mawat; locality: Mokaba; verbatimCoordinates: 35\u00b045'26\"N, 45\u00b025'41\"EType status:Other material. Location: county: Mawat; locality: Qaiwan Village; verbatimCoordinates: 35\u00b042'01\"N, 45\u00b025'03\"EType status:Other material. Location: county: Penjwen; locality: Penjwen; verbatimCoordinates: 35\u00b036'09\"N, 45\u00b057'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"E59902F06-7A2D-507F-B056-AF9855F85BCBType status:Other material. Location: county: Barzinja; locality: Basak Village; verbatimCoordinates: 35\u00b033'30\"N, 45\u00b042'57\"EKlug, 18296E7F946C-A1E1-5B44-83D0-FECBE97F577AType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EBBE7AEBC-D119-570B-A4FA-112A6EA15CB1Type status:Other material. Location: county: Ranya; locality: Sarkapkan; verbatimCoordinates: 36\u00b021'04\"N, 44\u00b046'24\"EType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Mawat; locality: Mokaba; verbatimCoordinates: 35\u00b045'26\"N, 45\u00b025'41\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E9348651C-D295-5D87-B5D3-87EF8948C866Type status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Barzinja; locality: Basak Village; verbatimCoordinates: 35\u00b033'30\"N, 45\u00b042'57\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EType status:Other material. Location: county: Said Sadiq; locality: Naw\u00ea Village; verbatimCoordinates: 35\u00b024'42\"N, 45\u00b057'59\"EType status:Other material. Location: county: Halabja; locality: Zalm Village; verbatimCoordinates: 35\u00b018'53\"N, 46\u00b005'07\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"EBC12FB61-8309-50C2-A7A1-EF4A006E71DBType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EStaudinger, 1901DA743377-A90C-5A4C-8D3E-A88794DEAF9DType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"E4314CC83-00E0-5672-9455-146F46EBDF82Type status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Mawat; locality: Balkha Village; verbatimCoordinates: 35\u00b047'09\"N, 45\u00b022'47\"E290E6791-658D-5FDF-B4F7-32AA42D064A3Type status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E0EAB179E-3C96-56FD-9ED5-F49CBE2DD4A3Type status:Other material. Location: county: Mawat; locality: Mokaba; verbatimCoordinates: 35\u00b045'26\"N, 45\u00b025'41\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E2B9088EE-D9AB-5011-8157-98B0373534ACType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Penjwen; locality: Goll\u00ea Resort; verbatimCoordinates: 35\u00b046'31\"N, 45\u00b049'54\"EType status:Other material. Location: county: Sulyamaniyah; locality: Goyzha; verbatimCoordinates: 35\u00b034'57\"N, 45\u00b028'09\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EType status:Other material. Location: county: Kalar; locality: Awa Khwery; verbatimCoordinates: 34\u00b053'30\"N, 45\u00b033'29\"E17B59791-23B4-5F59-96A1-288EE0DACAFBType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"ECED16726-EA1D-5F03-BF05-86D3DB990573Type status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"E1CBDED23-CFAC-505D-8D33-55C42F7B13FCType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EC068E71C-7327-53FD-9030-0BAF3FDAE6D0Type status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"E8B89871B-CC3E-5978-B598-0721B3B22C30Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Sulyamaniyah; locality: Goyzha; verbatimCoordinates: 35\u00b034'57\"N, 45\u00b028'09\"E201352C4-0BDC-5668-88BE-5C00AB616FC5Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Penjwen; locality: Goll\u00ea Resort; verbatimCoordinates: 35\u00b046'31\"N, 45\u00b049'54\"EKlug, 18346FD55369-A778-572E-A173-C1AABA0BAD9FType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EAA1E221F-0CC2-55EA-BB93-8FD64D33B241Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Goyzha; verbatimCoordinates: 35\u00b034'57\"N, 45\u00b028'09\"Evon Rottemburg, 177548698AF7-2915-59F6-BC34-DE237D84E18CType status:Other material. Location: county: Chuarta; locality: Shanakhs\u00ea Village; verbatimCoordinates: 35\u00b058'37\"N, 45\u00b031'11\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E3335AE52-2404-556B-A74B-508B04D5474FType status:Other material. Location: county: Penjwen; locality: Sya Gwez Village; verbatimCoordinates: 35\u00b048'37\"N, 45\u00b047'33\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"ED33AB2A0-BD05-56F0-8CF3-06E220EBDCB2Type status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"E67CCC776-F211-509D-A227-5FD01D4BD5F8Type status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 1 male; Location: county: Barzinja; locality: Basak Village; verbatimCoordinates: 35\u00b033'30\"N, 45\u00b042'57\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets etal. 2014; Event: eventDate: 5-May-16; Record Level: basisOfRecord: PreservedSpecimenFirst record for IraqE44CEE20-A1F4-567F-BBDF-E9435B4B30CBType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"E(Fabricius 1787).D42B3D57-1B27-5CF1-BD84-0D944F7A35D3Type status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E4AAC4DC0-6C1F-5A63-8632-AE63BE318C8DType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E8F581935-81D0-595F-801A-F132493814C5Type status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E81AAF4DD-94AD-509E-A6E9-99E11C445BCCType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E9BB4A2A6-C5BF-5E85-901F-C65DBC83B4F9Type status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"Evon Rottemburg, 1775166A5327-4E20-5D07-A8C6-73617D6A5B95Type status:Other material. 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Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"EWyatt, 1969ED90C0D3-E44D-59B6-8F06-749028AC093FType status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 1 male; Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 45\u00b057'38\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Tshikolovets etal. 2014; Event: eventDate: 21-Jun-20; Record Level: basisOfRecord: PreservedSpecimenFirst record for Iraq.E9ABA8D2-C1F8-5196-A48A-443C1A41EF3BType status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E2267F894-F92F-576E-B26D-0D16FE3BC8E5Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"E5F5F3A7F-628C-5C49-A6D7-2FC79030A572Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EKollar, [1849]8A30FD5C-C1BC-54C4-866F-3641CF155BFBType status:Other material. Location: county: Chuarta; locality: Little Bar\u00ea Village; verbatimCoordinates: 35\u00b053'02\"N, 45\u00b040'07\"EType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E4CC45272-1102-5FF8-9FF2-8A70EB09D3E5Type status:Other material. Location: county: Sulyamaniyah; locality: Qlyasan; verbatimCoordinates: 35\u00b034'41\"N, 45\u00b022'01\"EE4B8572F-03BA-5B1E-845E-2677EBA8482CType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"ED1107299-105A-561C-8E3A-F848026D1634Type status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"EB5367D38-EE07-56FF-8B59-4633EF0BE996Type status:Other material. 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Location: county: Penjwen; locality: Penjwen; verbatimCoordinates: 35\u00b036'09\"N, 45\u00b057'48\"EType status:Other material. Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"EC31719C5-CCE6-5E7D-BCC5-458941AC7CEAType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E5C05DEC3-AA00-5A31-A986-33FA6E5FC134Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"ECC5D312E-F3EA-50A4-BFFC-EA273396B719Type status:Other material. 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Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"E9D457FD5-DF32-5383-8AFE-E9E788DD78E6Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EC5900C19-FFD3-57B6-9CEC-D4D1D909DB0CType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Penjwen; locality: Sya Gwez Village; verbatimCoordinates: 35\u00b048'37\"N, 45\u00b047'33\"EE7B37E1F-366C-53E7-BCB0-08DA2A29A21AType status:Other material. Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"EType status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E2FE3B218-B836-58DE-AC69-F6FF9BD36AC7Type status:Other material. 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Location: county: Penjwen; locality: Sya Gwez Village; verbatimCoordinates: 35\u00b048'37\"N, 45\u00b047'33\"EType status:Other material. Location: county: Penjwen; locality: Penjwen; verbatimCoordinates: 35\u00b036'09\"N, 45\u00b057'48\"EType status:Other material. Location: county: Halabja; locality: Sargat Village; verbatimCoordinates: 35\u00b017'34\"N, 46\u00b006'18\"EType status:Other material. Location: county: Halabja; locality: Byara; verbatimCoordinates: 35\u00b013'47\"N, 46\u00b007'13\"EE089A69D-8DA2-5638-A4E9-AA8245939297Type status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EE042A080-CA6C-59AF-9ABD-B82954F82FDFType status:Other material. Location: county: Dukan; locality: Sargalw ; verbatimCoordinates: 35\u00b052'44\"N, 45\u00b009'49\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E5EC545B3-0B9A-53ED-A5E3-AECA5596B004Type status:Other material. Location: county: Mawat; locality: Mawat; verbatimCoordinates: 35\u00b053'10\"N, 45\u00b023'59\"E75F215EC-866A-56D4-B6EB-F4B1DCD65E9AType status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 1 female; Location: county: Mawat; locality: Galala Village; verbatimCoordinates: 35\u00b053'58\"N, 45\u00b019'51\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Eckweiler 2012, Tshikolovets et al. 2014 & Tikhonov et al. 2020; Event: eventDate: 11-Jun-20; Record Level: basisOfRecord: PreservedSpecimenType status:Other material. Occurrence: recordedBy: F. A. Khudhur; sex: 1 male; Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E; Identification: identifiedBy: Farhad A. Khudhur; identificationReferences: Eckweiler 2012, Tshikolovets et al. 2014 & Tikhonov et al. 2020; Event: eventDate: 6-Jun-20; Record Level: basisOfRecord: PreservedSpecimenFirst record for Iraq.109B9937-BFAA-51A4-BE90-4451C747E842Type status:Other material. Location: county: Chuarta; locality: Upper D\u00ear\u00ea Village; verbatimCoordinates: 35\u00b056'08\"N, 44\u00b057'38\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"E52046FE5-7042-5DE8-9264-E0C0038125AFType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Qareh Dagh; locality: Qareh Dagh Mount.; verbatimCoordinates: 35\u00b014'27\"N, 45\u00b022'12\"E2D94AB28-2EC8-51AE-8DB2-585A5870637AType status:Other material. Location: county: Dukan; locality: Upper Dukan; verbatimCoordinates: 35\u00b056'59\"N, 44\u00b057'38\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Bakrajo; locality: Hazarmerd; verbatimCoordinates: 35\u00b029'56\"N, 45\u00b018'54\"E773664AD-8BEB-5940-A347-049425582107Type status:Other material. Location: county: Ranya; locality: Sarkapkan; verbatimCoordinates: 36\u00b021'04\"N, 44\u00b046'24\"EType status:Other material. Location: county: Pishdar; locality: Sh\u00ean\u00ea Village; verbatimCoordinates: 36\u00b017'00\"N, 45\u00b016'01\"EType status:Other material. Location: county: Dukan; locality: Qamchukha Village; verbatimCoordinates: 35\u00b053'51\"N, 45\u00b000'51\"EType status:Other material. Location: county: Chamchamal; locality: Goptapa Village; verbatimCoordinates: 35\u00b051'00\"N, 44\u00b050'07\"EType status:Other material. Location: county: Dukan; locality: Chami Razan Valley; verbatimCoordinates: 35\u00b048'03\"N, 44\u00b058'38\"EType status:Other material. Location: county: Dukan; locality: Z\u00eaw\u00ea (Piramagroon Mount.); verbatimCoordinates: 35\u00b045'41\"N, 45\u00b014'17\"EType status:Other material. Location: county: Mawat; locality: Mokaba; verbatimCoordinates: 35\u00b045'26\"N, 45\u00b025'41\"EType status:Other material. Location: county: Sulyamaniyah; locality: Hawary Shar Park; verbatimCoordinates: 35\u00b036'41\"N, 45\u00b025'48\"EType status:Other material. Location: county: Sulyamaniyah; locality: Azady Park; verbatimCoordinates: 35\u00b034'02\"N, 45\u00b025'51\"EType status:Other material. Location: county: Barzinja; locality: Basak Village; verbatimCoordinates: 35\u00b033'30\"N, 45\u00b042'57\"EType status:Other material. Location: county: Bakrajo; locality: Kany Pan; verbatimCoordinates: 35\u00b033'03\"N, 45\u00b018'00\"EType status:Other material. Location: county: Bazyan; locality: D\u00eal\u00eazha; verbatimCoordinates: 35\u00b027'36\"N, 45\u00b011'26\"EType status:Other material. Location: county: Said Sadiq; locality: Naw\u00ea Village; verbatimCoordinates: 35\u00b024'42\"N, 45\u00b057'59\"EType status:Other material. Location: county: Darbandikhan; locality: Sartak; verbatimCoordinates: 34\u00b056'45\"N, 45\u00b046'32\"EPieridae; Pieriskrueperi, Gonepteryxrhamni and Coliaserate. The five others were two skippers, Carcharodusstauderi and Thymelicushyrax; two Nymphalids Brenthismofidii and Pseudochazaramamurra and a lycaenid butterfly Polyommatusthersites. All of these new records were predicted to be found here, since Sulaymaniyah is located near to the known distribution range of these species (Carcharodusstauderi, Gonepteryxrhamni and Pseudochazaramamurra. Furthermore, several other rarely found species were collected from Piramagroon Mountain, including Favoniusquercus, Satyriumgerhardi, Hyponephelewagneri, Hyponephelelupine, Parargeclimene and Erynnismarloyi. Therefore, this mountain deserves further investigations and will be the next focus for our future work.This study is first intensive faunistic study of butterfly in Sulaymaniyah Province. The diverse topography and ecosystems in Sulaymaniyah Province contributes to the richness in its biodiversity . In part species . Several species indicate"} +{"text": "P\u00fcschmann This led to some of the HRMS data being incorrect for compounds reported in the manuscript. The correct values for the affected compounds are listed below:The authors regret that the HRMS data in the original manuscript were erroneously reported as being acquired in FD4a) HRMS: (LIFDI\u2212) calcd for [C38H44GeO2]\u2212 (M\u2212): 606.25586. Found: 606.3292.Dimesityldimesitoylgermane (4b) HRMS: (LIFDI\u2212) calcd for [C32H32GeO2]\u2212 (M\u2212): 522.16196. Found: 522.2216.Dimesityldibenzoylgermane (o-toluoyl)germane (4c) HRMS: (LIFDI\u2212) calcd for [C34H36GeO2]\u2212 (M\u2212): 550.19326. Found: 550.2034.Dimesityldi(4e) HRMS: (LIFDI\u2212) calcd for [C36H32O2S2Ge]\u2212 (M\u2212): 634.10555. Found: 634.1927.Dimesityldibenzothiophenegermane (\u00a0The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers."} +{"text": "In deze studie werd dit model getest in een cohort van pati\u00ebnten die systematische biopten, MRI-gerichte biopten of beide ondergingen.Pati\u00ebnten met prostaatkanker (PCa) kunnen geselecteerd worden voor zenuwsparende robotgeassisteerde radicale prostatectomie (RARP) middels voorspellingsmodellen voor extraprostatische extensie (EPE). In 2019 hebben Soeterik et al. een H. Veerman, M.W. Heymans, P.J. van Leeuwen, A.N. Vis en H.G. van der PoelNederlands Kanker Instituut \u2013 Antoni van Leeuwenhoek, Amsterdameasy-to-use voorspellingsmodel met MRI-tumorstadium ontwikkeld en extern gevalideerd voor zijdespecifieke EPE. In deze studie werd dit model getest in een cohort van pati\u00ebnten die systematische biopten, MRI-gerichte biopten of beide ondergingen.Pati\u00ebnten met prostaatkanker (PCa) kunnen geselecteerd worden voor zenuwsparende robotgeassisteerde radicale prostatectomie (RARP) middels voorspellingsmodellen voor extraprostatische extensie (EPE). In 2019 hebben Soeterik et al. een area under the curve (AUC), calibration-in-the-large en calibratiecurves.Een prospectief verzameld cohort van 1170 opeenvolgende pati\u00ebnten die RARP ondergingen in twee hoogvolumecentra tussen 2018 en augustus 2021 werd retrospectief onderzocht. Alle pati\u00ebnten ondergingen een MRI-scan voor de operatie. De diagnose PCa werd gesteld met systematische biopten, MRI-targeted biopten of beide. Met het Soeterik-nomogram werd de zijdespecifieke kans op EPE berekend voor elke prostaathelft met complete data . Modeldiscriminatie en -kalibratie werden onderzocht middels de Pathologische EPE werd vastgesteld in 30% van de prostaathelften. De gemiddelde voorspelde kans op EPE was ook 30%. De onderscheidende waarde van het model was goed ). De voorspelde kans kwam goed overeen met het geobserveerde percentage van EPE met een intercept van -0,02 en een helling van 1,053. Er was onderschatting van het geobserveerde percentage EPE vanaf een voorspelde kans van 70%. De klinische consequentie van deze onderschatting is discutabel aangezien zenuwsparende chirurgie doorgaans wordt afgeraden bij deze drempelwaarde in verband met de kans op positieve snijvlakken. Zie figuur Het Soeterik-nomogram heeft een goede fit op een grote groep Nederlandse pati\u00ebnten. Het nomogram kan binnen Nederland goed gebruikt worden om pati\u00ebnten te selecteren voor zenuwsparende prostatectomie.D. Meijer, A.N. Vis, M.J. Roberts, P.M. van de Ven, H.G. van der Poel, M.L. Donswijk, T.N. Boellaard, I.G. Schoots, D.E. Oprea-Lager en P.J. van LeeuwenAmsterdam Universitair Medische Centra, locatie VUmc, AmsterdamHet preoperatief voorspellen van de kans op pelviene lymfe-kliermetastasen (pN1-ziekte) is cruciaal om pati\u00ebnten te selecteren die in aanmerking komen voor een uitgebreide pelviene lymfeklierdissectie (ePLND), ten tijde van de radicale prostatectomie (RALP). Het doel van deze studie was een nieuw prognostisch model te ontwikkelen om de kans op pN1-ziekte te voorspellen bij pati\u00ebnten met gelokaliseerd prostaatkanker, bestaande uit klinische en histologische parameters, alsmede de uitkomsten van preoperatieve beeldvormende technieken, zoals de MRI- en de PSMA PET-scan.area under the curve (AUC). Deze werd vergeleken met de prognostische waarde van bestaande nomogrammen, zoals het MSKCC- en het Briganti-nomogram.Alle 680 pati\u00ebnten die een PSMA PET- en MRI-scan ondergingen, voorafgaand aan de RALP met ePLND werden ge\u00efncludeerd. Door middel van een logistische regressieanalyse werd een prognostisch model ontwikkeld. De voorspellende waarde van dit nieuwe nomogram werd onderzocht met behulp van de In totaal hadden 175/680 pati\u00ebnten (26%) pelviene lymfekliermetastasen bij histopathologische evaluatie. Het nieuwe nomogram bestond uit de initi\u00eble PSA-waarde, radiologisch T-stadium op MRI, hoogste biopsie Grade Group (GG), biopsietechniek (MRI-targeted versus systematisch), percentage systematische biopten met klinisch significant prostaatkanker (GG \u2265 2) en bevindingen op de PSMA PET-scan. De AUC voor het voorspellen van pN-ziekte was 0,80 met het nieuwe model, vergeleken met 0,69 met zowel het MSKCC-nomogram en het Briganti-nomogram. Zie figuur Het nieuwe nomogram voor het voorspellen van pN1-ziekte is ontwikkeld in pati\u00ebnten met gelokaliseerd prostaatkanker, en bestaat uit klinische en histologische parameters, aangevuld met de resultaten van de MRI-scan en de PSMA PET-scan. Het nieuwe nomogram blijkt superieur aan alle bestaande nomogrammen en zorgt voor het (terecht) nalaten van een pelviene lymfeklierdissectie bij een substantieel deel van de pati\u00ebnten.A.P. Lambregts, A.J. Nieuwhof-Leppink, A.J. Klijn en R.P.J. SchroederUniversitair Medisch Centrum Utrecht, UtrechtEen overactieve blaas met urine-incontinentie bij kinderen heeft een grote impact op de dagelijkse activiteiten en kwaliteit van leven. In sommige gevallen reageert een overactieve blaas niet op urotherapie en anticholinergica. Vanwege de succesvolle uitkomsten bij de behandeling van een neurogene blaas, bieden intravesicale botulinetoxineinjecties een mogelijke oplossing bij kinderen die ongevoelig zijn voor therapie. In deze studie analyseren we de uitkomsten van botulinetoxine-injecties op blaasvolume en incontinentie bij kinderen met een overactieve blaas.Van 50 kinderen die waren gediagnosticeerd met een uitbehandelde niet-neurogene overactieve blaas die botulinetoxine-injecties ontvingen werden de dossiers retrospectief geanalyseerd. Het functionele blaasvolume wordt uitgedrukt als percentage van de verwachte blaascapaciteit voor de leeftijd. Respons wordt beschreven als verbetering in urge-incontinentie na botulinetoxine-injecties. Er werd een multivariate analyse uitgevoerd om voorspellers aan te tonen voor de respons.p = 0,000). 72% van de kinderen liet een verbetering in urinecontinentie zien op de korte termijn en 46% op de lange termijn (> 6 maanden). Het mannelijk geslacht en een klein uitgangsblaasvolume voorspelden een goede uitkomst op continentie op de lange termijn. De meest voorkomende complicatie was een urineweginfectie, die optrad bij zes kinderen (12%). Zie figuur Er werden 50 kinderen ge\u00efncludeerd met een mediane leeftijd 9,9 jaar met een man-vrouwratio van 1:4. Op de korte termijn (< 6 maanden) werd een significante groei van het functionele blaasvolume gezien met een mediaan van 52,9 naar 70% op dag 6-10 na behandeling werd een non-inferieure marge van 10% gekozen. De studie was geregistreerd in Trialregister.nl (NTR6449).Een dubbelblind gerandomiseerde, placebogecontroleerde studie werd uitgevoerd in 15 Nederlandse ziekenhuizen. Volwassen vrouwen ontvingen 2-5 dagen empirische intraveneuze antibiotica voor een Na inclusie van 97 pati\u00ebnten tussen 2017 en 2020, eindigde de studie voortijdig vanwege de COVID-19-pandemie. 50% van de pati\u00ebnten hadden een bacteriemie. De primaire uitkomstmaat werd bereikt bij 36/48 pati\u00ebnten in de fosfomycinegroep en 30/46 pati\u00ebnten in de ciprofloxacinegroep. Secundaire uitkomstmaten waren microbiologische genezing (negatieve urinekweek) op dag 6-10, klinische genezing op dag 30-35 en bijwerkingen van de therapie. Zie figuur 4.1.E. coli bij vrouwen. Fosfomycinegebruik was geassocieerd met meer gastro-intestinale bijwerkingen.Fosfomycine is non-inferieur aan ciprofloxacine voor de uitbehandeling van gecompliceerde urineweginfecties met L.P.W. Witte, M.T. Forss, K. Bolsunovskyi, T.P. Kilpel\u00e4inen, Y. Lee, Y. Aoki, S. Gudjonsson, F. Herv\u00e9, P. J\u00e4rvinen, S. Malde, J. Sairanen, L. Sander, G.H. Guyatt en K.A.O. TikkinenOndanks de hoge incidentie van hydroceles bij volwassenen, hebben urologische beroepsverenigingen geen formele richtlijnen voor de behandeling hiervan. Ons doel was om internationale praktijkvariatie in de behandeling van een hydrocele bij volwassenen in kaart te brengen. Postoperatieve complicaties komen vaak voor na hydrocelectomie en recidieven komen vaak voor na aspiratie (met of zonder sclerotherapie).We hebben een internationaal onderzoek uitgevoerd naar de behandeling van een hydrocele onder urologen in Belgi\u00eb, Denemarken, Finland, IJsland, Japan en Nederland van september 2020 tot december 2020. We identificeerden urologen uit de registers van de landelijke urologische beroepsverenigingen en selecteerden willekeurig 170 urologen en urologen in opleiding uit elk deelnemend land . Behalve in Finland en Japan (postenqu\u00eate), vulden alle deelnemers een e-mailenqu\u00eate in.Van de 864 gecontacteerde urologen deden er 437 (51%) mee. Van de respondenten was 28% vrouw en 19% uroloog in opleiding en had 52% zowel hydrocelectomie\u00ebn, als aspiraties uitgevoerd. In Belgi\u00eb (83%), Denemarken (55%) en Nederland (75%), voerden urologen het vaakst hydrocelectomie\u00ebn uit, terwijl in Finland (84%), Japan (61%) en IJsland (91%) de meeste urologen zowel hydrocelectomie\u00ebn als aspiraties uitvoerden. Urologen gaven de voorkeur aan een hydrocelectomie voor een grote hydrocele (80% vs. 38% voor kleine), jongere pati\u00ebnten (67% voor pati\u00ebnten < 50 jaar vs. 42% voor 70 jaar of meer), pati\u00ebnten met weinig of geen comorbiditeit (65% vs. 24% voor pati\u00ebnten met multipele comorbiditeit) en pati\u00ebnten zonder bloedverdunners (55% vs. 37% voor pati\u00ebnten met bloedverdunners). Zie figuur We vonden een grote variatie in de klinische praktijk met betrekking tot de behandeling van een hydrocele bij volwassenen binnen en tussen landen. Toekomstige studies en richtlijnen zijn nodig om deze variatie te verminderen en de behandeling van een hydrocele te standaardiseren wereldwijd.T. van Doeveren, B.K. Somani en S.M. HaenselFranciscus Gasthuis, RotterdamPediatric Urology 2021 voorziet in adviezen, maar er blijven veel onduidelijke elementen bestaan over diagnostiek en behandeling. Om navolging van de richtlijn in kaart te brengen en internationale routines te vergelijken, werd een online vragenlijst afgenomen.Torsio testis is een acute diagnose en de meest voorkomende oorzaak van irreversibele testiculaire ischemie bij kinderen en adolescenten. Snelle diagnostiek en een juiste behandeling kan blijvende schade voorkomen. De EAU richtlijn respondenten). De vragenlijst bestond uit 18 vragen over diagnostiek, therapie en demografie en werd ingeleid met een casus.De online vragenlijst werd via de NVU en een internationaal netwerk verspreid onder urologen en a(n)ios en 30,4% controleert dit met echo-Doppler. Torsio testis wordt door 76,5% van de respondenten gezien als een indicatie voor spoedchirurgie; 57% verricht een Winkelmann-plastiek. Fixatie van de getordeerde testis wordt door 77,2% verricht, waarbij 29,4% aangeeft de contralaterale testis alleen te fixeren bij een bewezen torsie. Opvallend is dat 28,0% van de Nederlandse respondenten een torsio testis niet als spoedoperatie behandelt, tegen slechts 12,4% internationaal. Verder blijkt 31,4% van de Nederlandse respondenten de testis niet te fixeren; tegenover 3,4% van de buitenlandse urologen. Zie tabel 6.1.De respondenten volgen in de diagnostiek en behandeling van torsio testis meestal de EAU-richtlijn. Wel blijkt er sprake van uiteenlopende meningen over manuele detorsie, gebruik van echografie in de diagnostiek, de timing van operatie en het fixeren van de contralaterale testis. Gezien het belang van de juiste behandeling is het belangrijk om de richtlijn op sommige punten aan te passen en uit te breiden, en deze vervolgens zo goed mogelijk op te volgen voor een eensgezind beleid.B.J. Bos, N.A.M. van Merode, M.S. Steffens en L.P.W. Witte Isala Ziekenhuis, ZwolleEr zijn verschillende behandelopties voor mannen met klachten van een chronische urineresidu (CUR). Wij hebben in kaart gebracht welke behandelingen pati\u00ebnten ondergingen en wat de gerelateerde complicaties waren.single-center, retrospectieve studie werden alle mannen ge\u00efncludeerd met klachten van een niet-neurogeen CUR van > 150 ml gedurende ten minste vier maanden tussen 2014 en 1 september 2020.Voor deze Curatieve behandeling. Van de 50 pati\u00ebnten die met een curatieve intentie werden behandeld, kreeg 1 pati\u00ebnt SNM en 49 pati\u00ebnten (28%) prostaatdesobstructie. Hierna kon 33% stoppen met katheteriseren . Palliatieve behandeling. Als eerste behandelstap werd gekozen voor CIC, CAD, SPC of watchful waiting (WW) in respectievelijk 20, 74, 6 en 0% van de gevallen. Als definitieve behandeling werd gekozen voor CIC, CAD, SPC en WW in respectievelijk 31, 21, 35 en 13% van de gevallen. Pati\u00ebnten ondergingen een mediaan van drie behandelstappen (range 1-18) tot de definitieve behandeling werd bereikt. Complicaties. Katheterisatie geeft significant meer kans op een urineweginfectie en macroscopische hematurie dan WW jaar. Het mediane residu na mictie was 158 ml. De gemiddelde IPSS was 17 \u00b1 8 en de IPSS-QoL was 3 \u00b1 1,5. De mediane follow-up was 68 (1-319) maanden waarin acht (1-51) ziekenhuiscontacten plaatsvonden. \u03b1-blokkers en 5-\u03b1-reductaseremmers werden gebruikt door 67 en 38% van de mannen. Katheterisatie bij CUR kan gepaard gaan met complicaties. Een geselecteerde groep pati\u00ebnten met een CUR zou voordeel kunnen hebben van een prostaatdesobstructie en daardoor kunnen stoppen met katheteriseren.A.J. Seinen, R. Elburg, L.M. Hollegien, M.H. Blanker en L.P.W. WitteIsala Ziekenhuis, ZwolleIn de dagelijkse praktijk kunnen de effectiviteit en de tolerantie van behandelingen voor overactieve blaas (OAB) per pati\u00ebnt verschillen. Daarnaast duurt het vaak weken tot maanden voordat het effect van een behandeling kan worden beoordeeld. Dit leidt niet tot een snelle vermindering van klachten, maar juist tot een verminderde kwaliteit van leven en extra kosten. Het doel van dit onderzoek was inzicht te krijgen in de behandelingen die pati\u00ebnten met OAB ondergaan, van diagnose tot uiteindelijke behandeling.single-center, retrospectieve cohortstudie van vrouwelijke pati\u00ebnten, < 18 jaar, met de diagnose OAB. De inclusieperiode liep van 1 januari 2014 en 30 september 2016. De follow-up eindigde wanneer een pati\u00ebnt een bevredigend behandeleffect ondervond en geen verdere behandeling nodig had, of op 1 januari 2020. De keuze voor een behandeling werd gemaakt door de pati\u00ebnt en de uroloog samen. Het aantal, de volgorde en de duur van de aangeboden behandelstappen werden geanalyseerd.Het betrof een Er werden 120 pati\u00ebnten ge\u00efncludeerd. De aangeboden behandelingen en de volgorde van behandelingen is weergeven in figuur De meeste pati\u00ebnten proberen ten minste twee behandelingen voordat ze een bevredigende verlichting van OAB ervaren. Evaluaties van de behandeling vergen tijd, omdat de duur tot therapeutisch effect verschilt per pati\u00ebnt en per behandeling. Onze bevindingen kunnen helpen bij het scheppen van re\u00eble verwachtingen voor pati\u00ebnten bij het zoeken naar een behandeling voor OAB.D. Meijer, R.M. Mohede, W.S.C. Eppinga, B.G.L. Vanneste, P. Meijnen, O.W.M. Meijer, L.A. Daniels, R.C.N. van den Bergh, A.P. Lont, R.H. Ettema, F.H.K. Oudshoorn, P.J. van Leeuwen, H.G. van der Poel, M.L. Donswijk, D.E. Oprea-Lager, E.E. Schaake en A.N. VisAmsterdam Universitair Medisch Centrum, AmsterdamDe prostaatspecifiek membraanantigeen (PSMA) PET/CT heeft zijn diagnostische waarde voor het beter detecteren van ziektelokalisaties van prostaatkanker bij pati\u00ebnten met een biochemisch recidief (BCR) na robotgeassisteerde radicale prostatectomie (RALP) inmiddels ruimschoots bewezen. De pati\u00ebntselectie die op dit moment nog lokale salvagebehandeling ondergaat, zoals salvage radiatietherapie (SRT), is daarmee ook veranderd. Hypothetisch gezien zouden pati\u00ebnten die PSMA-geleide SRT ondergaan mogelijk betere oncologische uitkomsten hebben dan pati\u00ebnten die \u2018blinde\u2019 SRT ondergaan. Het doel van deze studie was dan ook om de oncologische uitkomsten na SRT te vergelijken tussen pati\u00ebnten die wel, en pati\u00ebnten die geen PSMA PET/CT-scan hebben ondergaan voor BCR-prostaatkanker.case-control matching toegepast.Om deze oncologische uitkomsten te vergelijken tussen beide groepen, werd een historisch non-PSMA-cohort (2010-2015) vergeleken met een PSMA-cohort (2016-2020). Alle pati\u00ebnten ondergingen SRT zonder hormonale therapie. De primaire uitkomstmaat was biochemische progressie een jaar na SRT, gedefinieerd als een PSA-waarde van 0,2 ng/ml of hoger boven de nadir na SRT. Om de uitkomsten beter te kunnen vergelijken, werd p = 0,018).Van de 610 pati\u00ebnten die werden ge\u00efncludeerd in deze studie, bleven er na het matchen nog 106 over in elk cohort, met een mediane PSA-waarde ten tijde van SRT van 0,3 ng/ml. In totaal hadden 30/212 pati\u00ebnten (14%) biochemische progressie van de ziekte, een jaar na SRT. In het historisch cohort was dit 20% (21/106 pati\u00ebnten) vergeleken met 8% (9/106 pati\u00ebnten) in het PSMA-cohort komen voor bij 60% van de pati\u00ebnten. Het optimale behandelschema om blaaskrampen te voorkomen is onbekend.transverse abdominis plane (TAP)-blok, met clonidine of ketamine, of een penisblok, of perivesicale infiltraties, en/of periurethrale infiltraties met ropivaca\u00efne 20 ml 0,25%. De groepsgrootte (n = 42) was gepowered op 50% reductie van blaaskrampincidentie. Middels logistische regressie en linear mixed models werden verschillen tussen de blaaskrampincidentie (ja/nee), ernst en algehele pijn op de verkoeverkamer onderzocht.Er werd een prospectieve cohortanalyse uitgevoerd. Pati\u00ebnten met bioptbewezen prostaatkanker, die waren behandeld met RARP tussen januari 2017 en april 2020 werden ge\u00efncludeerd. Combinaties werden vergeleken van algehele anesthesie en een p = 0,001). Ten opzichte van het baselineprotocol werd een lagere incidentie van blaaskrampen gevonden in de groep met TAP-blok en perivesicale injecties en de groep met TAP-blok en periurethrale injecties . Er werden geen significante verschillen gevonden tussen alle protocollen met perivesicale en/of periurethrale injecties. Wanneer alle protocollen met perivesicale en/of periurethrale injecties werden vergeleken met alle protocollen zonder deze injecties, werd een reductie van 23% van de blaaskramp in de eerdere groep gevonden Er werden geen verschillen in pijnscore gevonden tussen de protocollen. Zie figuur 391 pati\u00ebnten werden onderzocht in acht opeenvolgende cohorten. Een combinatie van TAP-blok, perivesicale en periurethrale injecties leidde tot de laagste incidentie van blaaskramp en vergeleken met het baselineprotocol (TAP-blok) leidde deze combinatie tot een daling van 49% beelden verbeteren het begrip van de precieze locatie van de tumor in de prostaat ten opzicht van tweedimensionale beelden. Deze studie onderzocht of op MRI gebaseerde 3D-prostaatmodellen de preoperatieve planning van zenuwsparing (ZS) bij robotgeassisteerde radicale prostatectomie (RARP) be\u00efnvloeden.Van 20 pati\u00ebnten met bioptbewezen, gelokaliseerd prostaatkanker (< cT3b) die een RARP hadden ondergaan werden 3D-modellen gemaakt. Een uro-radioloog teken-de de PC, het kapsel, de urethra en vesicula seminales in op axiale T2-gewogen 3 Tesla MRI-coupes. Hiervan werden virtuele en 3D-geprinte modellen gemaakt. Zeven RARP-urologen schatten de mate van mogelijke circumferenti\u00eble ZS per prostaathelft (0-6) in op basis van MRI, virtuele en 3D-prints. Een relevant verschil in planning tussen MRI en de 3D-modellen werd gedefinieerd als een verschil van \u2265 3. Middels de intraclass correlatiecoeffici\u00ebnt (ICC) werd de overeenstemming in geschatte ZS tussen urologen onderzocht. Tevens werd de locatie van de indexlaesie (grootste laesie of hoogste Gleason-score) en de locatie van mogelijke extraprostatische extensie (EPE) volgens radiologische intekening vergeleken met het pathologieverslag. Zie figuur Een relevant verschil in planning van ZS werd gevonden in 70/280 (25%) van de gevallen tussen MRI en virtuele 3D-modellen en in 73/280 (26%) van de gevallen tussen MRI en 3D-prints. De overeenstemming tussen urologen in geschatte ZS was hoger met de 3D-modellen dan met MRI ; ICC virtuele modellen 0,52 ; ICC 3D-prints 0,58 ). De locatie van de indexlaesie van de 3D-modellen en het radicale prostatectomiepreparaat kwam overeen bij 19/20 (95%) van de pati\u00ebnten. De locatie van EPE kwam overeen bij 7/7 (100%) pati\u00ebnten.3D-modellen zorgen voor beter inzicht in de tumorlokalisatie en planning van zenuwsparing bij RARP. De 3D-modellen veranderen de zenuwsparing in 1/4 van de gevallen en zorgen voor een hogere overeenstemming tussen urologen.D.J.H. Baas, W. Vreuls, V. Gorden, B. van Uijthoven, M. Wouters, J.P.M. Sedelaar, H.J.E.J. Vrijhof, R.J. Hoekstra, M.A.J. van Zanten, F. Mange, J.P.A. van Basten en D.M. SomfordCanisius Wilhelmina Ziekenhuis, NijmegenRadicale resectie bij mannen die een robotgeassisteerde radicale prostatectomie (RARP) ondergaan, is essentieel om het risico op een recidief te minimaliseren. Behoud van de neurovasculaire bundels (NVB) geeft een grotere kans op positieve snijvlakken, maar vergroot de kans op behoud van erectiele functie. In enkele centra wordt intraoperatieve beoordeling van de snijvlakken middels vriescoupe (NeuroSAFE) aangeboden. Het doel van dit onderzoek was te evalueren of intraoperatieve snijvlakbeoordeling middels confocale lasermicroscopie (CLM) een geschikt alternatief is voor NeuroSAFE.Tussen mei en augustus 21 werden 20 NeuroSAFE-pati\u00ebnten gelijktijdig ge\u00ebvalueerd middels CLM. De Histolog\u00ae-scanner werd gebruikt om prostaatweefsel te scannen. Na de prostatectomie werden aan de posterolaterale zijde van de prostaat twee kapjes gesneden, na bewerking gescand met de Histolog\u00ae-scanner en beoordeeld op beeldkwaliteit door een getrainde pathologielaborant. Vervolgens werden de kapjes in 4-6 lamellen gesneden en ook gescand. De lamellen werden vervolgens ge\u00efnkt en verder verwerkt voor NeuroSAFE volgens protocol. De snijvlakken in vriescoupes werden als positief of negatief beoordeeld door een uro-patholoog. De CLM-beelden werden beoordeeld door \u00e9\u00e9n getrainde uropatholoog.Er werden 40 kapjes geanalyseerd. Drie pati\u00ebnten hadden extracapsulaire extensie op MRI. Zes pati\u00ebnten hadden een enkelzijdig positief snijvlak volgens NeuroSAFE. Vier van de zes NeuroSAFE-positieve pati\u00ebnten waren ook positief bij CLM-beoordeling. Bij \u00e9\u00e9n pati\u00ebnt kon het CLM-beeld niet worden beoordeeld vanwege cauterisatie-effect. Bij de andere pati\u00ebnt was het prostaatweefsel niet volledig gescand. De mediane proceduretijd voor NeuroSAFE bedroeg 45 minuten en voor CLM 22 minuten.CLM is een veelbelovende techniek voor intraoperatieve snijvlakbeoordeling. Een gerandomiseerde studie is nodig om de niet-inferioriteit ten opzichte van intraoperatieve vriescoupes vast te stellen en om het langetermijneffect op de oncologische resultaten te evalueren.J.M. Moll, W.J. Teubel, S.E. Erkens, A. Jozefzoon-Agai, N.F. Dits, A. van Rijswijk, W.M. van Weerden en G.W. Jenster Franciscus Gasthuis & Vlietland, RotterdamMaximale androgeenblokkade (MAB) met eerstegeneratie antiandrogenen geeft bij uitgezaaid prostaatcarcinoom (PC) slechts een minimale winst ten opzichte van androgeendeprivatie (ADT) alleen. Tweedegeneratie antiandrogenen tonen wel een klinisch betekenisvolle meerwaarde. In deze studie hebben wij vier hormoongevoelige PC-modellen onderworpen aan ADT of MAB met eerste of tweedegeneratie antiandrogeen om verschillen in het ontstaan van CRPC en het biologisch gedrag bij progressie te bestuderen.n = 10) of MAB met bicalutamide (n = 10), flutamide (n = 10) of RD162 (n = 5), een analogon van enzalutamide en apalutamide. Karakterisering van CRPC-cellijnen vond plaats met behulp van AR-groeirespons door middel van blootstelling aan een titratiereeks androgeen met of zonder antiandrogenen en qPCR voor kritieke genen in de cascades van AR, AR-V7, hormoonproductie, glucocortico\u00efdreceptor, EMT en WNT.4 AR positieve cellijnen werden na verdeling over individuele kweekbakken blootgesteld aan ADT . De AR groeirespons van CRPC verschilde per originele cellijn: VCaP was sterk AR-responsief, DuCaP was AR-hypersensitief, PC346C was zwak AR-responsief en LAPC4 was AR-onafhankelijk. Gestratificeerd naar originele cellijn, was er geen verschil in AR-groeirespons tussen CRPC na ADT of MAB. Expressie van SNAI1 en WNT5A is hoger bij onbehandelde PC346C en stijgt in de andere modellen bij het ontstaan van CRPC. In LAPC4 gaat de AR-cascade verloren.Het ontstaan van een CRPC-lijn verschilde per cellijn: VCaP 19/35, DuCaP 15/35, PC346C 34/35, LAPC4 15/35, Zowel de eigenschappen van de primaire tumor als het gebruik van tweedegeneratie antiandrogenen zijn bepalend voor de kans op het ontstaan en het biologisch gedrag van CRPC. Resistentie tegen bicalutamide en flutamide ontstaat makkelijker dan tegen RD162. Er zijn echter geen verschillen gemeten in biologisch gedrag tussen ADT en MAB.O.P.J. Vrooman en M.R. van BalkenRijnstate ziekenhuis ArnhemDe behandeling van benigne prostaathyperplasie met transprostatische implantaten is tot op heden veelal onder algehele anesthesie of sedatie toegepast. Met de toegenomen druk op OK-faciliteiten en om de behandeling maximaal minimaal invasief te maken, onderzochten we of deze behandeling ook onder lokale anesthesie goed kon worden uitgevoerd.Numeric Rating Scale (NRS) met range 0-10 de pijnscore gemeten. Alle mannen die behandeld werden tot 20 april 2021 werden daarnaast ge\u00efncludeerd ter analyse van de verbetering ten aanzien van de initi\u00eble mictieklachten, zodat de resultaten na drie maanden follow-up beschikbaar waren. De behandelde mannen werden terug gezien na zes weken en drie maanden met een IPSS/QoL-score.Alle mannen die werden behandeld tussen 3 november 2020 en 1 juni 2021 werden ge\u00efncludeerd ter analyse van hun pijnbeleving tijdens de ingreep onder lokale anesthesie uitgevoerd in dagopname. Premedicatie betrof ciprofloxacine (500 mg), paracetamol (1000 mg), naproxen (250 mg) en midazolam 7,5 mg (< 70 jaar) of 3,75 mg (> 70 jaar). 20 minuten voor de start van de behandeling werd gekoelde (4 \u00b0C) chloorhexidine/lidoca\u00efne gel (22 ml) ingebracht en met een penisklem werd de urethra afgesloten. Na afloop van iedere behandeling werd met behulp van een Er werden 29 mannen behandeld. De leeftijd bedroeg 69,0 jr. \u00b1 9,5 (mean \u00b1 SD). Het prostaatvolume bedroeg 37 \u00b1 9,8 ml. Het aantal gebruikte implantaten was 3,1 \u00b1 1,0. Bij vier mannen (14%) werd een katheter geplaatst na de procedure, 27 van de 29 mannen (93%) gingen dezelfde dag naar huis, twee bleven langer vanwege hematurie. De NRS van de 29 mannen bedroeg 3,8 . De verbetering van de IPSS-scores en toename van de QoL toonden ook onder lokale anesthesie een significante verbetering. Zie tabel Ondanks dat er nog sprake is van een leercurve blijkt dat het goed mogelijk is om transprostatische implantaten te plaatsen onder lokale anesthesie. Dit maakt de kosten lager zonder dat dit ten koste gaat van de kwaliteit van de behandeling en er wordt minder gebruikgemaakt van schaarse operatiekamer en/of sedatiecapaciteit.J. Bosveld, P.A. Hornung, A.J. Klijn en R.P.J. Schroeder Universitair Medisch Centrum Utrecht, UtrechtPhimosis is een aandoening van de voorhuid waarbij de voorhuid niet teruggetrokken kan worden. Bij de geboorte is dit een fysiologisch verschijnsel, maar op latere leeftijd kan phimosis pathologisch zijn. Traditioneel is besnijdenis, na topicaal corticostero\u00efdgebruik, de operationele behandeling van eerste keuze. De laatste jaren is er in verschillende landen een toenemende weerstand tegen het besnijden van kinderen. Bijgevolg is een toenemende tendens om in de plaats daarvan een preputiumplastiek uit te voeren. De huidige literatuur geeft geen uitsluitsel over welke operatieve benadering de voorkeur verdient. Daarom wordt in deze studie gekeken naar de langetermijneffecten van een preputiumplastiek bij kinderen met phimosis.dorsal slit. Kinderen die waren gediagnosticeerd met hypospadie of een begraven penis, evenals pati\u00ebnten met een eerdere voorhuidoperatie werden ge\u00ebxcludeerd. Het primaire resultaat van de preputiumplastiek was positief wanneer de voorhuid maanden na de operatie teruggetrokken kon worden.Een retrospectieve cohortstudie werd uitgevoerd bij jongens jonger dan 18 jaar met phimosis, die in ons ziekenhuis een preputiumplastiek ondergingen tussen 1 januari 2011 en 1 januari 2020. De uitgevoerde preputiumplastiektechnieken bestonden uit een meervoudige Z-plastiek, een (meervoudige) Y-V-plastiek en een (meervoudige) In totaal werden 176 pati\u00ebnten in onze studie opgenomen. Er waren 40 pati\u00ebnten met klachten van (recidiverende) balanitis. 62 van alle pati\u00ebnten hadden een ernstige phimosis. 21 van hen werden gediagnosticeerd met lichen sclerose. 139 pati\u00ebnten waren primair behandeld met topische corticostero\u00efden. Het resultaat van de preputiumplastiek was positief bij 163 pati\u00ebnten (93%). Twee pati\u00ebnten ontwikkelden wonddehiscentie en \u00e9\u00e9n pati\u00ebnt kreeg een infectie na de uitgevoerde plastiek. Van de 13 pati\u00ebnten (7%) met een negatieve uitkomst werd in acht gevallen een circumcisie verricht en in vier gevallen nogmaals een preputiumplastiek uitgevoerd.Preputiumplastiek is een haalbare operatieve behandeloptie bij pathologische phimosis.A. van Uitert, E.C.J. van de Wiel, J. Ramjith, J. Deinum, H.J.L.M. Timmers, J.A. Witjes, L.J. Schultze Kool en J.F. Langenhuijsen Radboudumc, Nijmegen2 is. Om de pati\u00ebntselectie verder te verbeteren, hebben we een preoperatief nomogram ontwikkeld om de operatieduur en complexiteit te voorspellen bij pati\u00ebnten die een indicatie hebben voor PRA.Posterieure retroperitoneale adrenalectomie (PRA) heeft meerdere voordelen ten opzichte van de transabdominale laparoscopische benadering op het gebied van operatieduur, bloedverlies, postoperatieve pijn en herstel. Het kan echter een technisch uitdagende procedure zijn. Volgens de internationale consensus komen pati\u00ebnten in aanmerking voor PRA als ze geopereerd moeten worden aan een goedaardige bijniertumor \u2264 7 cm en hun BMI < 35 kg/m2 was. De primaire uitkomstmaat was operatieduur als surrogaat voor chirurgische complexiteit. Door middel van 10 variabelen werd een predictiemodel gemaakt. Vervolgens werd door mid del van best-subsets regressieanalyse het beste \u00e9\u00e9n-variabeletot zeven-variabelenmodel gezocht.Alle pati\u00ebnten die een unilaterale PRA hebben ondergaan tussen februari 2011 en maart 2020 zijn ge\u00efncludeerd in de studie. Pati\u00ebnten kwamen in aanmerking voor PRA als ze geopereerd moesten worden aan een goedaardige bijniertumor van \u2264 7 cm en de BMI < 35 kg/m2 van 38,6. In dit model werden geslacht, feochromocytoom, BMI en peri-nefrisch vet meegenomen, alle significante voorspellers voor de operatieduur.Er werden 215 pati\u00ebnten ge\u00efncludeerd, met een gemiddelde leeftijd van 52 jaar en een gemiddelde tumorgrootte van 2,4 cm. Na de best-subsets regressieanalyse werd het vier-variabelenmodel geselecteerd en gekalibreerd, die de beste balans liet zien tussen voorspellende kracht en toepasbaarheid met een ROm de preoperatieve pati\u00ebntselectie voor PRA te verbeteren, hebben we een vier-variabelennomogram ontwikkeld om de operatieduur te voorspellen. Als het nomogram een langere operatieduur voorspelt en dus een complexere operatie, zou de transabdominale benadering overwogen moeten worden, aangezien deze meer werkruimte geeft. Tevens kan het nomogram gebruikt worden voor trainingsdoeleinden om pati\u00ebnten te selecteren met gunstige kenmerken voor urologen die PRA willen leren.S.M.H. Einerhand, N. van Dijk, J. van Dorp, J.M. de Feijter, M.L. van Montfoort, M.W. van de Kamp, T.N. Boellaard, K. Hendricksen, M.S. van der Heijden en B.W.G. van Rhijn Antoni van Leeuwenhoek \u2013 Nederlands Kanker Instituut, AmsterdamDe slechte uitkomsten van pati\u00ebnten met stadium III-urotheelcarcinoom (d.w.z. cT3-4aN0M0 of cT1-4N+M0 UC), zelfs na neoadjuvante/inductie chemotherapie (NAIC), tonen het belang van effectievere systemische behandeling. We vergeleken de effectiviteit van NAIC met combinatie-immuuntherapie (ICI) bij pati\u00ebnten die in ons instituut werden behandeld in 2018 en 2019.n = 24) of gemcitabine-carboplatin. Uitkomsten waren complete pathologische respons , complete pathologische downstaging , progressievrije overleving en overleving.Data van pati\u00ebnten die waren behandeld met NAIC werden verzameld uit onze prospectieve database. Pati\u00ebnten die niet in aanmerking kwamen voor cisplatine of dit weigerden, werden behandeld met ICI (ipilimumab-nivolumab) in de NABUCCO-studie of gemcitabine-carboplatin (n = 10). Pati\u00ebnt- en tumorkarakteristieken \u2013 onder andere leeftijd, Charlson Comorbidity Index, ASA-score en nierfunctie \u2013 verschilden niet significant tussen de behandelgroepen. NAIC werd bij 11 pati\u00ebnten (13%) vroegtijdig afgebroken vanwege progressie (n = 6) of toxiciteit (n = 5). ICI werd bij zes pati\u00ebnten (25%) na twee cycli afgebroken vanwege toxiciteit . Na NAIC ondergingen pati\u00ebnten chirurgie of chemoradiatie en konden zeven pati\u00ebnten (10%) geen consoliderende behandeling ondergaan vanwege progressie (n = 5) of toxiciteit (n = 2). Na ICI ondergingen alle pati\u00ebnten chirurgie. Na chirurgie (n = 74) werd pCR door respectievelijk 11 (22%) NAIC- en 11 (48%) ICI-pati\u00ebnten bereikt . pCD werd door respectievelijk 17 (35%) NAIC- en 14 (58%) ICI-pati\u00ebnten bereikt . Pati\u00ebnten die waren behandeld met NAIC kregen vaker progressie . Mediane (IQR) follow-up was 26 (20-32) maanden. In het gehele cohort (n = 107) was ICI geassocieerd met betere PFS en overleving . Zie figuur NAIC bestond uit een cisplatinegebaseerd regime om prostaatvolume te bepalen vergeleken met een prostatectomiepreparaat.Het gebruik van multiparametrische MRI en Een prospectieve studie met pati\u00ebnten die MRI en TRUS hadden ondergaan alvorens een robotgeassisteerde prostatectomie tussen januari 2020 en mei 2021 in Nederland. Prostaatmetingen werden verkregen door TRUS en MRI met de ellipso\u00efde formule. Resultaten werden vergeleken met het prostaat preparaat. Maximale interval tussen MRI, TRUS en prostatectomie was 6 maanden.concordance correlation coefficient (CCC) van 0,81 en 0,83. Regressieanalyse en Bland-Altman-analyse toonden acceptabele accuraatheid vergeleken met het prostaatpreparaat: R2 = 0,83 voor TRUS en R2 = 0,77 voor MRI. Metingen waren accurater in kleinere prostaten < 50 g: 31,2 cc (TRUS), 32,4 cc (MRI) en 40,9 g (preparaat) met 97% (TRUS) en 90% (MRI) van de metingen binnen 20 cc afwijking van het preparaat. Voor grotere prostaten, \u2265 50 g, waren gemiddelden 62,2 cc (TRUS), 67,8 cc (MRI) en 79,6 g (preparaat). Accuraatheid was minder met 58% (TRUS) en 69% (MRI) binnen 20 cc afwijking van het prostaatgewicht.214 pati\u00ebnten werden ge\u00efncludeerd met een gemiddelde leeftijd van 66,2 jaar. Het gemiddelde prostaatvolume werd onderschat met zowel TRUS als MRI vergeleken met het prostaatpreparaat . Dit resulteerde in een 22% onderschatting en 16% onderschatting voor respectievelijk TRUS en MRI. Correlatie was goed met een Pearsons correlatieco\u00ebffici\u00ebnt van 0,91 (TRUS) en 0,88 (MRI) en een Prostaatvolume gemeten door MRI en TRUS hebben vergelijkbare uitkomsten en een acceptabele voorspelling van het prostaatvolume. Zowel TRUS als MRI toonde onderschattingen van het prostaatvolume. MRI-metingen waren dichter bij het daadwerkelijke prostaatvolume, echter, het verschil met TRUS was klein. Beide modaliteiten kunnen ingezet worden en toegespitst worden op de voorkeur van de arts, beschikbaarheid en het lokale protocol of de voorkeur.H.A. de Barros, M.L. Donswijk, M.N. van Oosterom, J.J.M.A. Hendrikx, F.W.B. van Leeuwen, H.G. van der Poel en P.J. van Leeuwen Antoni van Leeuwenhoek, Amsterdam, Prostaatkankernetwerk NederlandOp prostaatspecifieke membraanantigeen (PSMA) gebaseerde radiogeleide chirurgie (RGC) is een veelbelovende techniek voor de detectie van prostaatkanker (PK)-laesies tijdens open salvagechirurgie. Toepassing van RGC bij robotgeassisteerde PK-chirurgie vraagt echter om nieuwe technologie. Doel van dit onderzoek was te evalueren of de geminiaturiseerde DROP-IN-gammaprobe robotgeassisteerde PSMA-RGC mogelijk maakt bij mannen met een recidief PK.99mTechnetium-gelabeld PSMA ligand (99mTc-PSMA-I&S). Primair werd de haalbaarheid van robotgeassisteerde PSMA-RGC onderzocht. Ook vond vergelijking van radioactiviteitmetingen en histologie plaats. Het PSA-gehalte werd 6-8 weken na chirurgie bepaald.In dit eerste prospectieve, in vivo haalbaarheidsonderzoek naar robotgeassisteerde RGC bij recidiverend PK werden 20 pati\u00ebnten met \u2264 2 PK-recidieven in het kleine bekken op PSMA PET/CT ge\u00efncludeerd (NCT03857113). Robotgeassisteerde PSMA-RGC met de DROP-IN-probe vond plaats 19-23 uur na intraveneuze toediening van een Ten tijde van chirurgie bedroeg de mediane leeftijd 68 jaar (IQR 66-72) en was het mediane PSA 1,02 ng/ml . Met behulp van de DROP-IN-probe konden 19 van de 21 (90%) preoperatief ge\u00efdentificeerde laesies robotgeassisteerd gereseceerd worden met een mediane operatieduur van 128 min (IQR 103-157). Op laesieniveau bedroeg de sensitiviteit van PSMA-RGC 86% en de specificiteit 100%. Een PSA-daling > 50% en een PSA < 0,2 ng/ml werd waargenomen bij respectievelijk 12 van de 18 (67%) en drie van de 18 (17%) pati\u00ebnten. Zie figuur De DROP-IN-probe maakt robotgeassisteerde PSMA-RGC mogelijk. Middels deze procedure kunnen PK-laesies zeer specifiek gedetecteerd en gereseceerd worden.J.A. van der Leun, R.P.J. Schroeder, G. Tsachouridis, L. Hermsen en E. de BruijnWilhelmina Kinderziekenhuis, Utrechtclean intermittent catheterisation (CIC), antimuscarinica en antibioticaprofylaxe is dan ge\u00efndiceerd. Momenteel is het onbekend hoeveel pati\u00ebnten met SBO langdurige CIC nodig hebben. Het doel van deze studie was om dit aantal te identificeren. Daarnaast worden eventuele voorspellende factoren onderzocht.Spina bifida occulta (SBO) is een aangeboren aandoening van de wervelkolom waarbij het neurale weefsel alleen bedekt is met huid. De ernst van urologische symptomen is hierbij zeer heterogeen. Het slechtste scenario is een neurogene blaas met detrusor-sfincterdyssynergie, wat kan leiden tot nier schade. Preventieve behandeling middels Deze retrospectieve cohortstudie evalueert alle SBO-pati\u00ebnten die waren behandeld in het Wilhelmina Kinderziekenhuis tussen 1990 en 2020. Inclusiecriteria waren: minderjarige (0-18) SBO-pati\u00ebnten met minstens vier jaar follow-up. Alle pati\u00ebnten van wie gegevens over de diagnose, de uitkomst of de initi\u00eble behandeling ontbraken, werden ge\u00ebxcludeerd. Pati\u00ebnten werden verdeeld in twee groepen op basis van de primaire uitkomst: wel of geen gebruik van CIC aan het eind van de follow-up. Baselinekenmerken en data van drie UDO\u2019s werden uit het elektronisch medisch dossier verzameld en vergeleken. Analyse werd uitgevoerd met gebruik van de chi-kwadraattoets, de Fisher-exact-, de Mann-Whitney-U- of de T-test.Er werden 36 pati\u00ebnten ge\u00efncludeerd. De mediane (IQR) leeftijd bij diagnose was 2,00 maanden. De mediane (IQR) follow-up was 13,4 jaar. Aan het einde van de follow-up gebruikten 13 pati\u00ebnten CIC. Van de pati\u00ebnten die geen CIC gebruikten, waren 11 pati\u00ebnten nooit begonnen en 12 patienten gestopt. Op baseline waren er geen significante verschillen tussen de groepen. Het tweede UDO, bij een mediane (IQR) leeftijd van 29,27 maanden, toonde een significant hoger mediaan postmictie residuvolume in de CIC-groep: 72,00 ml vs. 11,00 ml .Ten minste een derde van alle SBO-pati\u00ebnten heeft langdurige CIC-behandeling nodig. Daarnaast is er een significant hoger postmictieresidu in de CIC-groep.J.G. Heetman, P.D. Polm, T.F.W. Soeterik, J. Lavalaye, P.E.F. Stijns, L. Wever, H.H.E. van Melick en R.C.N. van den BerghSt. Antonius Ziekenhuis, Nieuwegeinactive surveillance (AS) blijft een uitdaging. Bij het gebruik van de huidige klinische parameters zoals MRI en gerichte biopten vindt er in 30-40% van de gevallen Gleason-upgrading plaats na prostatectomie. Het gebruik van 68GA-PSMA-PET/CT kan mogelijk lokale informatie toevoegen op moleculair niveau, en zo mogelijk de risico-inschatting verbeteren.Pati\u00ebntselectie voor 68Ga-PSMA-PET/CT. Er werden aanvullende biopten afgenomen bij een PSMA-laesie (SUVmax > 4) indien die eerder niet zichtbaar was op de MRI en/of niet was gesampled met de systematische en/of gerichte biopten. De studie is gepowered om een upgrading van 10% te detecteren. Hiervoor zijn 141 pati\u00ebnten nodig.De prospectieve cohortstudie PASPoRT includeert pati\u00ebnten met een diagnose prostaatkanker < 6 maanden met een indicatie voor AS. Alle deelnemers hebben een mpMRI ondergaan en vervolgens zijn er systematische en bij een zichtbare laesie, gericht biopten afgenomen. Vervolgens kregen alle pati\u00ebnten een max is 4,60. Aanvullende biopten werden bij 25 pati\u00ebnten (29%) afgenomen. Van deze pati\u00ebnten werden er 9 (10%) ge\u00fcpgraded . De gemiddelde SUVmax van de ge\u00fcpgrade groep is 7,81 en 5 pati\u00ebnten hadden een PIRADS 1 of 2 op de mpMRI. In een multivariabele regressieanalyse zijn de SUVmax en een lage PIRADS-score geassocieerd met Gleason-upgrading. PSA, prostaatvolume en prostaatdensity hebben geen significant verband. In deze groep zijn op de PSMA PET/CT-scan geen metastasen gevonden.Tot nu toe zijn er 86 pati\u00ebnten ge\u00efncludeerd. De gemiddelde leeftijd is 67 jaar en het gemiddelde PSA is 6,66. Van alle pati\u00ebnten hadden 17 (20%) een cT2 bij toucher en 5 (6%) een ISUP GG2. De gemiddelde SUVOnze voorlopige resultaten laten zien dat de toevoeging van PSMA-PET/CT, met aanvullende biopten van eerder niet zichtbare laesies, in potentie een toegevoegde waarde heeft bij pati\u00ebnten met laagtot gemiddeld-risico prostaatkanker die eerder al een mpMRI hebben gehad, met name bij pati\u00ebnten bij wie op de MRI geen afwijking zichtbaar was.L. Cools Paulino Pereira, A. Kums, P.M. Hennus en J. Beck Diakonessenhuis, UtrechtHoewel eerder is aangetoond dat het plaatsen van stents voorafgaand aan een ureterorenoscopie veilig is met weinig complicaties, wordt plaatsing geassocieerd met postoperatieve gecompliceerde urineweginfecties. Eerdere studies hebben de correlatie onderzocht tussen preoperatief geplaatste dubbel-J-stents en toename van bacteri\u00eble kolonisatie en bacteriurie; de associatie met toename van postoperatieve gecompliceerde urineweg-infecties blijft echter onduidelijk. Het doel van deze studie is te onderzoeken of preoperatieve dubbel-J-stents en de verblijfsduur van deze stents de kans op postoperatieve gecompliceerde urineweginfecties vergroten.Deze retrospectieve studie vond plaats in een ziekenhuis in Nederland. Alle volwassen pati\u00ebnten die een ureterorenoscopie ondergingen in 2019 kwamen in aanmerking voor inclusie. Een deel van deze pati\u00ebnten kreeg preoperatief een dubbel-J-stent, die vervolgens werd verwijderd of vervangen tijdens ureterorenoscopie. Gegevens over pati\u00ebnten, verblijfsduur van de stents en de aanwezigheid van gecompliceerde urineweginfecties werden verzameld. Potenti\u00eble risicofactoren werden ge\u00ebvalueerd middels univariate en multivariate logistische regressiemodellen.p = 0,034). Echter, multivariate logistische regressieanalyse toonde identieke risicofactoren aan voor beide groepen, namelijk: vrouwelijk geslacht, preoperatieve positieve urinekweken en recidief van urolithiasis.83 van de 195 ge\u00efncludeerde pati\u00ebnten hadden preoperatief een dubbel-J-stent gekregen. 41,5% van alle patienten was vrouw; de mediane leeftijd was 56 jaar oud (IQR 38-67). 16,9% van de pati\u00ebnten met een stent werd gediagnosticeerd met een postoperatieve gecompliceerde urineweginfectie, in vergelijking tot 7,1% in de groep zonder preoperatieve stent of niersparende chirurgie voor urotheelcarcinoom van de hogere urinewegen (UTUC) wordt gebaseerd op preoperatieve factoren, zoals spontane en selectieve urinecytologie en tumorgrootte. Literatuur over de voorspellende waarde hiervan is echter beperkt. Deze studie onderzoekt of deze variabelen bruikbaar zijn om de histologische uitkomst na nefro-ureterectomie te voorspellen en om te beoordelen of er vaker gekozen kan worden voor niersparende chirurgie.Alle pati\u00ebnten die een RNU ondergingen voor UTUC tussen 2010 tot 2020 werden ge\u00efncludeerd. De urinecytologie werd geclassificeerd als benigne (TPS \u2264 3) of maligne (TPS 4 of 5) en vergeleken met de histologische bevindingen van de RNU, zijnde laaggradig (graad 1 en 2a) en hooggradig (graad 2b en 3) en stadi\u00ebring .Van de 100 ge\u00efncludeerde RNU-preparaten bleek 65% hooggradig en 46% spierinvasief. Maligne cytologie had een sensitiviteit en specificiteit voor hooggradig UTUC van respectievelijk 60 en 69% en voor spierinvasief UTUC van 67 en 65%. De positief en negatief voorspellende waarde was resp. 78 en 48% voor hooggradig UTUC en 62 en 70% voor spierinvasief UTUC. De gemiddelde tumorgrootte was 4,2 cm bij pati\u00ebnten met een hooggradige UTUC en 3,6 cm bij een laaggradige UTUC. Een grotere tumor (per centimeter) had een odds ratio van 1,35 voor hooggradig UTUC en 1,16 voor spierinvasief UTUC.European Association of Urology worden mogelijk kansen gemist om meer pati\u00ebnten niersparend te behandelen. Deze data kan een argument zijn om in selecte gevallen toch te kiezen voor niersparende behandeling, ondanks de aanwezigheid van hooggradige cytologie of een tumor > 2 cm.Urinecytologie heeft een matige voorspellende waarde voor gradering en invasiviteit van UTUC. Bij pati\u00ebnten met maligne cytologie was in 40% van de gevallen sprake van een laaggradig UTUC en in 33% van niet-spierinvasief UTUC. Tumorgrootte was geassocieerd met tumorgradering, maar niet met tumorstadi\u00ebring. Met de huidige criteria van de A.M.T.J. Heemels, M.R. van Balken, P.C. Weijerman, R. Koot, B. Hendrikx en B.K. KroonRijnstate Ziekenhuis, ArnhemSinds 2014 worden pati\u00ebnten met peniskanker in ons ziekenhuis behandeld vanuit het streven zorg waar mogelijk dichtbij de pati\u00ebnt te organiseren. Een essentieel onderdeel van deze behandeling is de schildwachtklierbiopsie. Hierbij kunnen occulte metastasen in cN0-liezen worden opgespoord. Het doel van deze studie was om de resultaten van de schildwachtklierbiopsie in ons ziekenhuis te evalueren.Vanaf 2014 tot 2021 werden 94 opeenvolgende pati\u00ebnten met een hoog stadium (> T1aG1) peniscarcinoom prospectief in deze studie ge\u00efncludeerd. De gemiddelde leeftijd was 71 jaar (41-99). 88 pati\u00ebnten hadden beiderzijds klinisch onverdachte liezen (cN0). Zes pati\u00ebnten hadden enkelzijdig een onverdachte lies en contralateraal een klierpositieve lies (cN1). Schildwachtklierbiopsie werd verricht in de 182 onverdachte liezen. Behandeling van de primaire tumor werd voorafgaand of in dezelfde sessie verricht. Preoperatief werd een lymfoscintigram gemaakt na injectie met 99mTechnetium-nanocllo\u00efd rondom de tumor of het litteken. De schildwachtklier werd intraoperatief ge\u00efdentificeerd met behulp van een blauwe speurstof en een gammaprobe. Alleen bij een tumorpositieve schildwachtklier werd later een liesklierdissectie uitgevoerd.De mediane follow-up was 23 maanden (2-81). Lymfoscintigrafie visualiseerde ten minste 1 schildwachtklier bij 93 pati\u00ebnten (99% detectie). Er werden 219 schildwachtklieren gevisualiseerd en 238 verwijderd. De schildwachtklier bleek positief bij 13 pati\u00ebnten (15 liezen). Complicaties traden op bij 19% (18/94) van de geopereerde pati\u00ebnten. Bij \u00e9\u00e9n pati\u00ebnt werd na een negatieve schildwachtklierprocedure een tumorpositieve klier in de lies aangetroffen na een follow-up van vijf jaar. Dit resulteerde in een foutnegatief percentage van 7% (1/14). Dit is lager dan gerapporteerd wordt in de literatuur .Schildwachtklierbiopsie bij peniskanker in ons ziekenhuis verloopt succesvol en is veilig: het detectiepercentage is hoog, de sensitiviteit is hoog en de morbiditeit is acceptabel.M. Huijben, M.T.W.T. Lock, V.F. de Kemp, L.M.O. de Kort en H.M.K. van BredaUniversitair Medisch Centrum UtrechtSubfertiliteit bij mannen is een veel voorkomend en wereldwijd probleem. Clomifeencitraat (CC) is een selectieve oestrogeenreceptorblokker en kan de spermakwaliteit verbeteren door de hormoonsynthese en spermatogenese te stimuleren. Er is gebrek aan bewijs over de werkzaamheid van CC als therapie voor mannelijke subfertiliteit. Het doel van deze studie was de effectiviteit en veiligheid van CC voor subfertiele mannen te onderzoeken.single-center studie zijn mannen die met CC werden behandeld vanwege subfertiliteit retrospectief geanalyseerd. De primaire uitkomst was verandering in semenparameters. Secundaire uitkomstenmaten waren evaluatie van totaal testosteron (TT), lute\u00efniserend hormoon (LH) en follikelstimulerend hormoon (FSH), zwangerschap, hemoglobine (Hb), hematocriet (Ht), prostaat specifiek antigeen (PSA), bijwerkingen, potentiele voorspellers voor biochemische en/of klinische respons.In deze p < 0,05). Er waren geen veranderingen in Hb, Ht en PSA tijdens de behandeling. Bij 8% van de pati\u00ebnten traden milde bijwerkingen op tijdens CC-behandeling . Laagnormaal FSH v\u00f3\u00f3r CC-behandeling was voorspellend voor semenverbetering tijdens behandeling.In totaal werden 52 subfertiele mannen behandeld met CC. Bij 6/52 pati\u00ebnten vermeldde de anamnese testosterongebruik of misbruik (2 op medische indicatie). Bij 13/46 pati\u00ebnten (28%) zonder testosterongebruik in de voorgeschiedenis was er sprake van een verbetering van zaadcelconcentratie, bij 22 pati\u00ebnten (48%) van de totale zaadcelmotiliteit en bij 20 pati\u00ebnten (43%) een verbetering van de VCM (volume x progressieve concentratie x motiliteit). Bij 7/13 pati\u00ebnten met verbetering in spermaconcentratie (54%) kwam een zwangerschap tot stand (spontaan of met behulp van inseminatie). Bij alle zes mannen met testosterongebruik in de voorgeschiedenis trad een verbetering van semenkwaliteit op. TT-, FSH- en LH-waarden stegen tijdens behandeling is een alternatieve Er is gebrek aan studies over het gebruik van CC voor mannen met hypogonadisme. Het doel van deze retrospectieve studie was om de effectiviteit en veiligheid van CC voor hypogonadale mannen te evalueren.single-center studie werden mannen die werden behandeld met CC voor hypogonadisme retrospectief geevalueerd. De primaire uitkomst waren hormonale parameters, inclusief totaal testosteron (TT), vrij testosteron (FT), lute\u00efniserend hormoon (LH) en follikelstimulerend hormoon (FSH). Secundaire uitkomstmaten waren hypogonadale symptomen, metabole en lipidenparameters, hemoglobine (Hb), hematocriet (Ht), prostaatspecifiek antigeen (PSA), bijwerkingen en mogelijke voorspellers voor de biochemische en/of klinische respons.In deze In totaal werden 153 hypogonadale mannen behandeld met CC. De mediane behandelduur was 10 maanden (range 1-96). De gemiddelde TT-, FT-, LH- en FSH-waarden stegen tijdens de behandeling. TT steeg van 9 naar 16 nmol/l , waarbij slechts beperkte informatie bekend is over de impact van de leercurve op perioperatieve uitkomsten. In deze studie werden de resultaten sinds de introductie van de RARC in ons ziekenhuis ge\u00ebvalueerd.Alle pati\u00ebnten die tussen februari 2014 en april 2021 een RARC voor blaaskanker ondergingen, werden ge\u00efncludeerd. Pati\u00ebnten ondergingen een in opzet intracorporele urinedeviatie (ICUD) en werden geopereerd door in totaal vier urologen. Primaire uitkomstmaten waren de 30- en 90-dagen-mortaliteit (30dM/90dM), heropnamepercentage (30dH/90dH) en complicatiepercentage volgens Clavien-Dindo (30dC/90dC). Secundaire uitkomstmaten waren snijvlakstatus, operatieduur (OT), bloedverlies (EBL), opnameduur (LoS) en ziektespecifieke overleving (DSS).177 pati\u00ebnten werden ge\u00efncludeerd. De 30dM en 90dM was 1,1% en 5,1%. Het percentage complicaties > 2 volgens Clavien-Dindo was 24,3% zowel na 30 als 90 dagen. De 30dH en 90dH was 22,6% en 23,7%, met minder heropnames in 2019 en 2020. 12 van de 173 ICUD\u2019s moesten worden geconverteerd. Na 2019 werd deze conversie niet meer gezien. Positief snijvlakpercentage was 2,6%. Het mediaan EBL was 400 ml (IQR 250-700), mediane OT was 450 min (IQR 411-490), mediane LoS was 9 dagen (IQR 7-12) en mediane lymfeklieropbrengst was 15 (IQR 11-21). DSS was 31,6% bij een mediane follow-up van 20 maanden. Er werd een afname gezien van de mediane OT van 520 naar 420 minuten. Overige secundaire uitkomstmaten verbeterden minimaal of bleven gelijk bij het doorlopen van de leercurve.De oncologische en perioperatieve resultaten van RARC zijn grotendeels in lijn met de resultaten van grote open radicale cystectomieseries. De 30dC, maar niet de 90dC, lijkt wat hoger te zijn. Verder is de operatieduur langer in vergelijking met de open radicale cystectomie, maar deze nam wel af tijdens de studieperiode. Een evidente impact van de leercurve op de resultaten anders dan operatieduur werd niet geobjectiveerd.A.E. van der West, D. van de Kerkhof, E.L. Koldewijn en T.J.N. HermansCatharina Ziekenhuis, EindhovenDe urine-MCM5-analyse (ADXBLADDER) zou kunnen worden ingezet in de follow-up van het niet-spierinvasief urotheelcelcarcinoom van de blaas (NMIBC). Wij delen de eerste resultaten uit onze praktijk aangaande pati\u00ebnten in de follow-up van hooggradig (HG) NMIBC.Gedurende zes maanden zijn in \u00e9\u00e9n centrum 43 pati\u00ebnten in de follow-up van HG NMIBC geselecteerd middels controle van spreekuren. Pati\u00ebnten werden ge\u00efncludeerd binnen de eerste drie jaar follow-up. Behandelbeleid werd enkel gebaseerd op cystoscopie \u00e9n cytologisch urineonderzoek. Er werd extra urine verzameld voor de ADX-BLADDER-test. Bij klinische verdenking op een recidief werd zo nodig een transurethrale resectie tumor (TURT) verricht. Exclusiecriteria waren een katheterisatie en/of urineweginfectie binnen twee weken voor de ADXBLADDER-test.n = 7), pT1HG (n = 26), CIS (n = 6) en CIS + pTa/1HG (n = 4). Bij 34 pati\u00ebnten werd een re-TURT verricht . Alle pati\u00ebnten kregen een adjuvante behandeling middels chemospoelingen (n = 4), BCG-spoelingen (n = 31) of BCG- en chemospoelingen (n = 8). De gemiddelde follow-up na diagnose was 14 maanden. 10 pati\u00ebnten hadden een positieve ADXBLADDER, waarvan twee klinisch de verdenking hadden op een recidief blaastumor (positief-voorspellende waarde 20%). Hierbij was er een verdenking op persisterend CIS bij cystoscopie en positieve urinecytologie (TPS 5). Omdat er geen klinische consequenties waren, werd er geen TURT verricht (= limitatie). 33 pati\u00ebnten hadden een negatieve ADXBLADDER, waarvan er drie klinisch de verdenking hadden op een recidief blaastumor. Echter, TURT toonde geen carcinoom (negatief-voorspellende waarde 100%). Het lage recidiefpercentage in dit specifieke HG NIMBC-cohort beperkt echter vooralsnog de power van de voorspellende waarden. Zie tabel De primaire pathologie bestond uit: pTaHG (In dit cohortonderzoek had 77% (33/43) van de cystoscopie\u00ebn gereduceerd kunnen worden middels ADXBLADDER. De beperkte power noodzaakt echter tot verdere validatie in een groter HG NMIBC-cohort.B.K. Kroon, M.R. van Balken en H.M. KroonRijnstate ArnhemIn 2016 en 2019 is onderzoek verricht naar de levensverwachting van algemeen chirurgen in Nederland. Deze bleek duidelijk lager dan de gemiddelde levensverwachting van andere hoogopgeleide Nederlanders en ook lager dan die van de gemiddelde Nederlandse medisch-specialist. In deze studie onderzoeken we de levensverwachting van de Nederlandse uroloog.Via de NVU werden geboorte- en sterftedata opgevraagd.De gemiddelde sterfteleeftijd werd berekend. Daarnaast werd de gemiddelde sterfteleeftijd berekend van urologen die hun pensioengerechtelijke leeftijd haalden. Deze cijfers zijn vergeleken met de online beschikbare cijfers van het CBS en verstrekte cijfers van de SPMS.n = 44) werden gemiddeld 81,3 jaar oud . De levensverwachting van de Nederlandse uroloog is 5,1 jaar korten dan van de gemiddelde Nederlandse man . In vergelijking met de hoger opgeleide Nederlandse man is de levensverwachting van de Nederlandse uroloog 9,1 jaar korter en 6,1 jaar korter dan van de hoger opgeleide man die de leeftijd van 65 bereikt heeft . Urologen worden zelfs nog minder oud dan chirurgen: 75,1 vs. 78,1. Gepensioneerde urologen worden gemiddeld 6,6 jaar minder oud dan hun gepensioneerde collega medisch-specialisten . Verdere uitsplitsing van de cijfers per medisch specialisme werd door de SPMS niet verstrekt.Sinds 2010 worden sterftecijfers door de NVU bijgehouden. Op basis van 58 overleden urologen was de gemiddelde levensduur 75,1 jaar . De urologen die hun pensioen haalden (De levensverwachting van Nederlandse urologen is duidelijk lager dan die van andere Nederlanders, hoogopgeleide Nederlanders en medisch-specialisten in het algemeen. Urologen zijn dus net als algemeen chirurgen weinig duurzame medisch-specialisten. Een vervolgstap stap naar mogelijke oorzaken en uiteindelijk verbetering van deze verontrustende uitkomsten zou een vergelijkbare analyse per specialisme zijn om de levensverwachting voor elk specialisme in kaart te brengen."} +{"text": "PMCID: PMC4162138\rPMID: 25221644\rDOI: 10.18632/genesandcancer.24\rThis article has been corrected: The authors agree that Figure"} +{"text": "Scientific Reports 10.1038/s41598-021-89861-6, published online 18 May 2021Correction to: f) legend,The original version of this Article contained an error in the Figure\u00a03 (f) OCR vs ECAR from the mitochondrial stress test assay. Squares: SW948; Circles: SW116.\u201d\u201c(now reads:f) OCR vs ECAR from the mitochondrial stress test assay. Squares: SW1116; Circles: SW948.\u201d\u201c(The original Article has been corrected."} +{"text": "Acta Cryst. (2007), E63, m2536.Corrigendum to et al. , four imidazole H atoms are missing in the refinement.In the article by Li The revised crystal data, data collection and structure refinement details are summarized in Table\u00a01The structure of chlorido\u00adtetra\u00adkis\u00ad(imidazole)\u00adcopper(II) chlo\u00adride, reported in the article by Li al. 2007, has bee10.1107/S2056989021002267/me6126sup1.cifCrystal structure: contains datablock(s) I, global. DOI: 10.1107/S2056989021002267/me6126Isup2.hklStructure factors: contains datablock(s) I. DOI: 2066475CCDC reference: crystallographic information; 3D view; checkCIF reportAdditional supporting information:"} +{"text": "Anoplophora Hope, 1839 (Coleoptera: Cerambycidae: Lamiinae: Lamiini) includes 47 species (without subspecies) occurring in East, South and Southeast Asia. Amongst them, 38 species are known from CHINA. Members of this genus are familiar to Chinese people with a widely-used common name: \u201c\u661f\u5929\u725b [starry longhorn beetle]\u201d. Anoplophora species have great economic importance, attacking and damaging numerous hardwood trees and some coniferous trees.The genus Anoplophorahuangjianbinisp. n. (Coleoptera: Cerambycidae: Lamiinae: Lamiini) is described from Fujian and Guangxi, CHINA. Diagnostic characters of the new species are illustrated and comparison with closely-related congeners is provided.A new species of starry longhorn beetle, Anoplophora Hope, 1839 (Coleoptera: Cerambycidae: Lamiinae: Lamiini) can be separated from allied genera by a combination of the following characters: female sternite VII with lateral notches approximately at the level where the ventral apodeme of sternite VIII attaches; mesotergum consisting of two overlapping plates (as in Monochamus and Eupromus), but overlap evenly and broadly convex laterally, with small notches extending laterally anterior to the base of scutellum; antennal scape with small to large apical cicatrix; and pronotum with posteromedial callus in most species (Anoplophora (Coleoptera: Cerambycidae)\u201d by Anoplophora. Anoplophorasiderea Bi, Chen & Ohbayashi, 2020, A.fanjingensis Yang, Yang & Tian, 2020 and A.puxian Wang & He, 2021 are the latest three species contributing to the genus presented us with a pair of specimens from Fujian, CHINA, which were identified as an unkown species of Anoplophora. Later, more specimens of this species were available to us from different sources, including those from Guangxi, CHINA. Herein, we describe and illustrate it under the name of Anoplophorahuangjianbinisp. n. Therefore, the number of the Anoplophora species from CHINA comes to 39 (without subspecies) (The genus species . Since the genus . Shortlyspecies) . ImportaSpecimens were relaxed and softened in a HH-2 digital homoeothermic water bath at 44.4\u2103 for 14 hours, then transferred to distilled water to clean, observe and dissect. In order to examine the genitalia, the abdomen was detached and treated with a 10% solution of potassium hydroxide (KOH) for 12 hours, then transferred to distilled water to remove the remaining KOH and stop any further bleaching. After examination, the body parts were mounted on a glass slide with Euparal Mounting Medium for future studies. Habitus images were taken using a Canon 50D DSLR with a Canon EF 100 mm f/2.8L IS USM lens and a Canon MT-24EX Macro Twin Lite Flash was used as the light source. Images of the morphological details were taken using a Canon macro photo lens MP-E 65 mm on a Canon 5DsR. Images of the same specimen/structure at different focal planes were combined using Zerene Stacker 1.04 stacking software. Adobe Photoshop CS6 was used for post-processing. The terminology adopted in this paper for external features of the body and genitalia follows CCZC: collection of Chao Zhou, Chengdu, CHINA; CLGS: Collection of Liang Guo, Sanming, CHINA; CLHC: Collection of Li He, Chengdu, CHINA; CJBH: Collection of Jian-Bin Huang, Nanping, CHINA; CPYL: Collection of Peng-Yu Liu, Nanping, CHINA; CTLH: Collection of Tian-Long He, Huainan, CHINA; MYNU: insect collection of Mianyang Normal University, Mianyang, CHINA.The material examined for this study is deposited in the following institutional and private collections: Anoplophorachiangi Hua & Zhang, 1991. CHINA: 1\u2642. CHINA: 1\u26421\u2640, Yunnan, Honghe Hani & Yi Autonomous Prefecture, Lvchun County, Huanglianshan National Nature Reserve [\u9ec4\u8fde\u5c71\u56fd\u5bb6\u7ea7\u81ea\u7136\u4fdd\u62a4\u533a], alt. 1850 m, VI.2019, Tian-Long He leg. (CTLH); 1\u2640, Yunnan, Xishuangbanna Dai Autonomous Prefecture, Mengla County [\u52d0\u814a\u53bf], alt. 1200 m, VIII.2020, Zhong-Xiong Fu leg. (CLHC); 1\u2640, ditto except alt. 800 m, Yi Li leg. (CLHC); 1\u2642, Yunnan, Baoshan City, Tengchong, Yunfeng mountain [\u4e91\u5cf0\u5c71], alt. 971 m, 15.VII.2021, Chen-Yan Jin leg. (CLHC); 3\u2640\u2640, Guangxi, Fangchenggang City, Shangsi County, Shiwandashan National Forest Park [\u5341\u4e07\u5927\u5c71\u56fd\u5bb6\u68ee\u6797\u516c\u56ed], VI.2021, local people leg. (CLHC); LAOS: 1\u2642. Anoplophoraimitator. CHINA: 1\u2642. CHINA: 1\u2642.The following material was studied for comparison: : 1\u2642Fig. D, Guizhoantennal length: length between the base and the apex of antenna; body length: length between the head vertex and the elytral apex along the mid-line; elytral length: length between the basal border and the apex of elytra along suture; head length: length between the anterior apex of clypeus and the posterior margin of occiput along the midline; head width: widest part of head (including eyes); humeral width: width across elytral humeri; pronotal length: length of the pronotum along the mid-line; pronotal apical width: width across the apical margin of pronotum; pronotal basal width: width across the basal margin of pronotum; pronotal maximum width: widest part of pronotum .Measurement criteria in millimetres (mm) are as follows: Wang & He, 2021sp. n.C8622FE1-9F27-5969-9896-860DA13036655DF3AD6C-7A89-487E-9684-DFF86E318C61Type status:Holotype. Occurrence: recordedBy: Jian-Bin Huang; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Sanming City, Sha County, Luoboding [\u4e09\u660e\u5e02\u6c99\u53bf\u9523\u94b9\u9876]; verbatimElevation: 1360 m; verbatimLatitude: N26.25843\u00b0; verbatimLongitude: E117.73736\u00b0; Event: year: 2018; month: 7; Record Level: institutionCode: MYNUType status:Paratype. Occurrence: recordedBy: Jian-Bin Huang; individualCount: 1; sex: female; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Sanming City, Sha County, Luoboding [\u4e09\u660e\u5e02\u6c99\u53bf\u9523\u94b9\u9876]; verbatimElevation: 1360 m; verbatimLatitude: N26.25843\u00b0; verbatimLongitude: E117.73736\u00b0; Event: year: 2018; month: 7; Record Level: institutionCode: MYNUType status:Paratype. Occurrence: recordedBy: Yong Li; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Sanming City, Sha County, Luoboding [\u4e09\u660e\u5e02\u6c99\u53bf\u9523\u94b9\u9876]; verbatimElevation: 1360 m; verbatimLatitude: N26.25843\u00b0; verbatimLongitude: E117.73736\u00b0; Event: year: 2018; month: 7; Record Level: collectionCode: CJBHType status:Paratype. Occurrence: recordedBy: Liang Guo; individualCount: 1; sex: female; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Sanming City, Tianbaoyan Nature Reserve [\u4e09\u660e\u5e02\u5929\u5b9d\u5ca9\u81ea\u7136\u4fdd\u62a4\u533a]; verbatimElevation: 1100 m; Event: year: 2015; month: 6; day: 19; Record Level: collectionCode: CLGSType status:Paratype. Occurrence: recordedBy: Jian-Bin Huang; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Ningde City, Gutian County, Shitashan [\u5b81\u5fb7\u5e02\u53e4\u7530\u53bf\u77f3\u5854\u5c71]; verbatimElevation: 1340 m; verbatimLatitude: N26.84247\u00b0; verbatimLongitude: E118.63524\u00b0; Event: year: 2020; month: 7; day: 9; Record Level: collectionCode: CJBHType status:Paratype. Occurrence: recordedBy: Peng-Yu Liu; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Ningde City, Gutian County [\u5b81\u5fb7\u5e02\u53e4\u7530\u53bf]; verbatimElevation: 1550 m; Event: year: 2021; month: 7; day: 18; Record Level: collectionCode: CPYLType status:Paratype. Occurrence: recordedBy: Jian-Bin Huang; individualCount: 1; sex: female; Location: country: CHINA; stateProvince: Fujian; verbatimLocality: Quanzhou City, Daiyun Mountain, hiking trail [\u6cc9\u5dde\u5e02\u6234\u4e91\u5c71\u767b\u5c71\u6b65\u9053]; verbatimElevation: 1520 m; Event: year: 2021; month: 7; day: 4; Record Level: collectionCode: CLHCType status:Paratype. Occurrence: recordedBy: local people; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Guangxi; verbatimLocality: Nanning City, Wuming County, Damingshan [\u5357\u5b81\u5e02\u6b66\u9e23\u53bf\u5927\u660e\u5c71]; verbatimElevation: 1600 m; Event: year: 2005; month: 7; Record Level: collectionCode: CJBHType status:Paratype. Occurrence: recordedBy: local people; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Guangxi; verbatimLocality: Laibin City, Jinxiu County, Changtong Township, Daojiang Village, Pingbantun [\u6765\u5bbe\u5e02\u91d1\u79c0\u53bf\u957f\u578c\u4e61\u9053\u6c5f\u6751\u5e73\u529e\u5c6f]; verbatimElevation: 1375 m; verbatimLatitude: N24.09509\u00b0; verbatimLongitude: E110.18344\u00b0; Event: year: 2015; month: 7; day: 8; Record Level: collectionID: CLHCType status:Paratype. Occurrence: recordedBy: Chun-Fu Feng; individualCount: 1; sex: female; Location: country: CHINA; stateProvince: Guangxi; verbatimLocality: Laibin City, Jinxiu County, Changtong Township [\u6765\u5bbe\u5e02\u91d1\u79c0\u53bf\u957f\u578c\u4e61]; Event: year: 2020; month: 5; Record Level: collectionCode: CCZCType status:Paratype. Occurrence: recordedBy: local people; individualCount: 1; sex: female; Location: country: CHINA; stateProvince: Guangxi; verbatimLocality: Laibin City, Jinxiu County, Shengtangshan [\u6765\u5bbe\u5e02\u91d1\u79c0\u53bf\u5723\u5802\u5c71]; verbatimElevation: 1500 m; Event: year: 2018; month: 7; Record Level: collectionCode: CJBHType status:Paratype. Occurrence: recordedBy: Huang-Shun Xi; individualCount: 1; sex: male; Location: country: CHINA; stateProvince: Guangxi; verbatimLocality: Laibin City, Jinxiu County, Dayaoshan Mountain [\u6765\u5bbe\u5e02\u91d1\u79c0\u53bf\u5927\u7476\u5c71]; verbatimElevation: 1350 m; Event: year: 2018; month: 7; day: 2; Record Level: collectionCode: CTLHHolotype male. Body 28.6 mm long, widest just after elytral humeri (10.8 mm). Length of different body parts (mm): head (3.3), antenna (54.5), pronotum (5.1), elytra (20.4); width: head (5.9), pronotal apex (6.2), pronotal base (6.6), elytral humeri (10.1).Habitus . Due to the condition of different specimens, whitish or white pubescence or maculae may be distinct, vague or absent.Female paratypes. Body 34.8\u201335.6 mm long, widest just after elytral humeri (13.8 mm). Length of different body parts : head (3.9), antenna (56.1), pronotum (6.2), elytra (25.3); width: head (7.3), pronotal apex (7.6), pronotal base (8.2), elytral humeri (13.3). Antennomeres with length ratio from base to tip: 5.24 \u2013 1.00 \u2013 6.78 \u2013 5.88 \u2013 5.02 \u2013 4.39 \u2013 4.35 \u2013 4.11 \u2013 3.84 \u2013 3.66 \u2013 5.24.Similar to male in general appearance, but distinct by the following characters: body much larger Fig. C and D; Anoplophorahuangjianbinisp. n. is similar to A.imitator by the granules (or granulation) lacking on the anterior part of elytra much larger/longer and more dense on pronotum, elytra, metasternum and abdominal sternites III\u2013VII; besides, it also has large maculae around gena and frons and on mesepisternum (absent in A.huangjianbinisp. n.). Moreover, the new species is distinguished from its congeneric species by a combination of the following characters: abdominal tergite VII almost simply rounded at posterior margin Fig. A, A.eleg88) Fig. B, A.simi00) Fig. C, A.chia991 Fig. D and A.sgin Fig. A; sternigin Fig. B; spiculgin Fig. F; mediangin Fig. A short, gin Fig. A and B.The new species is dedicated to the collector of most type specimens, Mr. Jian-Bin Huang , an enthusiastic amateur entomologist. The name is a noun in the genitive case. \u201c\u5251\u658c\u661f\u5929\u725b (Pinyin: Jian Bin Xing Tian Niu)\u201d is proposed for the Chinese common name of this new species.CHINA .Habitat with broad-leaved mixed forest at Luoboding (Fujian) is shown in Fig."} +{"text": "Scientific Reports 10.1038/srep41564, published online 27 January 2017Correction to: Pantoea alhagisp. nov\u2019The Article contains an error in the Discussion section under subheading \u2018Description of T\u00a0(=CCTCC M 2016052T=KCTC 52262T), was isolated from surface-sterilized leaves of\u00a0Alhagi sparsifolia\u00a0collected from Taklamakan Desert in Xinjiang Uyghur Autonomous Region, north-west China. The 16S rRNA, ATP synthase beta subunit (atpD), DNA gyrase B subunit (gyrB), initiation translation factor 2 (infB) and RNA polymerase beta subunit (rpoB) gene sequences of strain LTYR-11ZT\u00a0have been deposited in GenBank/EMBL/DDBJ under the accession numbers KX494924-KX494928, respectively.\u2019\u2018The type strain, LTYR-11Zshould read:T\u00a0(=CCTCC AB 2019082T=KCTC 52262T), was isolated from surface-sterilized leaves of\u00a0Alhagi sparsifolia\u00a0collected from Taklamakan Desert in Xinjiang Uyghur Autonomous Region, north-west China. The 16S rRNA, ATP synthase beta subunit (atpD), DNA gyrase B subunit (gyrB), initiation translation factor 2 (infB) and RNA polymerase beta subunit (rpoB) gene sequences of strain LTYR-11ZT\u00a0have been deposited in GenBank/EMBL/DDBJ under the accession numbers KX494924-KX494928, respectively.\u2019\u2018The type strain, LTYR-11Z"} +{"text": "The correct name is: Emil F. Kendziorra. The correct citation is: Gillett CR, Brame T, Kendziorra EF (2021) Comprehensive survey of United States internet users\u2019 sentiments towards cryopreservation. PLoS ONE 16(1): e0244980."} +{"text": "Non-Coding RNA was able to maintain its standards for the high quality of its published papers. Thanks to the contribution of our reviewers, in 2021, the median time to first decision was 15 days and the median time to publication was 37 days. The editors would like to extend their gratitude and recognition to the following reviewers for their precious time and dedication, regardless of whether the papers they reviewed were finally published:Abhishek DeyLei ShiAlan DombkowskiLeonard LipovichAlessandro SammarcoLetizia PittoAlex De LencastreLin HuangAlexey NikulinLorenzo FarinaAlfonso M. CayotaLuca AgnelliAndr\u00e9 GerberLuca Lo PiccoloAndrea CaporaliLucia NatarelliAngel Vizoso-V\u00e1zquezLuke SelthAnisha GuptaMai HazekawaAnna RiesterMarco GaviraghiAntoine M. DujonMargarida Gama-CarvalhoAntonio MusioMaria DuhagonAria BaniahmadMaria Elizabeth Rossi Da SilvaArijita SarkarMaria HondeleArjen E. Van\u2019t HofMaria SundvallArturo L\u00f3pez CastelMarina CristoderoAssam El-OstaMartin SztachoBabu V. SajeshMartina KirchnerBei ChengMartina RossiBodhisattwa BanerjeeMatthias S. LeisegangByron BaronMatus SykoraCameron BrackenMd. Motiar RahmanCecilia BattistelliMichael TellierCelia Fern\u00e1ndez RubioMichele De BortoliCesar Lopez-CamarilloMohammed L. AbbaCharles Bou-NaderMunekazu YamakuchiChristine HappelNatalia SimionescuChristopher HellenNicholas DelihasChristos K. KontosNicolas CasadeiChristos PapaneophytouNicoletta BianchiClaudia KutterNithyananda ThorenoorCristian TaccioliOliver M\u00fchlemannDaniela GradiaOvidiu SirbuDavid C. ZappullaPablo SmircichDavid LeavesleyPanagiotis AlexiouDeepanjan PaulPaola OstanoEdoardo BertoliniPatricia Mirella ScarduaElena L\u00f3pez-Jim\u00e9nezPavel IvanovErica ScottPeter BaiEstanis NavarroPraveen AranyEsteban OrellanaPrzemys\u0142aw NucFederico Dajas-BailadorQinyu SunFrancisco J. EnguitaRajneesh SrivastavaFranck MartinRobert WeinzierlGaetano SantulliRocio T. Martinez NunezGianpiero Di LevaRoland KlassenGiulia MatacchioneRui FuGiuseppe PalmieriRussell HamiltonGiuseppina E. GriecoRyuya FukunagaGrasiele SausenSabyasachi DashGunter MeisterSamuel Pushparaj Robert JeyasinghHelen VincentSamuela PasqualiHenrik NielsenSatya KotaHiroji AibaS\u00e9bastien PfefferHisashi MeraShahrokh GhobadlooHua-Sheng ChiuShizuka UchidaHui LiShu-Ling TzengIlaria GuerrieroSilvia LeeIzabella Slezak-ProchazkaSimon ConnJan Nov\u00e1kSimon RaynerJarmila Hnilicov\u00e1Simona ZaamiJens HahneStefan Ernst SeemannJianhua WangStefano CagninJiao Jiao LiStephan BernhartJijun HuangStephan HamperlJoanna Sztuba-SolinskaSuba RajendrenJoanna WilliamsSumit MukherjeeJoe ChihadeTadashi YoshidaJos\u00e9 AndradeTanja KunejJuan Jos\u00e9 Gonz\u00e1lez-PlazaVasiliki TsigkouKatherine McJunkinXucheng HouKathrin TyryshkinYork MarahrensKausik ChakrabartiYoshihiro TaguchiLasse LindahlRigorous peer-reviews are the basis of high-quality academic publishing. Thanks to the great efforts of our reviewers,"} +{"text": "Correction to:BMC Genomics22, 618 (2021)https://doi.org/10.1186/s12864-021-07909-3Following publication of the original article , it was The correct versions of Fig. Additional file 1: Table S1. IEI Candidate Genes without Filter.Additional file 2: Table S2. IEI Candidate Genes with high (>.9) pLI Filter.Additional file 3: Table S3. IEI Candidate Genes with Average in all Immune Cells >\u20090 TPM Filter.Additional file 4: Table S4. IEI Candidate Genes with Average in B Cells >\u20091 TPM Filter.Additional file 5: Table S5. IEI Candidate Genes with Average in DCs\u2009>\u20091 TPM Filter.Additional file 6: Table S6. IEI Candidate Genes with Average in Myeloid Cells >\u20091 TPM Filter.Additional file 7: Table S7. IEI Candidate Genes with Average in NK Cells >\u20091 TPM Filter.Additional file 8: Table S8. IEI Candidate Genes with Average in T Cells >\u20091 TPM Filter."} +{"text": "Correction to: BMC Biology 20, 1\u201320 (2021)https://doi.org/10.1186/s12915-021-01206-xThe original article contained minor errors in Figs.\u00a01 and 3 which have both since been corrected."} +{"text": "Abstract, Results, final sentence: This sentence, which previously read:\u201cSport-specific lighter weighted bat swings and swing-specific isometrics resulted in improved subsequent competition weight bat swing velocities, ranging from ~\u20091.3\u20133.3%; ES\u2009=\u20090.16\u20130.57.\u201dshould read:\u201cSport-specific lighter weighted bat swings and swing-specific isometrics resulted in improved subsequent competition weight bat swing velocities, ranging from ~\u20091.3\u20134.9%; ES\u2009=\u20090.16\u20130.57.\u201dThe original article has been corrected."} +{"text": "Following publication of the original article , two typOriginal formula 6: Correct formula 6: Original formula 19: Correct formula 19: The original article has been"} +{"text": "Erratum zu:Hautarzt 202210.1007/s00105-022-04954-1Im Originalbeitrag war Tab.\u00a010\u202f%.Die Filterkonzentration von Tris-biphenyl Triazine (nano) (TBPT) mEk ist Die korrigierte Tabelle finden Sie im Folgenden.Der Originalbeitrag wurde korrigiert."} +{"text": "Scientific Reportshttps://doi.org/10.1038/s41598-021-04610-z, published online 11 January 2022Correction to: The original version of this Article contained an error in Funding information.\u201cThe RELICO study has been sponsored by Menarini Hellas S.A.\u201dnow reads:\u201cThe SLEPICO study has been sponsored by Menarini Hellas S.A.\u201dThe original Article has been corrected."} +{"text": "Erick H. Turner notes th"} +{"text": "Enterobacter sakazakii is an opportunistic pathogen that can cause infections such as necrotizing enterocolitis, bacteraemia, meningitis and brain abscess/lesions. When the species was defined in 1980, 15 biogroups were described and it was suggested that these could represent multiple species. In this study the taxonomic relationship of strains described as E. sakazakii was further investigated.E. sakazakii were divided into separate groups on the basis of f-AFLP fingerprints, ribopatterns and full-length 16S rRNA gene sequences. DNA-DNA hybridizations revealed five genomospecies. The phenotypic profiles of the genomospecies were determined and biochemical markers identified.Strains identified as E. sakazakii and proposes a reclassification of these organisms.This study clarifies the taxonomy of Enterobacter sakazakii was defined as a new species in 1980 by Farmer et al , adaptor: 5'-CTC GTA GAC TGC GTA CC-3'; 3'-CTG ACG CAT GGT TAA-5'. Restriction enzyme: Taq I [tetracutter], adaptor: 5'-GAC GAT GAG TCC TGA C-3'; 3'-TAC TCA GGA CTG GC-5'. Selective amplification of the restriction fragments was performed using the following primer combination: E01: 5'-GAC TGC GTA CCA ATT CA-3'; T01: 5'-CGA TGA GTC CTG ACC GAA-3'.DNA was prepared using the method of Gevers et al . PurifieAmplicons were separated according to their length on a high resolution polyacrylamide gel using a DNA sequencer (ABI 377) and visualized by the 5'-end labelling of the 6-bp cutter with the fluorescent dye FAM. The resulting electrophoretic patterns were tracked and normalized using the GeneScan 3.1 software . Normalized tables of peaks, containing fragments of 50 to 536 base pairs, were transferred into the BioNumerics\u2122 4.5 software . For numerical analysis, data intervals were delineated between the 75- and 500-bp bands of the internal size standard. Clustering of the BioNumerics\u2122 4.5 software generated AFLP\u2122 DNA fingerprint patterns was performed using the Dice coefficient and the UPGMA algorithm with an optimization of 0% and position tolerance of 0.2%.EcoR1 restriction enzyme. Riboprint patterns were downloaded to Bionumerics v.4.5, a UPGMA dendogram was constructed using a DICE coefficient with an optimization of 1% and a position tolerance of 1.5%.Ribotyping was performed using the automated RiboPrinter\u2122 Microbial Characterization System . Isolates were grown on TSA and prepared according to standard procedures using th2O. PCR-ready DNA was prepared by washing 10 \u03bcl of the concentrated culture with 200 \u03bcl H2O and resuspending the pellet in 50 \u03bcl Prepman Ultra (Applied Biosystems). The cells were heated at 99\u00b0C for 10 min. Ribosomal 16S rRNA gene was amplified from 1 \u03bcl of PCR-ready DNA using the high-fidelity polymerase PrimeStar (Takara) and the primers P0 and P6 in the presence of betaine: 3 min at 95\u00b0C; 30 cycles of 30 sec at 95\u00b0C, 30 sec at 56\u00b0C, 2 min at 72\u00b0C; 5 min at 72\u00b0C. P0 \u2013 5'-AGA GTT TGA TCC TGG CTC AG-3'; P6 \u2013 5'-GTA CGG CTA CCT TGT TAC GA-3'. The PCR was carried out in 3 \u00d7 15 \u03bcl, which were subsequently pooled. After purification the amplified fragments were sequenced using the primers P0 and P6. Some templates produced a double sequence close to the P0 site, these were sequenced using another primer that binds in the reverse orientation to a conserved region in the middle of the 16S region (095P: 5'-TAC GGC GTG GAC TAC CAG-3'). The new reactions produced a double sequence less than 80 bases from the end of the PCR fragment (P0 site). Additional sequences were downloaded from EMBL database.16S rRNA gene sequencing was performed by Fasteris SA, Switzerland. Isolates were grown 18 h in 5 ml BHI at 37\u00b0C and 1 ml centrifuged at 13,000 g for 5 min, the pellet was washed with 1 ml HFull-length 16S rRNA gene sequences (> 1300 bases) were added to an ARB alignment of about 28,000 small-subunit rRNA sequences by using the alignment tool ARB_EDIT of the ARB program package . AlignmeEF059844], ATCC 29004 [GenBank: EF059868], ATCC 29544T [GenBank: EF059843], ATCC 51329 [GenBank: EF059845], CDC 1716-77 [GenBank: EF059883], CDC 3128-77 [GenBank: EF059882], CDC 3523-75 [GenBank: EF059875], CDC 5960-70 [GenBank: EF059874], E265 [GenBank: AY803191], E266 [GenBank: AY803190], E269 [GenBank: EF059819], E271 [GenBank: EF059820], E272 [GenBank: EF059821], E274 [GenBank: EF059822], E280 [GenBank: EF059823], E283 [GenBank: EF059824], E292 [GenBank: EF059825], E302 [GenBank: EF059826], E309 [GenBank: EF059827], E314 [GenBank: EF059828], E328 [GenBank: EF059829], E393 [GenBank: AY752941], E413 [GenBank: EF059830], E423 [GenBank: EF059831], E429 [GenBank: EF059832], E436 [GenBank: EF059833], E440 [GenBank: EF059834], E444 [GenBank: EF059835], E450 [GenBank: EF059836], E456 [GenBank: EF059837], E465 [GenBank: EF059839], E468 [GenBank: AY752942], E488 [GenBank: EF059840], E531 [GenBank: EF059842], E604 [GenBank: EF059846], E607 [GenBank: EF059847], E609 [GenBank: EF059848], E616 [GenBank: EF059849], E620 [GenBank: EF059850], E621 [GenBank: EF059851], E622 [GenBank: EF059852], E624 [GenBank: EF059853], E625 [GenBank: EF059854], E626 [GenBank: EF059855], E627 [GenBank: EF059856], E632 [GenBank: EF059857], E639 [GenBank: EF059858], E644 [GenBank: EF059859], E676 [GenBank: EF059860], E680 [GenBank: EF059861], E681 [GenBank: EF059862], E688 [GenBank: EF059863], E694 [GenBank: EF059864], E717 [GenBank: EF059865], E739 [GenBank: EF059867], E757 [GenBank: EF059869], E761 [GenBank: EF059870], E768 [GenBank: EF059871], E769 [GenBank: EF059872], E775 [GenBank: EF059873], E814 [GenBank: EF059880], E872 [GenBank: EF059884], E883 [GenBank: EF059886], E888 [GenBank: EF059887], E890 [GenBank: EF059888], E895 [GenBank: EF059889], E904 [GenBank: EF059890], CFS237 LMG 23823 [GenBank: EF059892], LMG 23824 [GenBank: EF059841], E464 LMG 23825 [GenBank: EF059838], CDC 1058-77 LMG 23826 [GenBank: EF059881], 3032 LMG 23827 [GenBank: EF059891], M609 [GenBank: EF059885], NCTC 8155 [GenBank: EF059866], NCTC 9238 [GenBank: EF059876], NCTC 9529 [GenBank: EF059877], NCTC 9844 [GenBank: EF059878], NCTC 9846 [GenBank: EF059879], z1084 [GenBank: AY803192], z759 [GenBank: AY752939], z858 [GenBank: AY752936], z954 [GenBank: AY752938], zES11 [GenBank: AY803187], zES4 [GenBank: AY803186], zESVO7 [GenBank: AY803189].The accession numbers of the 16S rRNA genes included in this study are as follows: ATCC 12868 [GenBank: CI performed the biochemical profiling and collated the data. AL and RS analyzed the 16S rRNA gene sequences. NM and SF performed the statistical analysis of the phenotypic data. EB and JM performed the Ribotyping and analysis. IC is responsible for the f-AFLP analysis at the BCCM/LMG Bacteria Collection, where the AFLP analyses were performed. HJ managed the project and edited the manuscript. All authors contributed to the text and read and approved the final manuscript.E. sakazakii biogroups.Description of Click here for file"} +{"text": "Life maintains high quality standards for its published papers. In 2017, a total of 51 papers were published in the journal. Thanks to the cooperation of our reviewers, the median time to first decision was 21 days and the median time to publication was 51 days. The editors would like to express their sincere gratitude to the following reviewers for their time and dedication in 2017:Peer review is an essential part in the publication process, ensuring that Aaron EngelhartLiam M. LongoAaron S. BurtonLinda McGownAdam KunLisa SteinAddy ProssLoren WilliamsAlexander BolshoyLuc JaegerAna CrnkovicLukasz DziewitAndre BrackMarc TesseraAndr\u00e9s de la EscosuraMarc T. FacciottiAndrew J. SurmanMarie-Christine, MaurelArmen MulkidjanianMarkus RalserArturo BecerraMartha A. GroverBal\u00e1zs K\u00f6nny\u0171Massimo Di GiulioBarry SavilleMatthew PasekBonnie BaxterMatthew PownerBrian J. CaffertyMichael BlaberBrian R. FrancisMichael HechtCarl DevitoMichael RussellCarl TrindleMichael SchweizerChandra WickramasingheMichele FioreCharles LiottaMike Dyall-SmithCharles Jr. CarterMikhail M. Vorob\u2019evChristian MayerMin GuoChristoph A. WeberMV JoseChristophe LavelleNam-Joon ChoChunliang LiuNediljko BudisaConstantinos StathopoulosNiles LehmanCynthia M. MortonNils HolmDave SpeijerNobuhiko SuematsuDavid PennyPasquale StanoDavid S. RossPatrick O\u2019DonoghueDennis G\u00f6rlichPaul ClarkeDiego Luis GonzalezPaul HiggsDino MorasPeter StrazewskiDuncan ForganPeter UnrauEliana Beltr\u00e1n-PardoPeter WaldeElias ChatzitheodoridisPeter R. WillsEmanuele ZonaroRafal M. WieczorekEnver Cagri IzguRaffaele SaladinoFalcinelli StefanoRainer MerklFengjie SunRalf M\u00f6llerFilipa L. SousaRichard EgelFilippo CascheraRichard P. FahlmanGabriel ZentnerRob M. De GraafGeoff WildRobert PascalGeorge FoxRobert Root-BernsteinGeorgy KarevRomeu GuimaraesGreg SpringsteenRosanna del GaudioGregory FournierRussell F. DoolittleHarold S. BernhardtSandra PizzarelloHelen HansmaSatoshi AkanumaHerv\u00e9 SeligmannSheref MansyHodaka FujiiShin-ichi YokoboriHubert Dominique BeckerSimone GianneriniHussein KaddourSolveig TosiHyman HartmanSreejith RamakrishnanIgor ShuryakStefan FoxJack T. O\u2019Malley-JamesStuart BartlettJason RaymondSzymon WasikJiann-Ruey HongTakahiro HohsakaJiri \u0160ponerTetsuo KushiroJoanne K. HobbsTetsushi SakumaJohn YinThomas GeorgelinJordi Pi\u00f1eroThomas SimonsonJuan Manuel Garc\u00eda-RuizThomas C. BoothbyKaren BellThomas M. OrlandoKelly SheppardTony JiaKenji IkeharaUlrich MullerKenneth A. DillVeronica VaidaKensaku SakamotoWilliam BainsKepa Ruiz-MirazoWilliam H. McClainKoichiro MatsunoYoshihiro FurukawaKumar Saurabh SinghYu-Fen ZhaoKunio KawamuraA.V. KorotayevLeonardo Sorci"} +{"text": "Nature Communications8 Article number:14193 ; DOI: 10.1038/ncomms14193 (2017); Published 01312017; Updated 04062017This Article contains errors in"} +{"text": "Scientific Reports6: Article number: 3605510.1038/srep36055; published online: 11032016; updated: 12192016This Article contains an error in the legend of Table 1.\u201cValues indicate absolute log2-FC.\u201dshould read:\u201cValues indicate absolute fold-change.\u201d"} +{"text": "Scientific Reports4: Article number: 7621; 10.1038/srep07621 published online: 12232014; updated: 06012017.This article was originally published under a CC BY-NC-SA 4.0 license, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly."} +{"text": "Scientific Reports7:205; doi:10.1038/s41598-017-00324-3; Article published online 16 March 2017This Article contains an error in Figure 5, where \u2018T1 (true negative)\u2019 should read:\u201cCountry reports LOWER ecological status & model predicts LOWER ecological status\u201d.The correct Figure 5 appears below as Figure"} +{"text": "Nucleic Acids Res (2015) 43 (6): 2993\u20133011. doi:10.1093/nar/gkv162The Authors wish to apologise for an error in Figure"} +{"text": "Scientific Reports6: Article number: 34023; 10.1038/srep34023 published online: 09302016; updated: 06212017.k should read k.This Article contains typographical errors, where all instances of \\bm"} +{"text": "Scientific Reports4: Article number: 5703; 10.1038/srep05703 published online: 07162014; updated: 01312017.This article was originally published under a CC BY-NC-SA 4.0 license, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly."} +{"text": "Scientific Reports6: Article number: 2285810.1038/srep22858; published online: 03092016; updated: 02132017L) and right (\u03b8R) angles are incorrectly defined. The correct This Article contains errors in"} +{"text": "Scientific Reports6: Article number: 23473; 10.1038/srep23473 published online: 04012016; updated: 12142016.In this Article, the legend of Figure 5 is incorrect:a) BlCel5B in the crystallographic and closed configuration; (b) Bacillus halodurans Cel5B (BhCel5B) (PDB id: 4V2X) (c) Piromyces rhizinflata GH5 endoglucanase (PDB id: 3AYR); (d) Clostridium cellulolyticum GH5 endoglucanase (PDB id: 1EDG); (e) Clostridium cellulovorans GH5 endoglucanase (PDB id: 3NDY); (f) Bacteroides ovatus GH5 xyloglucanase (PDB id: 3ZMR); (g) Paenibacillus pabuli GH5 xyloglucanase (PDB id: 2JEP); (h) Prevotella bryantii GH5 endoglucanase (PDB id: 3VDH); (i) Ruminiclostridium thermocellum multifunctional GH5 cellulase, xylanase and mannase (PDB id: 4IM4); (j) Bacteroidetes bacterium AC2a endocellulase (PDB id: 4YHE). BlCel5B in the crystallographic and closed configuration; (b) Bacillus halodurans Cel5B (BhCel5B) (PDB id: 4V2X) (c) Piromyces rhizinflata GH5 endoglucanase (PDB id: 3AYR); (d) Clostridium cellulolyticum GH5 endoglucanase (PDB id: 1EDG); (e) Clostridium cellulovorans GH5 endoglucanase (PDB id: 3NDY); (f) Bacteroides ovatus GH5 xyloglucanase (PDB id: 3ZMR); (g) Paenibacillus pabuli GH5 xyloglucanase (PDB id: 2JEP); (h) Prevotella bryantii GH5 endoglucanase (PDB id: 3VDH); (i) Ruminiclostridium thermocellum multifunctional GH5 cellulase, xylanase and mannase (PDB id: 4IM4); (j) Bacteroidetes bacterium AC2a endocellulase (PDB id: 4YHE).("} +{"text": "Scientific Reports6: Article number: 2818610.1038/srep28186; published online: 06242016; updated: 09222016D (micromolar)\u2019 is incorrectly given as \u2018KD (millimolar)\u2019. The correct Figure 10D appears below as This Article contains an error in Figure 10D, where the y-axis \u2018K"} +{"text": "The correct name is: C. Raina MacIntyre. The correct citation is: Bui CM, Gardner L, MacIntyre CR, Sarkar S (2017) Influenza A H5N1 and H7N9 in China: A spatial risk analysis. PLoS ONE 12(4): e0174980."} +{"text": "In the original publication two authThe original article was updated to rectify these errors.Incorrect author name 1:Stephanie Combs.Correct author name 1:Stephanie E. Combs.Incorrect author name 2:Andra Krauze.Correct author name 2:Andra V. Krauze."} +{"text": "Nature Communications5: Article number: 3359; DOI: 10.1038/ncomms4359 (2014); Published: 02282014; Updated: 04202017This Article was originally published under a CC BY-NC-ND 3.0 license, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly."} +{"text": "Scientific Reports 10.1038/s41598-017-02143-y, published online 18 May 2017Correction to: This Article contains typographical errors in the Supplementary Information file.In Equation S1,should read:In Equation S8,should read:In Equation S13,should read:And finally,\u2018By using equation (S5), Should read:\u2018By using equation (S5),"} +{"text": "Scientific Reports6: Article number: 35462; 10.1038/srep35462 published online: 11202016; updated: 03222017.This Article contains errors in Figure 5B where the CFU values for T0 and T1 are incorrect. The correct Figure 5B appears below as"} +{"text": "Scientific Reports7: Article number: 4596110.1038/srep45961; published online: 04122017; updated: 03092017This Article contains a typographical error in the Methods section under subheading \u2018Data Availability. Associated Article\u2019,\u201cProtocol Exchange doi: 1038/Protex.2017.039 (2017)\u201d.should read:\u201cProtocol Exchange doi: 10.1038/protex.2017.039\u201d."} +{"text": "MRI revealed unilateral basal ganglia and brainstem lesions . Eightee1 . A heter"} +{"text": "Scientific Data4:170078 doi: 10.1038/sdata.2017.78 (2017); Published 20 June 2017; Updated 17 April 2018."} +{"text": "Int J Epidemiol, 2016, doi: https://doi.org/10.1093/ije/dyw233First published online: 5 November 2016, A funding statement was missing for author David Stuckler. The funding statement should have included \u201cDS is funded by ERC HRES 313590.\u201d"} +{"text": "Correction to:Translational Psychiatry (2017) 7, e1164; doi:10.1038/tp.2017.142; published online 4 July 2017The ninth author\u2019s name was presented incorrectly. It should appear as J Quevedo."} +{"text": "Virus-triggered effects were associated with an enhanced activation of CD4+ T helper cells and CD8+ cytotoxic T lymphocytes and augmented cytokine expression. By contrast, (iii) IL-10R neutralization during chronic TMEV-infection was not associated with enhanced peripheral immunopathology but an increased CD3+ T cell influx in the spinal cord. IL-10R neutralization causes a breakdown in peripheral immune tolerance in genetically predisposed mice, which leads to immune-mediated colitis, resembling inflammatory bowel disease. Hyperactive immune state following IL-10R blockade is enhanced by central nervous system-restricted viral infection in a disease phase-dependent manner.Theiler\u00b4s murine encephalomyelitis virus (TMEV)-infection is a widely used animal model for studying demyelinating disorders, including multiple sclerosis (MS). The immunosuppressive cytokine Interleukin (IL)-10 counteracts hyperactive immune responses and critically controls immune homeostasis in infectious and autoimmune disorders. In order to investigate the effect of signaling via Interleukin-10 receptor (IL-10R) in infectious neurological diseases, TMEV-infected SJL mice were treated with IL-10R blocking antibody (Ab) in the acute and chronic phase of the disease. The findings demonstrate that (i) Ab-mediated IL-10 neutralization leads to progressive colitis with a reduction in Foxp3 Briefly\u00ae performance tests for quantifying motor coordination deficits were performed by two examiners in a non-blinded manner as previously described and group \u201cIL10R\u2193late/TMEV\u201d [experiment II]). TMEV = Theiler\u00b4s murine encephalomyelitis virus; dpi = days post infection; IL = interleukin; TNF = tumor necrosis factor; TGF = transmissible growth factor; INF = interferon; Foxp3 = forkhead box P3 protein; MBP = myelin basic protein; np-NF = non-phosphorylated neurofilament; gMFI = geometric mean of fluorescence intensity; ND = not determined; units: 1 = rounds per minute; 2 = points (semiquantitative scoring); 3 = gram; 4 = number of labelled cells in the spinal cord; 5 = percentage [%] of MBP-unstained (demyelinated) area; 6 = number of labelled axons in the spinal cord; 7 = copy numbers; 8 = percentage [%] of labelled cells. Table D. Summary of data obtained from animals receiving TMEV-infection and intraperitoneal application of IgG1-specific isotype control (group \u201cisotypeearly/TMEV\u201d [experiment I] and group \u201cisotypelate/TMEV\u201d [experiment II]). TMEV = Theiler\u00b4s murine encephalomyelitis virus; dpi = days post infection; IL = interleukin; TNF = tumor necrosis factor; TGF = transmissible growth factor; INF = interferon; Foxp3 = forkhead box P3 protein; MBP = myelin basic protein; np-NF = non-phosphorylated neurofilament; gMFI = geometric mean of fluorescence intensity; ND = not determined; units: 1 = rounds per minute; 2 = points (semiquantitative scoring); 3 = gram; 4 = number of labelled cells in the cord; 5 = percentage [%] of MBP-unstained (demyelinated) area; 6 = number of labelled axons in the spinal cord; 7 = copy numbers; 8 = percentage [%] of labelled cells. Table E. Summary of data obtained from animals receiving mock-infection and intraperitoneal application of anti-IL-10R antibody (group \u201cisotypeearly/mock\u201d [experiment I] and group \u201cisotypelate/mock\u201d [experiment II]). TMEV = Theiler\u00b4s murine encephalomyelitis virus; dpi = days post infection; IL = interleukin; TNF = tumor necrosis factor; TGF = transmissible growth factor; INF = interferon; Foxp3 = forkhead box P3 protein; MBP = myelin basic protein; np-NF = non-phosphorylated neurofilament; gMFI = geometric mean of fluorescence intensity;ND = not determined; units: 1 = rounds per minute; 2 = points (semiquantitative scoring); 3 = gram; 4 = number of labelled cells/axons in the spinal cord; 5 = percentage [%] of MBP-unstained (demyelinated) area; 6 = copy numbers; 7 = percentage [%] of labelled cells. experiment II: effects of IL-10R blockade during chronic Theiler\u2019s murine encephalomyelitis.Table F. Summary of statistical analyses of arrow = significant up(\u2191)- or downregulation (\u2193) in TMEV-infected SJL mice receiving anti-IL-10R Ab compared with mice receiving IgG1 specific isotype control in the chronic phase of the disease; administration of Ab or isotype control respectively was performed at 35 and 42 dpi; * bold p-values = significant difference between both groups, p\u2009\u2264\u20090.05, determined by Wilcoxon\u00b4s rank sum-tests. TMEV = Theiler\u00b4s murine encephalomyelitis virus; dpi = days post infection; IL = interleukin; TNF = tumor necrosis factor; TGF = transmissible growth factor; INF = interferon; Foxp3 = forkhead box P3 protein; MBP = myelin basic protein; np-NF = non-phosphorylated neurofilament; gMFI = geometric mean of fluorescence intensity; ND = not determined. experiment II: effects of chronic Theiler\u2019s murine encephalomyelitis virus infection upon IL-10R blockade.Table G. Summary of statistical analyses of arrows = significant up-regulation (\u2191) or down-regulation (\u2193) in infected SJL mice receiving IL-10R Ab compared to non-infected mice receiving anti-IL-10R Ab during the chronic infection phase (35 and 42 dpi); * bold p-values display significant differences between both groups (p\u2009\u2264\u20090.05) determined by Wilcoxon\u00b4s rank sum-tests. TMEV = Theiler\u00b4s murine encephalomyelitis virus; dpi = days post infection; Foxp3 = forkhead box P3 protein; MBP = myelin basic protein; np-NF = non-phosphorylated neurofilament; gMFI = geometric mean of fluorescence intensity. experiment III: effects of IL-10R blockade in non-infected animals.Table H. Summary of statistical analyses of arrow = significant up(\u2191)- or downregulation (\u2193) in SJL mice receiving anti-IL-10R Ab compared with mice receiving IgG1 specific isotype only; administration of Ab or isotype control, respectively, was performed at day 0, 7 and 14; * bold p-values = significant difference between both groups, p\u2009\u2264\u20090.05, determined by Wilcoxon\u00b4s rank sum-tests. Foxp3 = Iba-1 = ionized calcium binding adaptor molecule 1; forkhead box P3 protein; gMFI = geometric mean of fluorescence intensity. Table I. Summary of data obtained from non-infected animals receiving intraperitoneal application of anti-IL10R Ab . * given are median values (minimum and maximum); gMFI = geometric mean of fluorescence intensity; units: 1 = points (semiquantitative scoring); 2 = number of labelled cells in the lamina propria per high power field, 3 = percentage [%] of labelled cells. Table J. Summary of data obtained from non-infected animals receiving intraperitoneal application of IgG1-specific isotype control . * given are median values (minimum and maximum); gMFI = geometric mean of fluorescence intensity; units: 1 = points (semiquantitative scoring); 2 = number of labelled cells in the lamina propria per high power field; 3 = percentage [%] of labelled cells.(DOC)Click here for additional data file."} +{"text": "Scientific Reports7: Article number: 4261610.1038/srep42616; published online: 02172017; updated: 05092017This Article contains errors in Figure 7. The correct Figure 7 appears below as"} +{"text": "Scientific Reports5: Article number: 937810.1038/srep09378; published online: 03232015; updated: 12092016This acknowledgments section in this Article is incomplete:\u201cThis work was supported by National Science Centre (project grant no. UMO-2011/01/B/NZ1/03686 and N N301 668540)\u201d.should read:\u201cThis work was supported by National Science Centre (project grant no. UMO-2011/01/B/NZ1/03686 and N N301 668540). Marta Moskot was funded by National Science Centre project grant no. UMO-2014/12/T/NZ2/00538\u201d."} +{"text": "Nature Communications6: Article number: 7021; DOI: 10.1038/ncomms8021 (2015); Published 04242015; Updated 02072017This Article was originally published under a CC BY-NC-ND 4.0 license, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly."} +{"text": "Scientific Reports6: Article number: 21788; 10.1038/srep21788 published online: 02232016; updated: 09132017.Bi (eV/K)\u2019 should read \u2018Bi (meV/K)\u2019.This Article contains an error in Table 1, where \u2018"} +{"text": "Scientific Reports6: Article number: 31896; 10.1038/srep31896 published online: 07222016; updated: 07272017.This Article contains errors. In the \u2018Thermal Stability: Non-Ambient X-ray Diffraction\u2019 section, under subheading \u2018Thermodynamic stability: Knudsen effusion mass spectrometry and Knudsen effusion mass loss\u2019,3, MAPbBr3 and MAPbI3, respectively\u201d.\u201cThe resulting values of should read:3, MAPbBr3 and MAPbI3, respectively\u201d.\u201cThe resulting values of In Equation (13),\u201cshould read:\u201cIn Equation (14),\u201cshould read:\u201cIn Equation (15),\u201cshould read:\u201c"} +{"text": "Healthcare-associated infections and antibiotic resistance\u00a0Point Prevalence Survey of Hospital Acquired Infections and Antimicrobial Use in Ireland 2017Epi-Insight 2017;18(3)March 2017, Irelandhttp://ndsc.newsweaver.ie/epiinsight/1kxgb6ek1nx?a=1&p=51521198&t=17517774\u00a0Staphylococcus aureus (LA-MRSA) leads to better patient careAdaptation of isolation measures in case of livestock-associated multiresistant Infectieziekten Bulletin 2017; 28(2)24 February 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=ab0ce6b4-98d2-4a37-a5e0-be92adfab4f8&type=pdf&disposition=inline\u00a0Staphylococcus aureus on pig farmsMultiresistant Infectieziekten Bulletin 2017; 28(2)24 February 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=fcaeeac9-5fde-4d54-87d9-e521780685e5&type=pdf&disposition=inline\u00a0Staphylococcus aureusGenetic exchange between multiresistant Infectieziekten Bulletin 2017; 28(2)24 February 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=f6a62f77-9997-4930-8dca-febd780fe65c&type=pdf&disposition=inline\u00a0Antibiotic resistance in gastrointestinal bacteriaInfectieziekten Bulletin 2017; 28(1)24 January 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=9d23345f-3449-45f7-9934-021076cf3bd9&type=pdf&disposition=inline\u00a0National Annual Antimicrobial Point Prevalence Survey 2016Epi-Insight 2016;17(12)December 2016, Irelandhttp://ndsc.newsweaver.ie/epiinsight/kgky01jxfir?a=1&p=51164834&t=17517774\u00a0Food- and waterborne diseases\u00a0Authorities are investigating new cases of EHEC infectionFolkh\u00e4lsomyndigheten website13 March 2017, Swedenhttps://www.folkhalsomyndigheten.se/nyheter-och-press/nyhetsarkiv/2017/mars/myndigheter-utreder-nya-fall-av-ehec-infektion/\u00a0Clostridium difficile ribotype 176 in GermanyOccurrence of Epidemiologisches Bulletin 10, 20179 March 2017, Germanyhttps://www.rki.de/DE/Content/Infekt/EpidBull/Archiv/2017/Ausgaben/10_17.pdf?__blob=publicationFile\u00a0Campylobacter in chicken meatNeed to reduce Folkh\u00e4lsomyndigheten website10 February 2017, Swedenhttps://www.folkhalsomyndigheten.se/nyheter-och-press/nyhetsarkiv/2017/februari/campylobacter-pa-kycklingkott-behover-minska/\u00a0Salmonella and Campylobacter infectionsAnnual summary of HPS Weekly Report 2017; 51(05)7 February 2017, Scotlandhttp://www.hps.scot.nhs.uk/documents/ewr/pdf2017/1705.pdf\u00a0Campylobacter infection among a group of youngstersA cluster of Infectieziekten Bulletin 2017; 28(1)24 January 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=71b5ca01-ba17-42f9-9d27-12460ee4b38e&type=pdf&disposition=inline\u00a0Listeria monocytogenes in the Netherlands in 2015Surveillance of Infectieziekten Bulletin 2017; 28(1)24 January 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=47e55962-7d01-4ae6-8b2d-edba4f88a40e&type=pdf&disposition=inline\u00a0Salmonella typhimurium infection in infants after a trip to a farmVlaams Infectieziektebulletin; 4/2016December 2016, Belgiumhttps://www.zorg-en-gezondheid.be/sites/default/files/atoms/files/2016-4-salmon-T-CH.%20Lambrechts.pdf\u00a0Hepatitides\u00a0Acute and chronic Hepatitis C, 2016EPI-NEWS 11, 201715 March 2017, Denmarkhttp://www.ssi.dk/Aktuelt/Nyhedsbreve/EPI-NYT/2017/Uge%2011%20-%202017.aspx\u00a0Acute and chronic Hepatitis B 2016EPI-NEWS 9, 20171 March 2017, Denmarkhttp://www.ssi.dk/Aktuelt/Nyhedsbreve/EPI-NYT/2017/Uge%209%20-%202017.aspx\u00a0Hepatitis B infection in Scotland: 2015HPS Weekly Report 2017; 51(02)17 January 2017, Scotlandhttp://www.hps.scot.nhs.uk/documents/ewr/pdf2017/1702.pdf\u00a0Vaccine-preventable diseases\u00a0Invasive meningococcal disease (laboratory reports in England): England: October to December 2016Health Protection Report; 11(8)24 February 2017, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/594800/hpr0817_imd.pdf\u00a0Pertussis vaccination programme for pregnant women update: vaccine coverage in England, October to December 2016Health Protection Report; 11(8)24 February 2017, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/594799/hpr0817_prntl-prtsss-VC.pdf\u00a0Examination of a pertussis outbreak in children with high vaccination rates in Kiel, October 2015-March 2016Epidemiologisches Bulletin 6, 20179 February 2017, Germanyhttps://www.rki.de/DE/Content/Infekt/EpidBull/Archiv/2017/Ausgaben/06_17.pdf?__blob=publicationFile\u00a0Increase in the incidence of invasive meningococcal disease caused by group W135EPI-NEWS 6, 20178 February 2017, Denmarkhttp://www.ssi.dk/Aktuelt/Nyhedsbreve/EPI-NYT/2017/Uge%206%20-%202017.aspx\u00a0Shingles vaccine coverage report, England, September to November 2016Health Protection Report; 11(4)27 January 2017, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/586837/hpr0417_shngls.pdf\u00a0Sudden increase of invasive meningococcal disease serogroup W in 2015 and 2016Infectieziekten Bulletin 2017; 28(1)24 January 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=9fcfee07-c3dc-4af8-9437-7e328a66469c&type=pdf&disposition=inline\u00a0Measles, mumps and rubella and childhood vaccine uptakeHPS Weekly Report 2017; 51(01)10 January 2017, Scotlandhttp://www.hps.scot.nhs.uk/documents/ewr/pdf2017/1701.pdf\u00a0New childhood immunisation scheduleEpi-Insight 2017;18(1)January 2017, Irelandhttp://ndsc.newsweaver.ie/epiinsight/uc4nexz6bh2?a=1&p=51284091&t=17517774\u00a0Cases of measles in North ZealandEPI-NEWS 1/2, 201711 January 2017, Denmarkhttp://www.ssi.dk/Aktuelt/Nyhedsbreve/EPI-NYT/2017/Uge%201-2%20-%202017.aspx\u00a0Laboratory confirmed cases of pertussis reported to the enhanced pertussis surveillance programme in England during July to September 2016Health Protection Report; 10(44)16 December 2016, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/578804/hpr4416_prtsss.pdf\u00a0Invasive meningococcal disease (laboratory reports in England): England: July to September 2016Health Protection Report; 10(44)16 December 2016, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/578806/hpr4416_imd.pdf\u00a0National measles outbreak in Ireland declared overEpi-Insight 2016;17(12)December 2016, Irelandhttp://ndsc.newsweaver.ie/epiinsight/y461qge49cz?a=1&p=51143038&t=17517774\u00a0Respiratory diseases\u00a0Legionella pneumonia and Pontiac fever at a campsite in CroatiaInfectieziekten Bulletin 2017; 28(3)23 March 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=b2fe27ea-1c7a-4378-9be2-8d44f0262d04&type=pdf&disposition=inline\u00a0Tuberculosis epidemiology in France in 2015. Impact of the suspension of BCG mandatory vaccination on child tuberculosis, 2007-2015Bulletin \u00e9pid\u00e9miologique hebdomadaire, 721 March 2017, Francehttp://invs.santepubliquefrance.fr/beh/2017/7/pdf/2017_7.pdf\u00a0Anti-tuberculosis drug resistance in France in 2014-2015Bulletin \u00e9pid\u00e9miologique hebdomadaire, 721 March 2017, Francehttp://invs.santepubliquefrance.fr/beh/2017/7/pdf/2017_7.pdf\u00a0Status of influenza season 2016/17EPI-NEWS 5, 20171 February 2017, Denmarkhttp://www.ssi.dk/Aktuelt/Nyhedsbreve/EPI-NYT/2017/Uge%205%20-%202017.aspx\u00a0Influenza vaccine uptake among healthcare workers \u2013 interim survey results mid season 2016-2017Epi-Insight 2017;18(1)January 2017, Irelandhttp://ndsc.newsweaver.ie/epiinsight/1p50tjai5xn?a=1&p=51284092&t=17517774\u00a0Respiratory bacteria quarterly report. Quarter three: 1 July to 31 September 2016HPS Weekly Report 2016; 50(50)13 December 2016, Scotlandhttp://www.hps.scot.nhs.uk/documents/ewr/pdf2016/1650.pdf\u00a0Sexually transmitted diseases\u00a0ANSWER. HIV infection and AIDS: Quarterly report to 31 December 2016HPS Weekly Report 2017; 51(11)21 March 2017, Scotlandhttp://www.hps.scot.nhs.uk/documents/ewr/pdf2017/1711.pdf\u00a0New HIV preventive drug\u2019s acceptance and constraints of African and Caribbean population living in Ile-de-France: the use of Truvada\u00ae in pre-exposure prophylaxis (PrEP). An exploratory surveyBulletin \u00e9pid\u00e9miologique hebdomadaire, 67 March 2017, Francehttp://invs.santepubliquefrance.fr/beh/2017/6/pdf/2017_6.pdf\u00a0Increase in gonorrhoea cases in the South-East: heterosexual transmission a featureEpi-Insight 2017;18(3)March 2017, Irelandhttp://ndsc.newsweaver.ie/epiinsight/83681u1ih1x?a=1&p=51521199&t=17517774\u00a0Shigella among MSM in DublinRecent outbreak of ciprofloxacin-resistant Epi-Insight 2017;18(2)February 2017, Irelandhttp://ndsc.newsweaver.ie/epiinsight/y9rvan81q6z10gkzp9yxn5?a=2&p=51399875&t=17517804\u00a0Persons living with HIV in Italy: data from the second national surveyNot Ist Super Sanit\u00e0 2017;30(1)January 2017, Italyhttp://www.iss.it/binary/publ/cont/ONLINE_GENNAIO.pdf\u00a0Further increase in syphilis infections in men who have sex with menEpidemiologisches Bulletin 50, 201619 December 2016, Germanyhttp://www.rki.de/DE/Content/Infekt/EpidBull/Archiv/2016/Ausgaben/50_16.pdf?__blob=publicationFile\u00a0Zoonoses and vector-borne diseases\u00a0Malaria and illegal gold mining in French Guiana: a major public health challengeBulletin \u00e9pid\u00e9miologique hebdomadaire, 67 March 2017, Francehttp://invs.santepubliquefrance.fr/beh/2017/6/pdf/2017_6.pdf\u00a0Creutzfeldt-Jakob disease (CJD) biannual update (February 2017)Health Protection Report; 11(6)10 February 2017, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/591266/hpr0617_cjd.pdf\u00a0Several cases of psittacosis among people who cleaned bird feedersFolkh\u00e4lsomyndigheten website26 January 2017, Swedenhttps://www.folkhalsomyndigheten.se/nyheter-och-press/nyhetsarkiv/2017/januari/flera-fall-av-papegojsjuka-bland-personer-som-rengjort-fagelbord/\u00a0Other\u00a0Increase in reporting of \u2018polio-like\u2019 diseases in 2016Epidemiologisches Bulletin 9, 20172 March 2017, Germanyhttps://www.rki.de/DE/Content/Infekt/EpidBull/Archiv/2017/Ausgaben/09_17.pdf?__blob=publicationFile\u00a0How long is scabies crustosa contagious in a deceased patient?Infectieziekten Bulletin 2017; 28(1)24 January 2017, the Netherlandshttp://www.rivm.nl/dsresource?objectid=a0d3b667-4f75-4b94-ba63-01f4fafec1d9&type=pdf&disposition=inline\u00a0Antenatal screening for infectious diseases in England: summary report for 2015Health Protection Report; 11(2)13 January 2017, United Kingdomhttps://www.gov.uk/government/uploads/system/uploads/attachment_data/file/583576/hpr0217_naism.pdf"} +{"text": "Scientific Reports6: Article number: 3478610.1038/srep34786; published online: 10102016; updated: 01122017In this Article, Figure 2 is duplicated as Figure 4. The correct Figure 4 appears below as"} +{"text": "Brain Sciences maintains high quality standards for its published papers. In 2017, a total of 160 papers were published in the journal. Thanks to the cooperation of our reviewers, the median time to first decision was 26 days and the median time to publication was 58.5 days. The editors would like to express their sincere gratitude to the following reviewers for their time and dedication in 2017:Abhishek DesaiJohn MagnottiAdel HelmyJohn RolstonAdrian ParkeJon HennerAgnieszka FiszerJoohyung LeeAkassoglou KaterinaJos\u00e9 RouillardAkiko TamasakiJosep Esteve-RomeroAlan DorvalJosephine BarnesAlan G. FinkelJoshua ParkAlan WinstonJudith S. MillerAlcy R. TorresJulie A. GriecoAlejandro L\u00f3pez Tob\u00f3nJulie Gros-LouisAlessandro DidonnaJulio OrtegaAlessandro TonacciJyoti MishraAlexander U. BrandtKarolina MoustopoulouAllen L. HoKate KarelinaAmanda M. BrownKathryn M. YorkstonAmanda SeidlKathy CarterAmy MandavilleKathy MountjoyAna LedoKatsuhiko NishimoriAndr\u00e9 A. FentonKatsura TakanoAndre StrydomKavitha YaddanapudiAndreas LuftKaylah LalondeAndreas SchulzeKevin C. BrennanAndrej KralKevin J. BlackAndres M. LozanoKevin SchalinskieAndrew BagshawKirsten R. M\u00fcller-VahlAndrew C. TalkKylie BaileyAndrew J. SolomonLaraine WinterAndrew PostLarisa PoluektovaAndriy TemkoLarry Abel\u00c1ngel Romero Mart\u00ednezLee CampbellAngela NarayanLeena MohapatraAnita Riecher-R\u00f6sslerLeher SinghAnn B. RaginLeonard Verhagen MetmanAnna Fogdell-HahnLesley JonesAnna J. EsbensenLeslie SwansonAnne BeemelmannsLeyan XuAnne DezetterLili-Naz HazratiAnouk Y. J. M. SmeetsLin ZhuAnthony AkkariLindsay D. NelsonAnthony R. MawsonLisa Wise-FaberowskiAntonella ScorzielloLise EliotAntonino F. GermanoLitofsky N. ScottAntonio De TantiLora Talley WattsApit HemakomLoren MarulisArmin FuchsLori-Ann R. SacreyArthur A. VandenbarkLuca CasartelliAshraf S. GorgeyLuis R. PerazaAthanasia MouzakiLyn O\u2019GradyAtsuhiro NakagawaLynn UlatowskiBalapal S. BasavarajappaMadelyn RayBarbara S. KoppelMarcel GiezenBarbara TettenbornMarcello CiaccioBengt K\u00e4ll\u00e9nMarco CarotenutoBilal KhokharMarcus ChenBoris KotchoubeyMarcus GrimmBrendan RooneyMaria CabelloBrent KiousMaria ChahrourBrian ChristieMaria Chiara BuscarinuBrian Nils LundstromMaria Christina SergakiBrooke N. MacnamaraMaria HernandezBruce LyethMaria LucaBruno MeloniMariko SaitoBryan DuckhamMarion EhrichBryan HowellMarita PruessnerCalvin LiMark B. DetweilerCameron B. JeterMark R. N. KotterCamila AquinoMarkus WettsteinCarlotta Zanaboni DinaMartha MichalkiewiczCarmela BravaccioMartijn BaartCarmelo Lucio SturialeMartin Gerbert FraschCaroline JungeMartin Sp\u00fclerCatherine S. Tamis-LeMondaMartina ArdizziCecilia GiuliviMARVIN R. DiazC\u00e9dric GaleraMary MotzCharles A. NelsonMATTHEW ROBSONChi-Chang HuangMatthias HohmannChloe LaneMeera E. ModiChristian P. M\u00fcllerMelanie MorrisonChristian SalvatoreMelanie PinaChristine WinterMelissa BarberChristopher MillerMelissa RavenChristopher-James HarveyMichael A. Ben-AvieClaire O\u2019CallaghanMichael D. RawlinsClare HarropMichael JohnstonClaudia MaennelMichael PerlisClaudio LiguoriMichael SchaeferClea WarburtonMichael YoongClement HamaniMichal MielcarekClodagh NolanMichel BilliardCynthia R. GrossMila VulchanovaDamian A. StanleyMohd. Farooq ShaikhDamian JenkinsMohtashem SamsamDamir JanigroMontserrat Zurr\u00f3nDaniel CohenMonty SilverdaleDaniel PetersonMyra FernandesDaniel SwingleyNafisa M. JadavjiDario D. LofrumentoNathanael J. YatesDario SiniscalcoNavkiran KalsiDavid Bar-OrNawei SunDavid FacalNesha BurghardtDavid M. FergussonNiccol\u00f2 MoraDavid M. SchnyerNicholas AltieriDavid P. GavinNicole OsierDavid R. ShprecherNikolaos ZiogasDavid T. DenhardtNnamdi PoleDavid W. EvansNo\u00e9mie Auclair OuelletDavid WagnerNoman NaseerDavid ZieglerNora Vanegas ArroyaveDavide BarbagalloN\u00faria Esteve-GibertDeane AikinsOlaf HaukDeAnna L. AdkinsOliver QuarrellDeborah FergusonOnintza SagredoDenise GobertOwen CarmichaelDenise SharonOzgul GokDennis W. VanePaisit PaueksakonDevanshi SethPanagiotis BamidisDevin W. McBridePaola RusminiDhanabalan MuraliPaolo CalabresiDiego Torres-RussottoPatricia BroderickDomenico De BerardisPatricia K. CoyleDomenico ServelloPatr\u00edcia MacielDominic ChengPatrizia GiannoniDora LozsadiPaul E. GreeneDouglas WeldonPaul GorczynskiDwight PiercePaul WilliamsonE. Richard StanleyPeik GustafssonEberhard UhlPeter C. Van Der EndeEdward V. QuadrosPeter E. WaisEdward VulPeter N. SteinmetzEgilius L. H. SpieringsPeter RumneyEiichi SuehiroPhilip HazellEling De BruinPhilippe SchuchtElizabeth A. StricklandPhillip TsengEmily D. RickettsPhu HoangEmily EdmondsPierre DuquetteEmily S. NicholsPierre RoubertouxEric BravermanPieter J. HoekstraEric GlasgowPranela RameshwarEric VerinQingzhong RenErik SistermansRadwa BadawyErika SkoeRakesh Kumar TiwariErwin B. MontgomeryRamon Y. BirnbaumEugene ParkRany MakaryusFabiana GeraciRasheda Arman ChowdhuryFabio CampanellaRay MeddisFabio Di DomenicoRebecca FortgangFarid RahimiRebecca ParkFelix Jimenez-RondanRemy BationFelix SeptiantoRenee HollingsworthFeng GengReto StockerFeng GuRicardo S. OsorioFeng Vankee LinRichard C. DethFernando L. ValeRichard E. MainsFilmer ChuRichard FryeFiras BannoutRichard J. YouleFlorence GressierRifai ChaiFlorence LevyRobert B. MichaelFlorien BoeleRobert G. MairFlorin DespaRobert GonzalezFrancesco BartoliRobert KotloskiFrancesco Carlo MorabitoRobert LalondeFrancesco RigoliRobert R. HanseboutFrancisca S RodriguezRobert T. MalletFrancisca S. RodriguezRocco Salvatore CalabroFranco GemignaniRodger J. ElbleFrank FlemischRodrigo NosedaFr\u00e9d\u00e9ric CauseretRomain Vuillefroy De SillyFrederik SteynRosella AbetiFredrik KarlssonRosemary SheehanFriedemann PaulRupsa DattaFulvio LauretaniRussell SchacharGabriel G. De La TorreRyan A. StevensonGabriela G. WernerSamuel FrankGanesh NaikSandy ShultzGarnett P. McMillanSanjay MaggirwarGary SimonSarah BaylessGayann\u00e9e KediaSarah HellewellGeon Ho BahnSarah LagemanGeorg WidhalmSarah RabbittGeorge ChrousosScott R. SchroederGeorge OpieSebastian GluthGeorgios PaslakisShashi S. SeshiaGholson LyonShervin AssariGiacomo VivantiShraddha RegeGianluca SerafiniShyam SeetharamanGiordano D'UrsoSigny SheldonGiovanni AssenzaSiobhain M. O'mahonyGiri Kumar ChandakaSoledad ZarateGlen BergeronSonja ScholzGordon HarperSonya L. JakubecGregory FricchioneSophia FrangouGregory HeathStan KutcherGregory P. MuellerSt\u00e9phanie Chambaron-GinhacGuennadi SaikoStephen HollandGurudutt PendyalaStephen HoneybulH. Lee SwansonStephen R. JacksonHans Van Der SteenStephen SawcerHans-Gert BernsteinSteven A. J. ChamuleauHarrison C. WalkerSteven PassmoreHasse WalumSusan J. NicolsonHeather BowlingSusan JergerHideya KodamaSusann M. Brady-KalnayHiran ThabrewSu-Youne ChangHiroaki WakimotoSven KroenerHirokazu DoiT. Dianne LangfordHolly BowenTaku HatanoHon Wah LeeTatjana AueHong JiaoTerri PogodaHovagim BakardjianThanh Dang-VuHoward ChertkowTh\u00e9r\u00e8se M. JayHoward PrenticeThomas HeinbockelIlya BezprozvannyThomas W. WeickertInga D. NeumannTilman HenschIngvild Saksvik-LehouillierTimothy J. CrowIsaac T. SchieferTimothy RittmanItoh YasuhiroTobias DerfussJ. Leigh LeasureTobias S. AndersenJacqueline E. ReznikT\u00f6res TheorellJaishankar BharatharajTrinidad Montero-MelendezJake NeumannTrishna PatelJames AdamsUlrich PalmJames O'CallaghanVicki L. KristmanJames R. CouchVictor RiveraJannette Rodr\u00edguez-PallaresVictor V. DyakinJared W. YoungVictoria M. LeavittJavier Ortu\u00f1o-SierraVincent R. HarleyJayashri GhoshVincenzo GuidettiJean R. HughesVincenzo NataleJean-Philippe LangevinVirginia V. W. McIntoshJennifer BeerVishwanath SankarasubramanianJennifer L. LyonsWenchao ZhouJennifer RodgerWendy O. KalbergJeroen L. A. PenningsWilhelm MistiaenJ\u00e9r\u00f4me BrunelinWilliam D. KearnsJ\u00e9r\u00f4me DevyWissam DeebJerzy BodurkaWolfgang MannJessica RobinWoo-Yang KimJia ChengXiaobing YuanJie ShiXueni PanJill CrittendenYadvinder AhiJinyuan WangYang ZhangJoachim FandreyYe XiongJodi M HeapsYuan-Pin LinJoerg WischhusenYuri BozziJohanna BickYvonne HoellerJohn GruzelierZhuo XingJohn L. WoodardPeer review is an essential part in the publication process, ensuring that"} +{"text": "Scientific Reports6: Article number: 3275310.1038/srep32753; published online: 09082016; updated: 03162017This Article contains errors in Figure 5F\u2013J, where the right-hand y axes \u2018Density (lncRNAs)\u2019 are incorrectly given as \u2018Density (except lncRNAs)\u2019. The correct Figure 5 appears below as"} +{"text": "Scientific Reports6: Article number: 34490; 10.1038/srep34490 published online: 10042016; updated: 05032017.This Article contains a typographical error. In the Results section, under the heading \u2018The most affected protein interfaces in cancer\u2019,\u2018EGFR-ERRB2\u2019should read:\u2018EGFR-ERBB2\u2019."} +{"text": "Title: Generalized Tetanus Initially Presenting with DysmasesisAuthors:\u00a0Shah Faisal Ahmad Tarfarosh,\u00a0Omar Farooq,\u00a0Ishrat H. Dar,\u00a0Samia Rashid,\u00a0Ummer YaseenOriginal Citation: Zunga P M, Tarfarosh S, Farooq O, et al. Generalized Tetanus Initially Presenting with Dysmasesis . Cureus 8(6): e644. doi:10.7759/cureus.644The authors were originally placed in the incorrect order and Ummer Yaseen was erroneously added as an author instead of Mohd Iqbal Dar. The author list should be corrected as follows.Corrected Author List:\u00a0Omar Farooq,\u00a0Ishrat H. Dar, Mohd Iqbal Dar, Samia Rashid, Parvaiz M. Zunga, Shah Faisal Ahmad Tarfarosh"} +{"text": "Scientific Reports7: Article number: 45991; 10.1038/srep45991 published online: 04112017; updated: 09252017.In this Article, Figure 4 is incorrect. The correct Figure 4 appears below as"} +{"text": "Int J Epidemiol 2016; 45 (2): 554-564. doi: https://doi.org/10.1093/ije/dyv359First published online: 10 April 2016, A funding statement was missing for author David Stuckler. The funding statement should have included \u201cD.S. is funded by ERC HRES 313590.\u201d"} +{"text": "Scientific Reports4: Article number: 611510.1038/srep06115; published online: 08192014; updated: 05122017This article was originally published under a [CC BY-NC-SA 4.0/CC BY-NC-ND 4.0] license, but has now been made available under a [CC BY 4.0] license. The PDF and HTML versions of the paper have been modified accordingly."} +{"text": "Nature Communications8: Article number: 14158; DOI: 10.1038/ncomms14158 (2017); Published 02132017; Updated 11292017.In this Article, the clinical isolate MAD/GM3_10/14 of respiratory syncytial virus (RSV) is incorrectly described as an RSV A isolate. MAD/GM3_10/14 has been identified as an RSV B isolate on the basis of its fusion protein sequence. The fusion protein sequences of the clinical isolates used in this study have been deposited in GenBank under accession codes MF361899 (MAD/GM2_2/12), MF361900 (MAD/GM2_12/12), MF361901 (MAD/GM2_13/12), MF361902 (MAD/GM2_14/12), MF361903 (MAD/GM3_10/14), MF361904 (MON/9/92), and MF361905 (MAD/GM3_7/13)."} +{"text": "Scientific Reports7:459; doi:10.1038/s41598-017-00540-x; Article published online 28 March 2017This Article contains an incorrect version of Figure 7. The correct Figure\u00a07 appears below as Figure"} +{"text": "Scientific Reports6: Article number: 33830; 10.1038/srep33830 published online: 09222016; updated: 01192017.\u2212tg\u201d. The correct This Article contains an error in panel C of"} +{"text": "The records can be retrieved from the nucleotide database by searching Entrez Nucleotide using the accession numbers below:More detailed citations for the Chloroplast SNP data are also now available (* chloroplast_region1: KX556608 - KX556920* chloroplast_region2: KX556921 - KX557233* chloroplast_region3: KX556295 - KX556607* chloroplast_region4: KX555982 - KX556294"} +{"text": "Scientific Reports6: Article number: 2659110.1038/srep26591; published online: 05262016; updated: 10062016.This Article contains errors in Figure 2D where the Hodgkin lymphoma \u2018TET1-MSP\u2019 methylated and unmethylated MSP bands are incorrect. The correct Figure 2D appears below as"} +{"text": "Adenocarsinoma macroscopic view.Figure 4. Adenocarsinoma microscopy view.Figure 6. Adenocarsinoma spot samples in MALDI spectrometry. MALDI\u200a = \u200amatrix assisted laser desorption ionization."} +{"text": "The correct name is: Khan Bahadar Khan. The correct citation is: Bahadar Khan K, A Khaliq A, Shahid M (2016) A Morphological Hessian Based Approach for Retinal Blood Vessels Segmentation and Denoising Using Region Based Otsu Thresholding. PLoS ONE 11(7): e0158996. doi:"} +{"text": "Scientific Reports6: Article number: 3029810.1038/srep30298; published online: 07222016; updated: 09022016In this Article, reference 15 is duplicated as reference 13. The correct reference 15 appears below:Mol. Neurobiol. 50, 1\u20135 (2014).Bazan, N. G. Is there a molecular logic that sustains neuronal functional integrity and survival? Lipid signaling is necessary for neuroprotective neuronal transcriptional programs."} +{"text": "In our recent article , it has Additional file 1:Table S2. Gene count table for 48 RNA-seq nasal brushing subjects from GALA cohort. (XLSX 5732 kb)"} +{"text": "Scientific Reports6: Article number: 38442; 10.1038/srep38442 published online: 12022016; updated: 02162017.This Article contains an error in Table 4. The text in the first row \u2018CON_PiiA (strain P3UCB1)\u2019 was incorrectly given as \u2018CON_PiiB (strain H17O-S1).\u2019"} +{"text": "Scientific Reports6: Article number: 2454910.1038/srep24549; published online: 04152016; updated: 02092017This Article contains an error in Figure 4, where Figure 4d was inadvertently duplicated in Figure 4h. The correct Figure 4 appears below as"} +{"text": "Scientific Reports7: Article number: 40537; 10.1038/srep40537 published online: 01162017; updated: 04072017.This Article contains errors in Table 1. The correct Table 1 appears below as"} +{"text": "AbstractCulicoides biting midges are small insects that are proven vectors of pathogens that cause disease in animals and humans. There are 1,368 species of Culicoides in the world, including 149 species in Brazil and 122 species in the Brazilian Amazon Basin. This study documents specimens that were collected between 2013 and 2015 in the municipalities of Alvorada d\u2019Oeste, Buritis, Cacoal, Costa Marques, Espig\u00e3o d\u2019Oeste, Guajar\u00e1-Mirim, Pimenta Bueno, Porto Velho and S\u00e3o Francisco Guapor\u00e9. Collections were performed using HP light traps in forest, pasture and peridomicilie environments.Culicoidescarpenteri Wirth & Blanton, 1953; C.dasyophrus Macfie, 1940; C.eublepharus Macfie, 1948; C.galindoi Wirth & Blanton, 1953; C.heliconiae Fox & Hoffman, 1944; and C.ignacioi Forattini, 1957. This is the first record in Brazil of C.darlingtonae Wirth & Blanton, 1971.Species newly recorded in Rond\u00f4nia State include Culicoides Latreille, 1809 are small insects; their blood-feeding females bite birds and mammals, including humans, and they sometimes feed in large swarms. The bites are painful and can cause severe reactions. These insects can also transmit pathogens that cause disease in humans and domestic animals of economic importance and peridomicilies .During entomological studies carried out between 2013 and 2015, in the municipalities of Alvorada d\u2019Oeste, Buritis, Cacoal, Costa Marques, Espig\u00e3o d\u2019Oeste, Guajar\u00e1-Mirim, Pimenta Bueno, Porto Velho and S\u00e3o Francisco Guapor\u00e9 Culicoides specimens were preserved in 70% ethanol, and then dissected and slide-mounted in phenol-balsam as described by Culicoides species was based on Fox & Hoffman, 1944Culicoides (Hoffmania) heliconiaeC.rozeboomi Barbosa, 1947 Synonyms: Type status:Other material. Occurrence: recordedBy: J.F. Medeiros; individualCount: 1; sex: male; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Cacoal; verbatimCoordinates: 11\u00b025'53\"S; 61\u00b026'52\"W11\u00b025'53\"S; 61\u00b026'52\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-11-12/21; habitat: fragmented forestType status:Other material. Occurrence: recordedBy: L.P.C. Carvalho; individualCount: 1; sex: female; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Buritis; verbatimCoordinates: 10\u00b012'47\"S; 63\u00b053'46\"W10\u00b012'47\"S; 63\u00b053'46\"W; Event: samplingProtocol: HP light traps; eventDate: 2015-05-26; habitat: forest3 which is narrow and transverse, r3 with pale spot present anterior to base of M1, a single pale spot crosses the second radial cell, apices of CuA1 and CuA2 pale; spermathecae with short, slender necks , Grenada and Trinidad and Tobago .This species was here recorded for the first time in Rond\u00f4nia State.Forattini, 1957Culicoides (Hoffmania) ignacioiC.saintjusti Tavares & Ruiz, 1980 Synonyms: Type status:Other material. Occurrence: recordedBy: L.P.C. Carvalho; individualCount: 1; sex: male; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Porto Velho; locationRemarks: Pesque e Pague Farm; verbatimCoordinates: 08\u00b040'02\"S; 63\u00b042'14\"W08\u00b040'02\"S; 63\u00b042'14\"W; Event: samplingProtocol: HP light traps; eventDate: 2015-05-13/14; habitat: pastureType status:Other material. Occurrence: recordedBy: J.F. Medeiros; individualCount: 3; sex: female; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Guajar\u00e1-Mirim; verbatimCoordinates: 10\u00b047'18\"S; 65\u00b020'32\"W10\u00b047'18\"S; 65\u00b020'32\"W; Event: samplingProtocol: HP light traps; eventDate: 2013-10; habitat: forestC.fernandoi, but can be distinguished by the mandible which has 20\u201322 teeth (14\u201315 in C.fernandoi), vein R3 pale , distal pale spot in cell r3 large, transverse (crescent-shaped or subdivided in C.fernandoi) .Brazil and Paraguay .This species was here recorded for the first time in Rond\u00f4nia State.Wirth & Blanton, 1953Type status:Other material. Occurrence: recordedBy: J.F. Medeiros; individualCount: 1; sex: female; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Costa Marques; verbatimCoordinates: 12\u00b024'25\"S; 64\u00b014'26\"W12\u00b024'25\"S; 64\u00b014'26\"W; Event: samplingProtocol: HP light traps; eventDate: 2015-05-22; habitat: forest3 broadly extending across cell near apex from anterior wing margin to vein M1; apices of veins M1, M2 and CuA1 dark; subapical pale spot in cell m2, distal pale spot in cell m1 broadly meeting wing margin; two pale spots in distal part of cell m2, the distal one broadly meeting wing margin; the proximal one connected by a pale area extending to base of cell and including the pale spots lying in front of mediocubital fork and behind medial fork; pale area in cell CuA1 nearly filling entire cell; anal cell pale except for a large dark area centering on middle of stem of mediocubital vein; halter pale .This species was here recorded for the first time in Rond\u00f4nia State.Macfie, 1940Type status:Other material. Occurrence: recordedBy: J.F. Medeiros; individualCount: 1; sex: female; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Cacoal; verbatimCoordinates: 11\u00b025'53\"S; 61\u00b026'52\"W11\u00b025'53\"S; 61\u00b026'52\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-11-12/21; habitat: forest3 more or less fused, the posterior one located slightly proximad of the anterior one, distal pale spot in cell r3 small, only one small pale spot in distal part of anal cell and one pale spot in distal part of cell m2; halter whitish; spermatheca one, pyriform .This species was here recorded for the first time in Rond\u00f4nia State.Macfie, 1948CulicoideseublepharusC.transferrans Ortiz, 1953 Synonyms: Type status:Other material. Occurrence: recordedBy: J.F. Medeiros; individualCount: 1; sex: female; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Cacoal; verbatimCoordinates: 11\u00b025'53\"S; 61\u00b026'52\"W11\u00b025'53\"S; 61\u00b026'52\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-11-12/21; habitat: forest fragment3, the distal pair usually fused and broadly attaining wing margin anteriorly; two pale spots each in cells m1 and apices of cells m2 and anal cell; pale spots present behind medial fork and in front of mediocubital fork; halter yellowish; spermatheca one, oval with a short portion of the duct sclerotized .This species was here recorded for the first time in Rond\u00f4nia State.Wirth & Blanton, 1953Type status:Other material. Occurrence: recordedBy: J.F. Medeiros; sex: 1 female, 1 male; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Cacoal; verbatimLocality: Ch\u00e1cara do Gerson and Rancho Cassiano; verbatimCoordinates: 11\u00b025'53\"S; 61\u00b026'52\"W11\u00b025'53\"S; 61\u00b026'52\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-11-12/21; habitat: forest fragment3 rounded distally, leaving a small dark area in apex of cell; halter pale; spermathecae two, pyriform, subequal .This species was here recorded for the first time in Rond\u00f4nia State.Wirth & Blanton, 1971Type status:Other material. Occurrence: recordedBy: J.F. Medeiros; sex: 2 females, 3 males; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Espig\u00e3o do Oeste; verbatimCoordinates: 11\u00b067'63\"S; 60\u00b069'90\"W11\u00b067'63\"S; 60\u00b069'90\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-04; habitat: forestType status:Other material. Occurrence: recordedBy: J.F. Medeiros; sex: 3 females, 5 males; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Pimenta Bueno; verbatimLocality: Usina Hidrel\u00e9trica Rondon II; verbatimCoordinates: 11\u00b096'48\"S; 60\u00b069'90\"W11\u00b096'48\"S; 60\u00b069'90\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-10-10/11; habitat: fragment forestType status:Other material. Occurrence: recordedBy: J.F. Medeiros; individualCount: 1; sex: female; lifeStage: adult; Location: country: Brazil; stateProvince: Rond\u00f4nia; municipality: Cacoal; verbatimLocality: Rancho Cassiano; verbatimCoordinates: 11\u00b025'53\"S; 61\u00b026'52\"W11\u00b025'53\"S; 61\u00b026'52\"W; Event: samplingProtocol: HP light traps; eventDate: 2014-11-12/21; habitat: fragment forest3 with contiguous poststigmatic pale spots, cell m1 with two pale spots, cell m2 with small pale spot; two spermathecae and rudimentary third, with sclerotized ring .This species was here recorded for the first time in Brazil.Culicoides species collected in this study are distributed throughout the Brazilian Amazon (C.dasyophrus, C.eublepharus, C.galindoi and C.ignacioi are found from Acre State to Maranh\u00e3o State (C.heliconiae herein were collected in a forest environment, which is the same habitat as the specimens collected by Fittkau in 1970 in APEG Forest, Par\u00e1 State (The major n Amazon ; C.dasy\u00e3o State . The sper\u00e1 State . The mair\u00e1 State .Culicoidesignacioi is distributed throughout Paraguay and Brazil (Culicoides from many points of collection and this species was captured in highest abundance in Cerrado forest, in the State of Maranh\u00e3o.d Brazil . In Brazd Brazil . The speCulicoideseublepharus has been recorded in Mexico, Costa Rica, Venezuela, Ecuador and Brazil. It has been found in the Brazilian Amazon in states of Amazonas, Par\u00e1 and Roraima ( Roraima . The speCulicoides still is understood in Brazil. This study shows that species diversity is high among Amazonian Culicoides. Furthermore, this study will be helpful in knowledge of Culicoides fauna in the Amazon, and may contribute to a better understanding of the medical importance and vector epidemiology these insects.This study increases the number of species recorded in Rond\u00f4nia State to 40. Of the seven species here recorded, all are new records in Rond\u00f4nia state, and one is also a new record in Brazil; underlining how poorly the distribution of even medically important insects such as"} +{"text": "Nature Communications6: Article number: 6549; DOI: 10.1038/ncomms7549 (2015); Published: 03202015; Updated: 04202017This Article was originally published under a CC BY-NC-ND 4.0 license, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly."} +{"text": "Nature Communications 7:12321 doi:10.1038/ncomms12321 (2016); Published 5 Aug 2016; Updated 13 Sep 2016In"} +{"text": "The European Centre for Disease Prevention and Control (ECDC) invites applications for the following position:Scientific Officer Epidemic Intelligencehttps://ecdc.europa.eu/en/work-us/vacancies?f%5B0%5D=deadline_date%3A1The application deadline expires on 22 March 2018. For more information, please visit the ECDC website:"} +{"text": "Lathyrus sativus L.) Genotypes under Salinity Stress\u201d [Lathyrus sativus) Genotypes, Differing in Arsenic Tolerance. Agric Res (2013) 2: 330. doi:10.1007/s40003-013-0085-3 in Figure 6.International Scholarly Research Notices has retracted the article titled \u201cGrowth Responses and Leaf Antioxidant Metabolism of Grass Pea ( Stress\u201d . The art"} +{"text": "Scientific Reports7: Article number: 4219710.1038/srep42197; published online: 02142017; updated: 03232017This Article contains an error in the Acknowledgements section:\u201cMatthieu Raoelsion\u201dshould read:\u201cMatthieu Raoelison\u201d"} +{"text": "Scientific Reports7: Article number: 46709; 10.1038/srep46709 published online: 04272017; updated: 09072017.In this Article, Figure 2b is a duplication of Figure 2c. The correct Figure 2b appears below as"} +{"text": "The two phen planes are oriented at a dihedral angle of 57.48\u2005(11)\u00b0. The perchlorate anion links with the Mn complex cation via weak C\u2014H\u22efO hydrogen bonding.In the title complex, [Mn(CHO DOI: 10.1107/S1600536809049277/xu2641Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The ZnII atom (site symmetry trans-ZnN2O4 octa\u00adhedral geometry defined by two monodentate N-bonded and two bidentate O,O-bonded ppa monoanions. The extended two-dimensional structure arising from this connectivity is a square grid and the disordered uncoordinated water mol\u00adecules occupy cavities within the grid. An N\u2014H\u22efO hydrogen bond occurs.The title compound, {[Zn(C DOI: 10.1107/S1600536809036939/hb5062Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The hydrogen-bonding scheme gives rise to a three-dimensional network.In the crystal structure of the title compound, C DOI: 10.1107/S1600536808014347/tk2271Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecules are linked by N\u2014H\u22efO hydrogen bonds, forming a layer network.In the mononuclear title compound, [Cd(C DOI: 10.1107/S1600536808009409/ng2436Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The remaining coordination sites are occupied by two N atoms of a 1,10-phenanthroline ligand and two O atoms of a 6-hydroxy\u00adnaphthalene-1-carboxyl\u00adate ligand. The crystal packing is stabilized by O\u2014H\u22efO hydrogen-bonding inter\u00adactions.The title complex, [Cd DOI: 10.1107/S1600536809043475/bt5107Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Adjacent Sn atoms are bridged by coordination to the two O atoms of each 1,1\u2032-binaphthyl-2,2\u2032-diyl phospho\u00adnate ligand, forming a one-dimensional chain structure parallel to the b axis.In the title polymeric coordination compound, [Sn(CH DOI: 10.1107/S160053680905291X/sj2705Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two imidazole rings are in an anti configuration. The anion has a trigonal planar coordination geometry.The title compound, (C DOI: 10.1107/S1600536808021521/cf2209Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The heterocyclic ring exhibits a twisted conformation.In the crystal structure of the title compound, C DOI: 10.1107/S1600536808007186/ng2433Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the title compound, C DOI: 10.1107/S1600536808012452/sg2233Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "It is isotypic with K2Bi(PO4)(WO4). The three-dimensional framework is built up from [Bi(PO4)(WO4)] nets, which are organized by adhesion of [BiPO4] layers and [WO4] tetra\u00adhedra above and below of those layers. The inter\u00adstitial space is occupied by Cs atoms. Bi, W and P atoms lie on crystallographic twofold axes.Dicaesium bis\u00admuth(III) phosphate(V) tungstate(VI), Cs DOI: 10.1107/S160053680903147X/br2113Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809052015/rz2395Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular O\u2014H\u22efO hydrogen bonds link the complex and solvent mol\u00adecules into infinite chains.In the monomeric title compound, [Sn(C DOI: 10.1107/S1600536808016140/hb2726Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The packing is governed by inter\u00admolecular O\u2014H\u22efO hydrogen-bonding inter\u00adactions.In the title coordination polymer, [Sm(C DOI: 10.1107/S1600536808031036/rz2243Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cl\u2212 anions take part in the formation of weak C\u2014H\u22efCl hydrogen bonds, which contribute to the crystal packing stabilization.In the title compound, [Cr(C DOI: 10.1107/S1600536808016784/cv2410Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular O\u2014H\u22efO hydrogen bonds link complex and solvent mol\u00adecules into a three-dimensional network.The binuclear title complex, [Hg DOI: 10.1107/S1600536809026221/lh2830Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Intra\u00admolecular N\u2014H\u22efCl hydrogen bonding is observed in the dimeric complex.In the title complex, [Cu DOI: 10.1107/S1600536809044997/xu2644Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ferrocene-1,1\u2032-diyl units exhibit a regular geometry with negligible tilting and balanced Fe\u2013ring centroid distances, and with the attached substituents assuming conformations close to ideal synclinal eclipsed.The title compound, [Fe(C DOI: 10.1107/S1600536809036459/dn2483Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cd atom lies on an inversion centre. The distorted octa\u00adhedral Cd environment contains two planar trans-related N,N-chelating S-2-(pyrrolidin-2-yl)-1H-1,3-benzimidazole ligands in one plane and two monodentate nitrate ligands. N\u2014H\u22efO hydrogen bonds involving a nitrate O atom build up an infinite chain parallel to the a axis.The title compound, [Cd(NO DOI: 10.1107/S1600536808006454/dn2315Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Three methyl\u00adene groups of the ligand are disordered over two orientations in a 0.555\u2005(6):0.445\u2005(6) ratio.In the title compound, [Zn(C DOI: 10.1107/S1600536808005060/hb2702Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal packing, complex mol\u00adecules are linked by hydrogen bonds into a two-dimensional layer.The asymmetric unit of the title compound, [Zn(C DOI: 10.1107/S1600536809001688/kp2199Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Zn atom is coordinated by two chelating acetyl\u00adacetonate groups and one oxazoline ligand in the apical position of a slightly distorted square-pyramidal metal\u2013ligand geometry.The title material, [Zn(C DOI: 10.1107/S1600536808042712/kj2105Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809045930/br2124Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809007399/ng2554Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810003879/hb5301Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The solvent mol\u00adecule is linked to the 28-atom ring by two hydrogen bonds.In the dinuclear centrosymmetric title complex, [Hg DOI: 10.1107/S1600536808028754/ng2488Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials: interactive version of Fig. 3 Enhanced figure:"} +{"text": "In the crystal structure, mol\u00adecules are linked through inter\u00admolecular N\u2014H\u22efS hydrogen bonds, forming chains along the b axis.In the mononuclear title compound, [Zn(NCS) DOI: 10.1107/S1600536810007300/ci5046Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymmetric unit consists of one Cd2+ cation, one succinate anion and two aqua ligands. The Cd atoms present a distorted penta\u00adgonal bipyramidal coordination and are bridged into layers parallel to (201) by succinate ligands.The title compound, [Cd(C DOI: 10.1107/S1600536809011593/bg2243Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808006417/cs2069Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The BPTC anions link the CdII atoms, forming a one-dimensional chain structure. The L ligands are attached on both sides of the chain. A twofold rotation axis passes through the complex molecule. The crystal structure involves O\u2014H\u22efO hydrogen bonds.In the title compound, {[Cd DOI: 10.1107/S1600536808013676/rz2212Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Pd atom displays a slightly distorted square-planar geometry, with the N- and C-atom donors in a cis arrangement.The centrosymmetric title compound, [Pd DOI: 10.1107/S1600536808010301/cs2073Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angles between the pyridine and benzene rings are 23.9\u2005(6) and 70.7\u2005(1)\u00b0.In the title compound, [CrCl DOI: 10.1107/S1600536810034689/ng5023Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The In atom has a six-coordinate octa\u00adhedral environment, being bonded to the N atoms of six thio\u00adcyanate groups. The bond lengths and angles show normal values. The crystal packing exhibits no significantly short inter\u00admolecular contacts.The title complex, [Na(C DOI: 10.1107/S1600536809039282/ds2003Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cu atom -1H-1,2,4-triazole ligands [dihedral angle between the triazole and pyridine rings = 68.08\u2005(8)\u00b0] result in a two-dimensional 44 sheet structure in the crystal.The title coordination polymer, [CuCl DOI: 10.1107/S160053680900645X/hb2898Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The centrosymmetric dimer contains two Jahn\u2013Teller-distorted mangan\u00adese(III) ions, each in an octa\u00adhedral geometry, connected through two phen\u00adoxy bridges from two ligands.The title compound, [Mn DOI: 10.1107/S1600536808000226/hy2115Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the cyano\u00adphenyl and phenolate rings is 47.62\u2005(7)\u00b0.In the title complex, [Ni(C DOI: 10.1107/S1600536808004765/dn2310Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809051629/ci2979Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CoII atom (site symmetry trans-CoN2O4 octa\u00adhedral geometry defined by two monodentate N-bonded and two bidentate O,O\u2032-bonded ppa anions. The extended two-dimensional structure is a square grid, which is consolidated by N\u2014H\u22efO hydrogen bonds. The disordered uncoordinated water mol\u00adecules occupy cavities within the grid.The title compound, {[Co(C DOI: 10.1107/S1600536809040185/hb5124Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "There are two distinct Mn2+ cations in the chain, both with site symmetry 4]2\u2212 tetra\u00adhedra occupy the spaces between the chains.The title compound, [Mn(C DOI: 10.1107/S1600536808028912/hb2779Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular hydrogen bonds of the type C\u2014H\u22efX link the complexes into a two-dimensional network.In the title complex, [Ni(C DOI: 10.1107/S1600536810007336/jh2131Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The thio\u00adcyanate ligand acts as bridging ligand, forming chains along [100]. A crystallographic mirror plane runs through the CuI ion, the thio\u00adcyanate ligand and the middle of the phenanthroline ligand.In the title complex, [Cu(NCS)(C DOI: 10.1107/S1600536810035002/lh5123Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The hydrogen-bonding inter\u00adactions give rise to a two-dimensional array.In the title compound, C DOI: 10.1107/S1600536809009544/tk2398Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680900422X/tk2359Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Rh atoms in the cations and anion exhibit square-planar coordination and are separated without any unusual inter\u00adactions.In the title complex, [Rh(C DOI: 10.1107/S1600536808032509/pv2102Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CuII ions are linked into a one-dimensional coordination polymer by tethering 1,3-di-4-pyridylpropane ligands, whose central methyl\u00adene C atoms are situated on twofold rotation axes. The chains are oriented parallel to the c axis, and stack into a supra\u00admolecular three-dimensional structure through O\u2014H\u22efO hydrogen-bonding inter\u00adactions.In the title compound, [Cu(C DOI: 10.1107/S1600536809031821/tk2526Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bond distances in the coordinated i-mnt ligands indicate some delocalization of the \u03c0-system.In the title compound, (C DOI: 10.1107/S1600536808036726/pk2127Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CuII atom lies on an inversion center and is four-coordinated in a square-planar geometry by two N and two O atoms from two 4-bromo-2-(cyclo\u00adpentyl\u00adimino\u00admeth\u00adyl)phenolate Schiff base ligands.The title compound, [Cu(C DOI: 10.1107/S1600536809006606/su2099Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Electron delocalization occurs within the chelating rings.In the title compound, [Al(C DOI: 10.1107/S1600536809049812/xu2684Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure involves intermolecular C\u2014H\u22efS hydrogen bonds.In the dinuclear title compound, [Zn{S DOI: 10.1107/S1600536808010003/sj2481Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "An N\u2014H\u22efO hydrogen bond links the mononuclear complex to the DMF solvent mol\u00adecules.In the structure of [Cu(C DOI: 10.1107/S1600536808043808/tk2349Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809010587/tk2401Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Acta Cr DOI: 10.1107/S1600536808022952/bx2160Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The carboxyl\u00adate anion is equally disordered over two positions.The tin atom in the title compound, [Sn(C DOI: 10.1107/S1600536810005921/xu2728Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination polyhedron shows a slightly distorted Archimedean square antiprismatic geometry. The asymmetric unit contains a toluene solvent mol\u00adecule. The crystal structure involves C\u2014H\u22ef.F hydrogen bonds.In the title compound, [Hf(C DOI: 10.1107/S1600536808015237/hy2134Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure is stabilized by inter\u00admolecular N\u2014H\u22efO hydrogen bonding.In the cation of the title compound, C DOI: 10.1107/S1600536809039026/xu2591Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecule adopts a classical gauche conformation.In the title compound, C DOI: 10.1107/S1600536810036676/bt5357Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecules are linked together via hydrogen bonds involving the water mol\u00adecules, forming a three-dimensional network.In the title complex, [La(C DOI: 10.1107/S1600536808001955/hg2369Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two independent tin atoms show distorted trigonal-bipyramidal SnC2O3 and SnC2O2Br coordination geometries.In the centrosymmetric title compound, [Sn DOI: 10.1107/S1600536809051691/hb5234Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809045413/cv2637Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Adjacent CuII atoms are connected via the bridging tetra\u00adfluoro\u00adterephthalate ligands into a one-dimensional chain running along the [101] direction.In the title compound, [Cu(C DOI: 10.1107/S1600536808018977/hy2139Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809035272/tk2532Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure involves intra- and intermolecular O\u2014H\u22efO hydrogen bonds.In the title compound, [Mg(SO DOI: 10.1107/S1600536808009938/im2060Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The DMPA ligands coordin\u00adate in the bis-chelate, bridging and bridging tridentate modes.In the title centrosymmetric dinuclear complex, [Tm DOI: 10.1107/S1600536809051435/lh2956Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules form a layered network linked by O\u2014H\u22efO hydrogen bonds.In the title compound, [Zn(C DOI: 10.1107/S1600536808042530/hb2880Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mononuclear mol\u00adecule lies on a twofold axis that passes through the pyridine N atoms. The toluene solvent mol\u00adecule is equally disordered about a twofold axis.In the title chromium silanethiol\u00adate, [Cr(C DOI: 10.1107/S1600536809021680/ng2589Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the aromatic rings of the ligand is 67.9\u2005(4)\u00b0. In the crystal, inversion dimers linked by pairs of N\u2014H\u22efO hydrogen bonds occur, generating R 2 2(8) loops.In the title complex, [Cu(C DOI: 10.1107/S1600536810010305/hb5365Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Adjacent layers are linked through weak van der Waals inter\u00adactions, resulting in a three-dimensional supra\u00admolecular network.In the title complex, [Ni(C DOI: 10.1107/S1600536809033820/at2863Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808020679/nc2107Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Weak C\u2014H\u22efO inter\u00adactions join the mol\u00adecules together into an infinite three-dimensional network.The asymmetric unit of the title compound, C DOI: 10.1107/S1600536809031924/jh2093Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808020424/bi2288Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810010147/bt5216Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII atom lies on a center of inversion.The dithio\u00adcarbamate anions in the title compound, [Ni(C DOI: 10.1107/S1600536810006677/sj2734Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The four-coordinate CuII ion \u20132.881\u2005(3)\u2005\u00c5], which link the chains into a three-dimensional structure.The title compound, [CuEu DOI: 10.1107/S1600536808038476/pv2118Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII ions are connected via the tetra\u00adfluoro\u00adterephthalate anions into a one-dimensional chain running along the crystallographic [011] direction.In the title compound, [Ni(C DOI: 10.1107/S1600536808016619/cv2417Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular N\u2014H\u22efO hydrogen bonds link the mol\u00adecules related by translation along the b axis into two independent hydrogen-bonded chains. The crystal studied exhibited inversion twinning.The title compound, C DOI: 10.1107/S1600536808014232/cv2412Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Mol\u00adecules are linked by Cl atoms to form a zigzag chain extending in the c direction.In the title compound, [Bi(C DOI: 10.1107/S1600536808032820/su2063Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both cations are completed by crystallographic inversion symmetry, generating almost regular ZnO6 octa\u00adhedra. In the crystal, the cations, anions and uncoordinated water mol\u00adecules are linked by O\u2014H\u22efO hydrogen bonds, forming a three-dimensional network.The asymmetric unit of the title hydrated mol\u00adecular salt, [Zn(H DOI: 10.1107/S1600536809048375/hb5229Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The crystal structure is stabilized by N\u2014H\u22efBr hydrogen bonds.The tin(IV) atom in the salt, (C DOI: 10.1107/S1600536808013561/bt2709Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each AgI ion shows a linear AgN2 coordination. The ions are linked by N\u2014H\u22efO hydrogen bonds.The asymmetric unit of the title compound, [Ag(C DOI: 10.1107/S1600536809051459/ci2975Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the title compound, [Co(C DOI: 10.1107/S1600536809007387/ng2552Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808002687/su2042Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ligands bridge the Zn atoms to form a two-dimensional -network.In the title compound, [Zn(C DOI: 10.1107/S1600536808023982/bt2755Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In addition, the crystal structure is stabilized by numerous O\u2014H\u22efO and N\u2014H\u22efO hydrogen bonds.In the title three-dimensional coordination polymer, {[Fe(C DOI: 10.1107/S1600536808006326/gk2125Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Schiff base ligand coordinates via the imine N and pyridine N atoms. The CoII atom lies on a crystallographic twofold rotational axis. Non-classical inter\u00admolecular C\u2014H\u22efO hydrogen bonds link the complex mol\u00adecules into chains along [001].In the title complex, [Co(NCS) DOI: 10.1107/S1600536809029006/pv2186Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810038043/gk2299Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, cations associate via N\u2014H\u22efO hydrogen bonds involving the ammonium and carbonyl residues, forming a 14-membered {\u22efHNC2NCO}2 synthon. The cations and anions are arranged in alternating layers arranged along the a-axis direction, the major association between them being N\u2014H\u22efBr contacts.In the title salt, (C DOI: 10.1107/S160053680904687X/hb5214Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809006370/ez2159Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809043359/hb5097Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The Pd atom is located on a crystallographic twofold rotation axis: thus, there is just one half-mol\u00adecule in the asymmetric unit. The structure is isomorphous with the platinum analogue cis-[PtCl2{P(OMe)2Ph}2].The title compound, [PdCl DOI: 10.1107/S1600536810006471/bt5195Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymmetric unit contains one half mol\u00adecule in which the Pd atom lies on a centre of symmetry.In the title complex, [Pd(C DOI: 10.1107/S1600536809016390/rk2144Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809004243/tk2371Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atom lies on an inversion center in a distorted octa\u00adhedral environment with two planar trans-related N,N\u2032-chelating 2-[5-(2-pyrid\u00adyl)-2H-tetra\u00adzol-2-yl]acetic acid ligands in the equatorial plane and two water mol\u00adecules in the axial positions. In the crystal, O\u2014H\u22efO hydrogen bonds generate an infinite three-dimensional network.The title compound, [Zn(C DOI: 10.1107/S1600536809023940/dn2467Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the title compound, C DOI: 10.1107/S1600536808025312/pv2092Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809030700/hy2214Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure has been published previously but H atoms were not included in the model [Raston & White \u00b0. One ethyl group is disordered over two positions of equal occupancy.The title compound, [Sb(Chite 1976. Chem. S DOI: 10.1107/S1600536809005303/fi2068Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure involves inter\u00admolecular C\u2014H\u22efN hydrogen bonds.In the centrosymmetric title dinuclear zinc(II) compound, [Zn DOI: 10.1107/S1600536808013184/bq2072Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808025531/ez2133Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII atom (site symmetry trans-NiN2O4 octa\u00adhedral geometry defined by two monodentate N-bonded and two bidentate O,O\u2032-bonded ppa monoanions. The extended two-dimensional structure is a square grid. An inter\u00admolecular N\u2014H\u22efO hydrogen bond occurs.The title compound, [Ni(C DOI: 10.1107/S1600536809055408/hb5292Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complex mol\u00adecule has a \u03bc-dialkoxo-bridged binuclear structure with both CuII centers exhibiting a square-planar coordination geometry.The title complex, [Cu DOI: 10.1107/S1600536808024707/gk2162Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each bia ligand acts as bridge between CdII ions, forming one-dimensional coordination polymers along [010], with a shortest Cd\u22efCd distance of 4.27\u2005(2)\u2005\u00c5.In title compound, [Cd(C DOI: 10.1107/S1600536808041044/bi2328Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between adjacent benzene rings is 70.33\u2005(12)\u00b0.In the title compound, [Cu(C DOI: 10.1107/S160053680900796X/bq2120Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the pyridine and benzene rings is 8.04\u2005(17)\u00b0.In the title complex, [ZnBr DOI: 10.1107/S1600536809025653/lh2845Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809031596/hb5040Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Br- counter- anion is also located on an inversion centre.In the title compound, [CoBr DOI: 10.1107/S160053680904166X/is2468Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two phenolate rings form a dihedral angle of 10.53\u2005(2)\u00b0.In the title complex, [Co(C DOI: 10.1107/S1600536808034144/gw2053Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Zn atom is five coordinated by two azide anions and three nicotinate N-oxide ligands. Each nicotinate N-oxide bridges three Zn atoms, whereas the azide bridges two Zn atoms, resulting in the formation of a two-dimensional metal\u2013organic polymer developing parallel to (100).The title compound, [Zn(C DOI: 10.1107/S1600536808039275/dn2407Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two of the three Lu atoms occupy special positions (Wyckoff positions 3a and 3b, site symmetry c axis, with a repeat period of 12 PO4 tetra\u00adhedra, joined with LuO6 octa\u00adhedra.A new polymorph of lutetium polyphosphate, Lu(PO DOI: 10.1107/S1600536808021995/fi2065Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536807067773/hg2363Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure contains isolated neutral complexes, which are linked by O(water)\u2014H\u22efN hydrogen bonds generating chains along [010].In the title compound, [Mn(C DOI: 10.1107/S1600536808041755/fj2176Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular N\u2014H\u22efO hydrogen bonds link mol\u00adecules into one-dimensional chains propagating along the b axis direction.In the title complex, [Cu(C DOI: 10.1107/S1600536808001803/lh2590Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Zn atom is four-coordinated by two O and two N atoms from two Schiff base ligands, forming a severely distorted square-planar geometry. The central C atom of the propyl group is disordered over two positions about the twofold axis.The title mononuclear zinc(II) complex, [Zn(C DOI: 10.1107/S1600536808015602/rz2218Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules are linked through inter\u00admolecular N\u2014H\u22efO hydrogen bonds, forming chains running along the a axis.In the title centrosymmetric mononuclear nickel(II) complex, [Ni(C DOI: 10.1107/S1600536808023684/sj2526Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ligand L adopts an N:N\u2032-bidentate bridging mode in a trans configuration, bridging the Cu atoms via translation symmetry, forming a two-dimensional layer-like structure. The perchlorate ions serve as acceptors for inter\u00admolecular C\u2014H\u22efO hydrogen bonds, which link the layers into a three-dimensional network. The ClO4 \u2212 anion is disordered with an occupation ratio of 0.658:0.342.In the title compound, {[Cu(C DOI: 10.1107/S1600536809008708/su2101Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809019795/xu2530Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal atom lies on a special position of The metal atom of the title salt, [Co(C DOI: 10.1107/S1600536809051423/ci2949Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are packed in layers parallel to the (101) plane.In the title molecular salt, C DOI: 10.1107/S1600536809054026/vm2016Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complex has a bridging bis-bidentate carboxyl\u00adate group resulting in a zig-zag chain structure parallel to [001]. The Sn atom is six-coordinated and displays a distorted octa\u00adhedral geometry.The title complex, [Sn(CH DOI: 10.1107/S1600536809004097/bx2192Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by N\u2014H\u22efBr hydrogen bonds, generating sheets containing R 2 2(8) loops.In the title compound, [ZnBr DOI: 10.1107/S1600536809043694/hb5146Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Non-classical inter\u00admolecular C\u2014H\u22efO hydrogen bonds link the complex into a three-dimensional supra\u00admolecular framework.In the title compound, [Zn(C DOI: 10.1107/S160053680904001X/lx2113Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two cyclo\u00adhexane rings assume the typical chair conformation. No hydrogen bonding is observed in the crystal structure.In the title compound, [Ti(C DOI: 10.1107/S1600536808002870/xu2396Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "\u00c5], giving a three-dimensional supra\u00admolecular framework.The title compound, {[Cd(C al. 2009. J. Coor DOI: 10.1107/S1600536810036147/bg2362Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The three independent halogen atoms are each a mixture of bromine and chlorine atoms . An N\u2014H\u22ef hydrogen bond is present.The Sn atom in the title salt, (C DOI: 10.1107/S1600536809019734/tk2458Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure involves O\u2014H\u22efO hydrogen bonds.In the title compound, [Zn(C DOI: 10.1107/S1600536808015742/hy2133Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680803643X/at2661Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "II atom in the title compound, [Pb(C10H8NO)2], is chelated by two oxine (2-methyl\u00adquinolin-8-olate) anions in a \u03a8-trigonal\u2013bipyramidal geometry; the N atoms occupy the axial sites. The mol\u00adecule lies about a twofold rotation axis.The Pb DOI: 10.1107/S1600536810012742/bt5241Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Adjacent Sn atoms are bridged by coordination to the two O atoms of each 2-chloro\u00adphenyl\u00adacetato ligand, forming a chain structure. In the title polymeric coordination compound, [Sn(CH DOI: 10.1107/S1600536809038872/sj2651Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809033479/hb5057Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A symmetry-generated cpp ligand completes the CoN2O3 trigonal-bipyramidal geometry for the metal ion, with the N atoms occupying both equatorial and axial sites. The bridging cpp ligands form chains propagating in [110] and O\u2014H\u22efO hydrogen bonds consolidate the packing.In the title compound, [Co(C DOI: 10.1107/S1600536809035089/hb5085Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The four water O atoms in the equatorial plane around the ZnII centre (The asymmetric unit of the title compound, [Zn(C DOI: 10.1107/S1600536809031766/hk2732Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 4,4\u2032-bipyridine (bipy) ligands are highly twisted with respect to each other, the dihedral angle between the two pyridyl ring planes being 38.9\u2005(2)\u00b0. The bipy ligands act as bridging ligands between [Cu(ClO4)2] units, generating an infinite one-dimensional zigzag chain along [010]. Intra- and intermolecular C\u2014H\u22efO hydrogen bonds are present in the crystal structure.The central CuN DOI: 10.1107/S1600536808021296/im2074Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808015080/sj2502Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808020928/rk2094Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules are linked through inter\u00admolecular N\u2014H\u22efO hydrogen bonds, forming dimers.In the title complex, [ZnI DOI: 10.1107/S1600536809040495/om2281Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure is stabilized by inter\u00admolecular C\u2014H\u22efO hydrogen bonds.The title compound, [Zn(C DOI: 10.1107/S1600536809032784/hg2551Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing is stabilized by hydrogen bonds involving deprotonated HCt ligands, coordinated water mol\u00adecules and uncoordinated solvent water mol\u00adecules.The title mononuclear copper(II) complex, [Cu(C DOI: 10.1107/S160053680802549X/bg2201Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The pyridyl H atoms form strong N\u2014H\u22efO hydrogen bonds with the carbonyl O atoms of the adjacent mol\u00adecules, generating a chain structure propagating in [100].In the title complex, [Mn(C DOI: 10.1107/S160053681001514X/pv2275Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808001487/xu2400Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "O\u2014H\u22efO hydrogen bonds link the mol\u00adecules together.In the title compound, [Pd(C DOI: 10.1107/S1600536808016097/cf2196Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Jahn\u2013Teller-distorted manganese(III) centre has an octa\u00adhedral geometry. Extensive O\u2014H\u22efO hydrogen-bonding inter\u00adactions generate a two-dimensional sheet structure parallel to (103).The title compound, [Mn(C DOI: 10.1107/S1600536809032553/bt5032Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809006771/xu2482Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure is stabilized by inter\u00admolecular O\u2014H\u22efO hydrogen bonds.The complete molecule of the title compound, C DOI: 10.1107/S160053680903997X/sj2660Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The asymmetric unit onsists of two half-molecules; each Ni atom lies on a centre of symmetry. The NiII ions are coordinated by four O atoms from two deprotonated 3-ethoxy\u00adsalicylaldehyde ligands in a slightly distorted square-planar coordination environment.The title compound, [Ni(C DOI: 10.1107/S160053680800809X/lh2604Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cu atom is located on a twofold crystallographic symmetry axis and is coordinated by four N atoms in a slightly distorted square-planar geometry. Inter\u00admolecular N\u2014H\u22efO hydrogen bonds are present.The title complex, [Cu(C DOI: 10.1107/S1600536809001664/hg2468Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging norf anion results in one-dimensional chains propogating along [010]. A network of O\u2014H\u22efO and N\u2014H\u22efO hydrogen bonds helps to establish the crystal structure.In the title compound, {[Cu(C DOI: 10.1107/S1600536808026469/hb2782Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the pyridine and triazole rings is 41.73\u2005(8)\u00b0. In the crystal structure, mol\u00adecules are hydrogen bonded via triazole NH groups and pyridyl N atoms, forming chains parallel to the a axis.The title compound, C DOI: 10.1107/S1600536808011744/lh2615Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CoII atoms are bridged by ligands, generating a two-dimensional -network. Adjacent fishnet planes are linked to the nitrate anions via O\u2014H\u22efO hydrogen bonds, forming a three-dimensional supra\u00admolecular structure.In the title compound, {[Co(C DOI: 10.1107/S1600536809005881/ng2547Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The zinc(II) metal centre has a slightly distorted tetra\u00adhedral coordination geometry.In the title compound, (C DOI: 10.1107/S1600536809014822/rz2310Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure contains two distinct octa\u00adhedral Ga(OH2)6 units (each of The title compound, [Ga(H DOI: 10.1107/S1600536809028086/mg2076Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680800425X/hg2378Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053681000680X/hb5336Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII atom is six-coordinated by the phenolate O, imine N and pyridine N atoms from two tridentate Schiff base ligands in a distorted NiN4O2 octa\u00adhedral geometry. The dihedral angles between the noncoordinated pyridyl rings of each ligand are 72.95\u2005(8) and 69.59\u2005(7)\u00b0.The title compound, [Ni(C DOI: 10.1107/S160053680900244X/hb2899Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging bidentate di-4-pyridyl sulfide ligands link the CoII centres into a three-dimensional network. The four coordinating pyridine groups are donors and acceptors (N atoms) for intra\u00admolecular C\u2014H\u22efN and C\u2014H\u22efCl hydrogen bonds. In the title compound, [CoCl DOI: 10.1107/S1600536809001676/si2149Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each 2,6-dimethyl\u00adpyridinium-3,5-dicarboxyl\u00adate anion bridges two Cu atoms, forming a two-dimensional coordination polymer. A three-dimensional supra\u00admolecular network is built from N\u2014H\u22efO hydrogen bonds involving the pyridinium NH and the carboxyl COO groups.In the title coordination polymer, [Cu(C DOI: 10.1107/S1600536808035873/ng2511Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The central ring adopts a chair conformation and the dihedral angle between the aromatic rings is 56.69\u2005(4)\u00b0.The complete molecule of the title compound, C DOI: 10.1107/S1600536809049617/hg2598Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809010204/hb2924Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808010878/hb2722Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The benzene-1,3,5-tricarboxyl\u00adate anion bridges two ZnII atoms and two NaI atoms, resulting in the formation of a two-dimensional layer structure. Inter\u00admolecular O\u2014H\u22efO hydrogen-bonding inter\u00adactions generate a three-dimensional superamolecular structure.In the title compound, [NaZn(C DOI: 10.1107/S1600536810009232/jj2022Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The compound is an example of a five-coordinate silver complex containing a bidentate ligand.The title compound, [Ag(C DOI: 10.1107/S1600536809000890/ng2535Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810011670/pb2026Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both Cu(II) atoms show a similar slightly distorted square-planar coordination, resulting from four O atoms of two 2-methoxyphenolate anions.In the title compound, [Cu(C DOI: 10.1107/S160053680903582X/gw2068Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The chains constructed through the trans-related acetate groups of the ligand are inter-connected via O\u2014H\u22efO hydrogen bonds involving coordinated aqua ligands, the nitrate anions and the partial-occupancy (0.25) water mol\u00adecule of solvation, forming a three-dimensional structure.In the title polymeric coordination complex, {[Cd(C DOI: 10.1107/S1600536810036317/zs2059Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "N\u2014H\u22efN hydrogen bonds between the ligand and azide ion link the complex mol\u00adecules into a three-dimensional network.In the title mononuclear complex, [Zn(N DOI: 10.1107/S1600536809016055/hy2194Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules are linked into a two-dimensional network parallel to the bc plane by C\u2014H\u22efO hydrogen bonds.In the title centrosymmetric mononuclear nickel(II) complex, [Ni(C DOI: 10.1107/S1600536809004279/ci2768Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular C\u2014H\u22efN hydrogen bonds link the molecules into a one-dimensional chain in the a+c direction.In the title compound, [Fe(C DOI: 10.1107/S1600536808023106/kj2092Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The compound is composed of extended polymeric chains in which two BTA N atoms bridge [Zn(BTA)2] fragments along [001]. Cations and anions are linked by N\u2014H\u22efN hydrogen-bond inter\u00adactions along [010].In the title compound, {(C DOI: 10.1107/S160053680902563X/bx2217Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, symmetry-related mol\u00adecules are linked by an N\u2014H\u22efS hydrogen bond.In the title mononuclear copper(II) complex, [Cu(C DOI: 10.1107/S1600536808016589/su2051Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680901719X/lh2807Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809035661/ng2628Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two neighboring Co centers are bridged by an oxalate ligand, forming a one-dimensional chain structure.In the one-dimensional title coordination polymer, [Co(C DOI: 10.1107/S1600536809012690/hy2191Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The geometry around the AlIII atom is distorted tetra\u00adhedral, defined by two methyl groups, one N and one O atom from the Schiff base ligand.The title compound, [Al(CH DOI: 10.1107/S1600536808041858/hy2172Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two O and two S atoms are cis to each other.In the title compound, [Ni(C DOI: 10.1107/S160053680900302X/gk2187Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, ions are linked by O\u2014H\u22efO hydrogen bonds.In the title compound, [Zn(C DOI: 10.1107/S1600536808025622/bt2766Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure contains pairs of gallium-centered tetra\u00adhedra connected through a shared oxygen vertex. Orthoborate triangles connect the basal vertices of the tetra\u00adhedra, forming a three-dimensional network with voids occupied by rubidium ions.The title compound, Rb DOI: 10.1107/S1600536808005783/mg2048Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The chains are cross-linked by O\u2014H\u22efO hydrogen bonds, forming sheets.In the title compound, [Zn(C DOI: 10.1107/S1600536808006764/hb2701Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The agents blocked L1210 leukemic cell DNA and RNA syntheses by inhibitingmultiple enzyme activities for nucleic acid synthesis, e.g. PRPP amido transferase, IMP dehydrogenase, DNApolymerase \u03b1, thymidine kinase, and TMP kinase. The copper (II) complex 3 demonstrated improved abilityto inhibit L1210 partially purified DNA topoisomerase II compared to the parent compound while the sodiumsalt was inactive at 100 \u03bcM.Sodium N-[(trimethylamineboryl)-carbonyl]-L-phenylalanine"} +{"text": "The two Ni atoms are bridged by two phenolate O atoms, forming a four-membered Ni2O2 ring.In the title centrosymmetric dinuclear nickel complex, [Ni DOI: 10.1107/S1600536809010174/hy2188Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The chains aggregate into pseudo-layers parallel to the (101) crystal planes by N\u2014H\u22efO hydrogen bonding. Unligated perchlorate anions and water mol\u00adecules of crystallization provide additional hydrogen bonding between pseudo-layers.In the title compound, {[Cu(C DOI: 10.1107/S1600536808036490/lh2730Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each L ligand bridges symmetry-related ZnII ions, forming a two-dimensional layer with a grid. In the crystal structure, inter\u00admolecular O\u2014H\u22efO hydrogen bonds connect perchlorate counter-anions to the layers.In the title compound, {[Zn(C DOI: 10.1107/S1600536809013130/lh2801Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, the metal atoms are linked by carboxyl\u00adate bridges into polymeric chains extending along the b axis.In the title compound, [Sn(CH DOI: 10.1107/S1600536808040798/rz2273Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The resulting structure is a two-dimensional polymer with layers in the (100) plane.In the the title compound, [Co(C DOI: 10.1107/S160053681000646X/bt5196Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dinuclear mol\u00adecule lies across a centre of inversion. The solvent dichloro\u00admethane mol\u00adecule is disordered about a centre of inversion. The dinuclear centrosymmetric title compound, [Sn DOI: 10.1107/S1600536808025890/ng2481Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular O\u2014H\u22efO hydrogen bonding is observed between the terminal hydr\u00adoxy groups in the crystal structure.In the title compound, [Cu(C DOI: 10.1107/S160053680904999X/xu2681Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "Two such MnIII ions are linked by a square-planar Ni(CN)4 unit, which lies on an inversion centre. A two-dimensional network is formed by O\u2014H\u22efO and O\u2014H\u22efN hydrogen bonds.In the title compound, [Mn DOI: 10.1107/S1600536808012749/cf2192Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Eu atom and one Br atom each lie on a twofold rotation axis.The title compound crystallizes with the GdCl DOI: 10.1107/S1600536808014359/mg2051Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Tm and both Cu atoms lie on mirror planes. The Tm atom is seven-coordinate with a capped distorted trigonal\u2013prismatic coordination geometry, while the Cu atoms adopt trigonal CuBrN2 and tetra\u00adhedral CuBr3N coordination modes, respectively. The Cu atom in the trigonal coordination environment is disordered over two sites of equal occupancy. The crystal structure is constructed from two distinct units of dimeric [Tm2(\u03bc2-OH(IN)6(H2O)4] cores (IN = isonicotinate) and one-dimensional inorganic [Cu4Br3]n chains, which are linked together, forming heterometallic Cu\u2013halide\u2013lanthanide\u2013organic layers.A new thulium(III)\u2013copper(I) heterometallic coordination polymer, [Cu DOI: 10.1107/S1600536808028675/sj2536Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808010763/cv2399Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809034916/pv2195Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The zinc(II) metal centre displays a distorted octa\u00adhedral coordination environment provided by N atoms of two bidentate chelating and two monodentate 5-(2-amino\u00adphen\u00adyl)tetra\u00adzolate ligands. These ligands act as bridges, linking adjacent Zn atoms into polymeric criss-crossed chains parallel to the [110] and [The polymeric title compound, [Zn(C DOI: 10.1107/S1600536808021946/rz2234Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ribbons are connected by C\u2014H\u22efO hydrogen bonds and van der Waals inter\u00adactions.In the title structure, [Pb(C DOI: 10.1107/S1600536810002199/kp2247Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809032413/hb5048Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The four O atoms belonging to two 2,4-penta\u00adnedionate anions lie in the equatorial plane and the two N atoms occupy the axial coordination sites.In the title compound, [Mn(C DOI: 10.1107/S1600536808038440/hb2842Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809042160/pv2218Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 1,1\u2032-diimidazole ligand and the cyclo\u00adhexane-1,4-dicarboxyl\u00adate dianion bridge metal centres, forming a two-dimensional network. The network is consolidated by O\u2014H\u22efO hydrogen bonds between the statistically occupied water molecules and O atoms of the two carboxylate groups.In the title coordination polymer, {[Ni(C DOI: 10.1107/S1600536809004024/bt2863Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "One C atom of one ethyl group is disordered with site occupancies of 0.61\u2005(3):0.39\u2005(3).The Sn atom of the title compound, [Sn(C DOI: 10.1107/S1600536808032388/tk2313Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cations lie in sheets parallel to (The asymmetric unit of the title compound, (C DOI: 10.1107/S1600536808043523/bt2834Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809034795/hb5080Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination bonds give rise to a layer structure parallel to (010).In the title coordination polymer, [CuI(C DOI: 10.1107/S1600536808031188/ng2496Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808007472/cs2070Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The zigzag chains, extending parallel to [011], are further packed into a three-dimensional network by hydrogen bonds.The title compound, {[Zn(C DOI: 10.1107/S1600536808035514/bq2094Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Zh. Str DOI: 10.1107/S1600536808009719/fi2061Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Individual [Zn(N3)2(dpa)]n chains are connected into supra\u00admolecular layers via N\u2014H\u22efN hydrogen bonding between the central amine groups of the dpa ligands and terminal unligated azide N atoms. The azide ligands in one supra\u00admolecular layer penetrate through the neighboring layers above and below, allowing stacking into a three-dimensional structure.In the title compound, [Zn(N DOI: 10.1107/S1600536809051599/zl2257Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal packing, the arrays are linked by adjacent ring motifs, together with additional inter\u00admolecular O\u2014H\u22efO inter\u00adactions, into a three-dimensional network.A monoclinic polymorph of the title compound, [Na(Chino 1993. Bull. C DOI: 10.1107/S1600536810000681/tk2611Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two Cu atoms, one with an N2P2 ligand set and the other with an NP2 ligand set, are bridged by two bis\u00ad(diphenyl\u00adphosphino)methane ligands, forming an eight-membered ring.The title dinuclear copper(I) complex, {[Cu DOI: 10.1107/S1600536809040896/jh2105Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809032048/hb5044Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two cations are linked into a centrosymmetric dimer via three bridging carboxyl\u00adate groups of 2,4-difluoro\u00adbenzoate ligands. Each Gd3+ ion is nine-coordinated by seven O atoms and two N atoms.In the title compound, [Gd DOI: 10.1107/S1600536808004431/cf2184Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each cation links two [PMo12O40]3\u2212 anions, which link three cations through N\u2014H\u22efO hydrogen bonds, generating an infinite supra\u00admolecular chain-like structure.In the title compound, (C DOI: 10.1107/S1600536808014463/cs2077Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810003727/sj2718Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Mn atom lies on an inversion centre. The distorted octa\u00adhedral Mn environment contains two planar trans-related N,N\u2032-chelating 5-(2-pyrid\u00adyl)\u00adtetra\u00adzolate ligands in the equatorial plane and two axial water mol\u00adecules. O\u2014H\u22efN hydrogen bonds generate an infinite three-dimensional network.The title compound, [Mn(C DOI: 10.1107/S1600536808010106/dn2338Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CuII ion is in a slightly distorted square-pyramidal coordination environment. In the crystal structure, inter\u00admolecular O\u2014H\u22efO hydrogen bonds connect complex mol\u00adecules into chains along [001].The title complex, [Cu(C DOI: 10.1107/S1600536808029449/lh2688Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two 4,4\u2032-ethyl\u00adenedibenzoate dianions are located on inversion centres bridging two neighboring CdII centres. O\u2014H\u22efO hydrogen-bonding inter\u00adactions further stabilize the crystal structure. The DMF molecule is equally disordered about a center of inversion.In the title compound, [Cd(C DOI: 10.1107/S1600536809024714/bt2984Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The new \u03b2-polymorph is 1.05 times denser than the previously known polymorph [Rae et al. was obtained for an active pharmaceutical ingredient, bis\u00admuth tribenzoate, [Bi(C al. 1998. Acta Cr DOI: 10.1107/S1600536810035543/rk2224Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, O\u2014H\u22efO hydrogen bonds help to establish the packing.In the title compound, [Zn(C DOI: 10.1107/S1600536809034473/hb5073Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination around mercury is completed by two bromido ligands resulting in a distorted tetra\u00adhedral arrangement.In the title polymeric complex, [HgBr DOI: 10.1107/S1600536808030055/si2110Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each NiII atom is chelated by two oxalate ligands and one 2,2\u2032-bipyridine, forming a slightly distorted octa\u00adhedral geometry. Oxlate acts as a bridge to link neighbouring pairs of NiII cations, forming a one-dimensional wave-like chain. The crystal showed partial inversion twinning.The title compound, [Ni(C DOI: 10.1107/S1600536808028389/cf2213Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, associations of two cations and one anion linked by N\u2014H\u22efBr hydrogen bonds occur.In the title compound, (C DOI: 10.1107/S160053680901705X/hb2965Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between rings of anion is 86.1\u2005(1)\u00b0.In the crystal of the title hydrated salt, C DOI: 10.1107/S1600536809033856/ng2622Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809020340/tk2467Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809041919/fi2085Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809030943/bh2240Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Nb atom is situated on a site of symmetry 6 \u2212 anion has crystallographic fourfold symmetry.The title complex, [Nb(C DOI: 10.1107/S1600536808026627/lx2067Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, O\u2014H\u22efO hydrogen bonds lead to associations of one metal complex and two diglyme mol\u00adecules.In the title 1:2 adduct, [SnCl DOI: 10.1107/S1600536808029917/bt2792Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In addition, the dinuclear species is stabilized by two hydrogen-bonded perchlorate anions.Each Cu atom in the dinuclear centrosymmetric title complex, [Cu DOI: 10.1107/S1600536807068663/tk2238Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular N\u2014H\u22efN hydrogen bonds link neighboring molecules into extended chains parallel to [100].In the title complex, [Ni(C DOI: 10.1107/S1600536808028171/bv2105Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The axial thio\u00adcyanate ligands act in a \u03bc1,3-bridging mode to connect symmetry-related CdII ions into one-dimensional chains along [010]. In addition, there are inter\u00admolecular C\u2014H\u22efO contacts between chains.In the title crystal structure, [Cd(NCS)(NO DOI: 10.1107/S1600536808032297/lh2703Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The four metal ions in the cluster are held together by four bridging hydroxide groups. Each NiII atom adopts a distorted octa\u00adhedral geometry. The title complex, [Ni DOI: 10.1107/S1600536810003697/rz2413Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII atoms are linked to each other, forming an infinite chain parallel to (In the title complex, [Ni(C DOI: 10.1107/S1600536808030377/dn2372Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "This results in alternating corrugated inorganic and organic layers in the crystal.In the title mol\u00adecular salt, (C DOI: 10.1107/S160053681001812X/hb5451Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII ion is coordinated by two bpp and two ip ligands in a distorted tetra\u00adhedral environment. Each ligand coordinates in a bridging mode to connect ZnII ions into a three-dimensional diamondoid-type structure.The title compound, [Zn(C DOI: 10.1107/S1600536808001621/lh2583Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cu atom is 0.1801\u2005(11)\u2005\u00c5 above the N3O mean basal plane.The Cu atom of the title complex, [Cu(C DOI: 10.1107/S1600536809014573/rk2135Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "One of the sulfonate O atoms is disordered over two positions [ratio 0.70\u2005(5):0.30\u2005(5)].In the title compound, [Pd(C DOI: 10.1107/S1600536809032760/bx2229Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680902234X/bh2230Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ReI atoms are in a slightly distorted octa\u00adhedral environment, whereas the ReVII atoms show the typical tetra\u00adhedral coordination mode. The dihedral angle between the two bipyridine groups is 34.3\u2005(7)\u00b0.The title compound, [Re DOI: 10.1107/S160053680800490X/at2546Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atoms show distorted tetrahedral coordination environments. Adjacent mol\u00adecules are linked by N\u2014H\u22efCl hydrogen bonds, forming a three-dimensional network.The title compound, [ZnCl DOI: 10.1107/S1600536809052738/bt5133Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The P and one S atom of each trimethyl trithio\u00adphosphite ligand are employed for coordination. The mol\u00adecular structure exhibits the rare motif of copper(I) bridged by two trifluoro\u00admethane\u00adsulfonate anions generating eight-membered rings.The title compound, [Cu DOI: 10.1107/S1600536808041809/lh2742Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The tethering 3-bpmp ligands promote the formation of [ZnCl2(3-bpmp)]n chains situated parallel to (via C\u2014H\u22efCl inter\u00adactions to form supra\u00admolecular layers, which in turn stack to construct the three-dimensional crystal structure.In the title compound, [ZnCl DOI: 10.1107/S1600536809013877/ng2573Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordinated water mol\u00adecule plays an important role in crystal packing consolidation via O\u2014H\u22efO hydrogen bonding.In the title compound, [Sn DOI: 10.1107/S1600536808043614/cv2496Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each metal atom is chelated by two Schiff base anions in a distorted square-planar coordination environment.The asymmetric unit of the crystal structure of the title compound, [Ni(C DOI: 10.1107/S1600536809020790/xu2537Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The N-heterocyclic carbene (NHC) metallacrown ether ligand binds to the Pd atom in a trans orientation through the carbene C atoms of the two imidazole rings and generates a 25-membered chelate ring. Two mutually trans S-bound thio\u00adcyanate ligands complete the coordination.The coordination geometry of the Pd atom in the title compound, [Pd(SCN) N-heterocyclic carbene ligands and their complexes, see: Herrmann ] = 0.066 wR(F 2) = 0.218 S = 1.05 8672 reflections566 parameters61 restraintsH-atom parameters constrainedmax = 0.78 e \u00c5\u22123 \u0394\u03c1min = \u22121.31 e \u00c5\u22123 \u0394\u03c1 DIFRAC used to solve structure: SHELXS97 (Sheldrick, 2008SHELXL97 (Sheldrick, 2008ORTEP-3 for Windows (Farrugia, 1997SHELXL97.Data collection: 10.1107/S1600536809014615/sj2617sup1.cif Crystal structure: contains datablocks I, global. DOI: 10.1107/S1600536809014615/sj2617Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Three of the C atoms of the n-butyl group are disordered over two sites with equal occupancies.The Sn atom in the title compound, [Sn(C DOI: 10.1107/S1600536810005830/lh2995Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The oxalate and pyrazine-2-carboxyl\u00adate ligands bridge the CeIII ions, forming a two-dimensional structure. In addition, inter\u00admolecular O\u2014H\u22efO and O\u2014H\u22efN hydrogen bonds connect the two-dimensional structure into a three-dimensional network.In the hydro\u00adthermally synthesized title compound, [Ce(C DOI: 10.1107/S1600536808029164/lh2687Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Mn2+ cation is surrounded by six N atoms from three chelating 3-(2-pyrid\u00adyl)-1H-pyrazole ligands in a distorted octa\u00adhedral coordination. In the heteropolyanion, two O atoms of the central PO4 group (The asymmetric unit of the title compound, [Mn(C DOI: 10.1107/S160053681000320X/wm2301Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structural parameters compared with those in [(\u03b75-Me5Cp)2Zr(TePh)2] [Howard, Trnka & Parkin and by more acute Zr\u2014Te\u2014C (\u223c5\u00b0) angles, although the Zr\u2014Te distances are essentially the same. The crystal studied exhibited some inversion twinning.The structure of the title compound, [Zr(Crkin 1995. Inorg. DOI: 10.1107/S1600536808009574/sj2480Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The imino NH groups participate in inter\u00admolecular N\u2014H\u22efO hydrogen bonds.The title complex, [Zn(NO DOI: 10.1107/S1600536809037672/fj2244Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The eight-coordinate geometry approximates a square anti\u00adprism. Hydrogen bonds of the O\u2014H\u22efO type connect the uncoordinated water mol\u00adecules to the dinuclear species, forming a three-dimensional network.The title dinuclear compound, [Tb DOI: 10.1107/S1600536809052489/xu2706Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808013792/im2062Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two of the water mol\u00adecules are disordered over three sites in a 0.68:0.55:0.77 ratio.The crystal structure of the title compound, (C DOI: 10.1107/S1600536810018325/bt5270Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A slightly distorted trigonal-bipyramidal SnC3O2 coordination geometry arises for the metal, with the O atoms in the axial sites. Weak C\u2014H\u22efO hydrogen bonds help to stabilize the packing.The polymeric structure of the title compound, [Sn(CH DOI: 10.1107/S1600536809051587/hb5258Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808002341/dn2314Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Sn atom is six-coordinate with a distorted octa\u00adhedral geometry. Additional O\u2014H\u22efO hydrogen bonding leads to stabilization of the crystal structure.The title compound, [Sn DOI: 10.1107/S1600536808032832/sg2266Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each Sb atom exhibits a slightly distorted trigonal-bipyramidal geometry, with the O atom in the apical site. The crystal structure is stabilized by inter\u00admolecular C\u2014H\u22efO hydrogen bonds, forming a three-dimensional network.The asymmetric unit of the title compound, [Sb(C DOI: 10.1107/S1600536808040816/rz2272Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complex features a Pt(II) atom coordinated by two Cl and two P atoms, yielding a slightly distorted cis square-planar geometry.The title compound, [PtCl DOI: 10.1107/S1600536809042226/fi2086Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809000270/at2697Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The five-membered chelating glycinate ring assumes an envelope conformation. The complex mol\u00adecules are assembled by inter\u00admolecular N\u2014H\u22efO hydrogen bonding.In the crystal structure of the title compound, [Co(C DOI: 10.1107/S1600536808013135/xu2418Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials: interactive version of Fig. 3 Enhanced figure:"} +{"text": "The Zn atom lies on a special position of site symmetry 2.The Zn atom in the title compound, [Zn(C DOI: 10.1107/S1600536808002213/hg2370Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing is consolidated by additional O\u2014H\u22efO and N\u2014H\u22efO hydrogen bonds.The novel pentaborate with a transition-metal complex as counter-cation and with water of crystallization, tris(ethylenediamine)cobalt(II) bis dihydrate, [Co(C DOI: 10.1107/S1600536809007296/pv2140Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "All interatomic distances, angles and the hydrogen bond geometry are very similar for the three structures.The title compound, [Tb(C DOI: 10.1107/S1600536809001494/at2682Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the planes of the two NiNC3O chelate rings is 14.37\u2005(12)\u00b0.In the title complex, [Ni(C DOI: 10.1107/S1600536809019965/bt2968Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The hydro\u00adcarbon chains are in the fully extended all-trans conformation and are arranged in a tail-to-tail double bilayer.The structure of the title compound, poly[di-\u03bc-penta\u00adnoato-zinc(II)], [Zn{CH DOI: 10.1107/S1600536808008283/cf2188Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810010895/bt5207Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, mol\u00adecules are linked by N\u2014H\u22efCl hydrogen bonds, generating (100) sheets containing R 2 2(8) loops.In the title compound, [ZnCl DOI: 10.1107/S1600536810012274/hb5384Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In common with the monoclinic polymorph [Howie et al. hydrogen-bonding inter\u00adactions generate a three-dimensional network.The asymmetric unit of the title hydrate, 2[Sn(H al. 2005. Inorg. DOI: 10.1107/S1600536810006021/hb5334Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680900988X/bx2197Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials: interactive version of Fig. 1 Enhanced figure:"} +{"text": "The acetate bridges link adjacent CuII cations, forming a chain. The crystal structure involves O\u2014H\u22efO hydrogen bonds.In the title compound, [Cu(CH DOI: 10.1107/S1600536808016073/cf2197Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cd atoms are connected by two dicyanamide ligands, resulting in a neutral chain propagating parallel to [010].In the title compound, [Cd(C DOI: 10.1107/S1600536809046364/pv2226Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The molecules are assembled via inter\u00admolecular N\u2014H\u22efO hydrogen-bonding inter\u00adactions into a three-dimensional network.In the title mononuclear complex, [Co(C DOI: 10.1107/S1600536808005722/ng2407Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Weak C\u2014H\u22efO contacts generate dimeric units via crystallographic inversion centres.In the title complex, [Sb(C DOI: 10.1107/S1600536808029632/si2109Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Mn^II^ cation has a distorted octahedral coordination geometry. The 1,3-di(tetra\u00adzol-5-yl)benzene ligand is planar. All H atoms bonded to O atoms participate in hydrogen bonds, which link the mol\u00adecules into a framework structure.The title compound, [Mn(C Data collection: 10.1107/S1600536808028316/ez2139sup1.cif Crystal structure: contains datablocks global. DOI: 10.1107/S1600536808028316/ez2139Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The trans-N2S4 donor set defines a distorted octa\u00adhedral geometry.In the title complex, [Ni(C DOI: 10.1107/S1600536809050223/tk2572Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The word \"Mediates\" was misspelled in the article title. The correct title is: CX\u2083CR1 Is Expressed by Human B Lymphocytes and Mediates CX\u2083CL1 Driven Chemotaxis of Tonsil Centrocytes. The correct citation is: Corcione A, Ferretti E, Bertolotto M, Fais F, Raffaghello L, et al. (2009) CX\u2083CR1 Is Expressed by Human B Lymphocytes and Mediates CX\u2083CL1 Driven Chemotaxis of Tonsil Centrocytes. PLoS ONE 4(12): e8485. doi:10.1371/journal.pone.0008485"} +{"text": "The coordination of Cu(I) is slightly distorted tetrahedral.The title compound, [CuBr(C DOI: 10.1107/S1600536808012439/dn2345Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The isophthalate ligands bridge the metal ions to form polymeric zigzag chains extending along the b axis. Weak C\u2014H\u22efO inter\u00adactions contribute to the crystal packing stability.In the title compound, [Co(C DOI: 10.1107/S1600536808030778/rz2249Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both Sn centres exhibit similar distorted trigonal\u2013bipyramidal [C3SnO2] coordination, with the O atoms of the carboyxlate ligands in trans positions.The title compound, [Sn(C DOI: 10.1107/S160053680802028X/wm2181Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The coordination geometry of the ZnII ion is slightly distorted square-planar, formed by two N atoms and two O atoms from the L ligand.The title compound, [Zn(C DOI: 10.1107/S1600536809038616/hg2565Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, weak bifurcated C\u2014H\u22efO hydrogen bonds involving the carbonyl O atoms as acceptors result in R 2 2(7) ring motifs.In the title compound, C DOI: 10.1107/S1600536810005404/lh2990Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecules are linked together via hydrogen bonds involving the solvent water and methanol mol\u00adecules.In the title complex, [Gd(C DOI: 10.1107/S1600536808001931/om2208Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The SnO4NC2 centre has a distorted penta\u00adgonal\u2013bipyramidal geometry with the C atoms in the axial positions.The title compound, [Sn(CH DOI: 10.1107/S1600536807067165/hb2677Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The fully deprotonated PDC anion acts a \u03bc3-bridging ligand, establishing a chain structure along the a axis. These polymeric chains are connected into a three-dimensional framework via several inter\u00admolecular O\u2014H\u22efO hydrogen bonds.In the title coordination polymer, {[Mn(C DOI: 10.1107/S1600536808029413/sg2261Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Acta Cr DOI: 10.1107/S1600536810006306/hy2284Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the pyridine and benzene rings is 15.15\u2005(13)\u00b0.In the title compound, [ZnI DOI: 10.1107/S1600536808020680/rz2225Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The compound crystallizes with one CH2Cl2 mol\u00adecule per asymmetric unit. The benzyl\u00adamine ligand and the ReI centre form a non-planar six-membered chelate ring.In the crystal structure of the title compound, [ReCl(C DOI: 10.1107/S160053680706802X/zl2094Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bond distances in the coordinated i-mnt ligands indicate some delocalization of the \u03c0-system.In the title compound, (C DOI: 10.1107/S1600536808037616/pk2131Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the title compound, C DOI: 10.1107/S1600536808025300/fj2138Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "C\u2014H\u22efO hydrogen bonds connect the complex mol\u00adecules into a three-dimensional supra\u00admolecular structure.In the title compound, [Zn(C DOI: 10.1107/S1600536808009483/hy2125Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Concomitant treatment in addition to intervention may influence the primary outcome, especially in complex interventions such as surgical trials. Evidence-based standards for perioperative care after distal pancreatectomy, however, have been rarely defined. This study's objective was therefore to identify and analyse the current basis of evidence for perioperative management in distal pancreatectomy.A standardised questionnaire was sent to 23 European centres recruiting patients for a randomized controlled trial (RCT) on open distal pancreatectomy that would compare suture versus stapler closure of the pancreatic remnant . Perioperative strategies were assessed. Moreover, a systematic literature search in the Medline database was performed and retrieved meta-analyses and RCTs were reviewed.All 23 centres returned the questionnaire. Consensus for thoracic epidural catheters (TECs), pain treatment and transverse incisions was found, as well as strong consensus for the placement of intra-abdominal drainages and perioperative single-shot antibiotics. Also, there was consensus that bowel preparation, somatostatin application, postoperative nasogastric tubes and intravenous feeding might not be beneficial. The literature search identified 16 meta-analyses and 19 RCTs demonstrating that bowel preparation, somatostatin therapy and nasogastric tubes can be omitted. Early mobilisation, feeding and TECs seem to be beneficial for patients. The value of drainages remains unclear.Most perioperative standards within the centres participating in the DISPACT trial are in accordance with current available evidence. The need for drainages requires further investigation.Clinical trial registration: ISRCTN 18452029 Short-term outcomes after major abdominal surgery are influenced by indication, surgical intervention, the surgeons' expertise, hospital volume and perioperative management -5. In orA recent study of 617 consecutive pancreatic resections demonstrated local complications to be more frequent than systemic complications . Thus, tTwenty-three European centres participating in the DISPACT trial were evaluated using a standardized questionnaire to evaluate perioperative management OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH] NOT child [MESH] NOT infant [MESH]) AND AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH]) AND (somatostatin [tw] OR octreotide [tw] OR vapreotide [tw] OR lanreotide [tw]) AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH])(Surgery [MESH]) AND AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH]) AND AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH] NOT child [MESH] NOT infant [MESH]) AND (Nasogastric decompression [tw] OR nasogastric tube [tw]) AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH] NOT child [MESH] NOT infant [MESH])(Surgery [MESH]) AND AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH] NOT child [MESH] NOT infant [MESH]) AND AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH] NOT child [MESH] NOT infant [MESH]) AND (mobilisation [tw] OR mobilization [tw] OR postoperative mobilisation [tw] OR patient mobilisation [tw] OR postoperative mobilization [tw] OR patient mobilization [tw]) AND OR ((singl* [tw] OR doubl* [tw] OR tripl* [tw]) AND (mask* [tw] OR blind* [tw])) OR placebos [MESH] OR placebo* [tw] OR random* [tw] OR research design [mh:noexp] OR Meta-Analysis [ptyp] OR systematic review [tw] NOT NOT case reports [pt] NOT Comment [PT] NOT letter [PT] NOT child [MESH] NOT infant [MESH] NOT child [MESH] NOT infant [MESH])Survey on peri-operative standards in distal pancreatectomy. A copy of the research instrument used for the survey.Click here for fileMeta-analyses and randomized controlled trials on perioperative management. Appendix 1 summarizes relevant data from the meta-analyses and randomized controlled trials found by the literature search of best practice.Click here for file"} +{"text": "The triiodide anions are located in general positions, whereas the cations are located on centres of inversion.The title compound, [Sr(C DOI: 10.1107/S1600536808012373/nc2102Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810015758/hy2302Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Three dinucleating O,N:N\u2032,O\u2032-donor ligands provide three diazine (=N\u2014N=) bridges between the metal ions, yielding a binuclear triple helicate structure with crystallographic C 2 symmetry, the rotation axis bis\u00adecting one N\u2014N bond.In the title binuclear iron(III) complex, [Fe DOI: 10.1107/S1600536808027438/cf2210Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In addition, each AgI atom is coordin\u00adated by one chelating 2,2\u2032-bipyridine ligand, giving a distorted trigonal coordination environment.The title complex, [Ag DOI: 10.1107/S1600536809014871/at2766Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ligand bridges two AgI atoms, forming a polymeric zigzag chain propagating parallel to [001]. The uncoordinated water mol\u00adecule is involved in hydrogen bonds with sulfonate O atoms.In the title compound, {[Ag(C DOI: 10.1107/S1600536810012596/hy2295Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The SnIV atom is in a distorted trans-C3SnO2 trigonal-bipyramidal geometry. The presence of two bulky tert-butyl groups on the benzene ring prevents any hydrogen-bonding inter\u00adactions involving the hydroxyl substituents.The title compound, [Sn(C DOI: 10.1107/S1600536809023150/tk2461Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809027044/ng2598Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Tetra\u00adchloridoferrate(III) anions lie between these chains, accepting N\u2014H\u22efCl hydrogen bonds from both H atoms of the picolinamidium \u2013NH2 group.The title compound, (C DOI: 10.1107/S1600536809040148/zq2012Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The polymeric three-dimensional structure is stabilized by inter\u00admolecular O\u2014H\u22efO hydrogen bonds.In the title coordination polymer, [La(C DOI: 10.1107/S1600536809020479/rz2328Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "These aggregate into the three-dimensional structure via N\u2014H\u22efO hydrogen-bonding mechanisms imparted by 4,4\u2032-imino\u00addipyridinium dications situated between the layers.In the title salt, {(C DOI: 10.1107/S1600536808038348/tk2326Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810005829/ci5035Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing exhibits weak inter\u00admolecular C\u2014H\u22efBr inter\u00adactions.In the title compound, [PdBr DOI: 10.1107/S1600536809001986/cv2489Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atom is coordinated in a distorted tetra\u00adhedral environment by four O atoms from four 2,4-dichloro\u00adphenoxy\u00adacetate ligands. Each ligand bridges two ZnII atoms, forming a polymeric chain along the a axis. Adjacent chains are connected via C\u2014H\u22efCl hydrogen bonds.The title polymeric compound, [Zn(C DOI: 10.1107/S1600536810015977/ci5084Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The twisted mol\u00adecules pack in parallel regions (ab plane) which then form a herringbone pattern along c.The racemic title compound, C DOI: 10.1107/S1600536808014803/bq2079Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The methyl group of the benzoic acid mol\u00adecule is disordered over two sites in a 0.563\u2005(17):0.437\u2005(17) ratio. In the title compound, [Ni(C DOI: 10.1107/S1600536809044705/hb5141Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the unique cation, the dihedral angle between the benzene and pyridine rings is 7.1\u2005(2)\u2005\u00c5.In the title complex, (C DOI: 10.1107/S1600536809015360/lh2806Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular N\u2014H\u22efI hydrogen bonds link cations and anions into a three-dimensional network.In the title compound, [Cd(dien) DOI: 10.1107/S1600536808008040/lh2585Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809031389/hb5029Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The 4,4\u2032-bipyridine ligands bridge CoII ions into a one-dimensional chain structure. In the crystal structure, inter\u00admolecular O\u2014H\u22efO hydrogen bonds link cations and anions into a three-dimensional network. The dianions are completely disordered about an inversion center.In the title complex, {[Co(C DOI: 10.1107/S1600536809021552/lh2836Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The amino group forms a hydrogen bond to the pyrazine N-4 atom of an adjacent mol\u00adecule, forming a chain motif.The two aromatic systems in the title compound, C DOI: 10.1107/S160053680803729X/sg2277Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ligands bridge CdII ions, forming one-dimensional chains along [001], which are connected by N\u2014H\u22efN and N\u2014H\u22efS hydrogen bonds into a three-dimensional network.In the title compound, DOI: 10.1107/S160053680902371X/pk2170Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808004248/su2044Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal atoms are bridged by the pySO3 ligands to form a one-dimensional chain. The chains are further connected into a three-dimensional architecture via hydrogen bonds.In the title polymeric complex, [Mn(C DOI: 10.1107/S1600536808012282/gk2137Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure displays the classical O\u2014H\u22efO inter\u00admolecular hydrogen bonding typical for carboxylic acids forming dimers. Symmetry-related dimers are, in turn, linked through head-to-tail pairs of inter\u00admolecular N\u2014H\u22efO inter\u00adactions, giving rise to a zigzag chain along the c axis.The title compound, C DOI: 10.1107/S1600536808035721/lh2721Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Co centre is in a distorted tetrahedral coordination by three N atoms of three different triazole ligands and one O atom of the 3,5-dinitrobenzoate anion.The title compound, [Co(C DOI: 10.1107/S160053680804155X/bt2826Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810013759/zs2034Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NaI cation is located on a threefold rotation axis and is surrounded by six O atoms from three opc anions. The opc anions link the Mn and Na cations, forming a three-dimensional polymeric structure. The uncoordinated water mol\u00adecule, located on a threefold rotation axis, is equally disordered over two sites. The three-dimensional network is consolidated by N\u2014H\u22efO hydrogen bonds.In the crystal structure of the title compound, {[MnNa(C II and CoII complexes, see: Zhang et al. 3]\u00b7H2O = 0.033 wR(F 2) = 0.099 S = 1.16 1315 reflections103 parameters1 restraintH-atom parameters constrainedmax = 0.35 e \u00c5\u22123 \u0394\u03c1min = \u22120.49 e \u00c5\u22123 \u0394\u03c1Absolute structure: Flack 1983, 649 FriFlack parameter: \u22120.01 (3) PROCESS-AUTO (Rigaku, 1998PROCESS-AUTO; data reduction: CrystalStructure (Rigaku/MSC, 2002SIR92 (Altomare et al., 1993SHELXL97 (Sheldrick, 2008ORTEP-3 (Farrugia, 1997WinGX (Farrugia, 1999Data collection: 10.1107/S1600536810002953/ng2724sup1.cif Crystal structure: contains datablocks I, global. DOI: 10.1107/S1600536810002953/ng2724Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809027196/dn2466Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal packing is stabilized by O\u2014H\u22efO hydrogen bonds.In the title compound, [Cu(C DOI: 10.1107/S1600536808009495/bt2691Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808041408/hg2447Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging function of the iodide ions leads to a chain structure propagating in [001].In the title coordination polymer, [CdI DOI: 10.1107/S1600536810014091/hb5403Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The thio\u00adcyanate anion bridges the CuI atoms, forming a zigzag chain along [101]. The Schiff base ligand adopts an E,E configuration and the dihedral angle between the terminal benzene rings is 53.68\u2005(8)\u00b0.In the cyrstal structure of the title compound, [Cu(NCS)(C DOI: 10.1107/S1600536808041925/lh2744Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The edta ligands link the neodymium metal centres, forming polymeric chains running along the a axis of the unit cell. These chains are further assembled via inter\u00admolecular O\u2014H\u22efO hydrogen-bonding inter\u00adactions into a three-dimensional supra\u00admolecular network.In the title complex, [Nd(C DOI: 10.1107/S1600536808026445/bg2202Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809035041/jh2099Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal packing, a three-dimensional network is constructed via hydrogen-bonding involving the water mol\u00adecules, uncoordinated imidazole N atom, protonated pyridine N and carboxyl\u00adate O atoms.In the title complex, [Fe(C DOI: 10.1107/S160053680902337X/kp2221Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808015390/sj2506Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808012828/dn2343Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials: interactive version of Fig. 1 Enhanced figure:"} +{"text": "The crystal structure is stabilized by a network of O\u2014H\u22efO hydrogen bonds, resulting in a two-dimensional supra\u00admolecular structure.In the neutral title complex, [Fe(C DOI: 10.1107/S1600536808042529/ng2527Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Regarding the coordinating C=C bonds as occupying a single coordination site each, the geometry around each Ir atom is square-planar.The title complex, [Ir DOI: 10.1107/S1600536808007216/cf2181Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808035460/tk2320Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The non-H atoms of the equatorial plane are coplanar, with a mean deviation of 0.0355\u2005(2)\u2005\u00c5. The FeII cation lies on an inversion centre. Thus, the asymmetric unit comprises one half-mol\u00adecule.In the title compound, [Fe(N DOI: 10.1107/S1600536808018539/kp2177Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Ni2+ cation is surrounded in a slightly distorted octa\u00adhedral coordination by six N atoms from three chelating 3-(2-pyrid\u00adyl)-1H-pyrazole ligands. In the heteropolyanion, two O atoms of the central SiO4 group (The asymmetric unit of the title compound, [Ni(C DOI: 10.1107/S1600536810000978/wm2297Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808020850/ng2470Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, the molecules form hydrogen bonded chains propagating in [100] linked by O\u2014H\u22efO interactions. Further O\u2014H\u22efO bonds cross-link the chains.The title compound, C DOI: 10.1107/S1600536809017656/fl2248Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808002201/lh2588Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The LaIII atom is coordinated by nine O atoms from three carboxyl\u00adate, three sulfonate and two hydroxyl groups, and one water mol\u00adecule, forming a distorted trigonal-prismatic square-face tricapped geometry.The title compound, [La(C DOI: 10.1107/S1600536809007879/is2373Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The carboxyl\u00adate ligands bridge pairs of gadolinium(III) ions, forming a zigzag chain along [100]. Hydrogen bonds link the chains into sheets parallel to (001).In the title compound, [Gd(C DOI: 10.1107/S1600536808012981/om2225Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, N\u2014H\u22efN hydrogen bonds help to consolidate the packing.In the title compound, [Mn(N DOI: 10.1107/S1600536808017984/hb2744Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809018364/fi2078Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The four-coordinate AgI ion adopts a tetra\u00adhedral geometry, being bonded to two N atoms from two bridging isonicotinate ligands and two O atoms from two acetate ligands. These metal coordination units are connected by bridging isonicotinate and acetate ligands, generating a three-dimensional network.In the title homochiral three-dimensional heterometallic complex, [AgSm(C DOI: 10.1107/S1600536809048430/pv2235Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal structure, cations and anions are linked by inter\u00admolecular N\u2014H\u22efCl hydrogen bonds, forming a three-dimensional network.In the title compound, (C DOI: 10.1107/S1600536810007877/rz2412Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809022417/hb2992Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials: interactive version of Fig. 1 Enhanced figure:"} +{"text": "The three N atoms span the axial\u2013equatorial\u2013axial sites of the trigonal-bipyramidal coordination polyhedron; the geometry of the CuII atom is 31% distorted from trigonal-bipyramidal .The title compound, [CuCl DOI: 10.1107/S1600536810037025/xu5030Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metallabicyclic ring system is essentially planar (maximum deviation 0.059\u2005\u00c5).The crystal structure of the title compound, [Ru(C DOI: 10.1107/S1600536808040944/lh2738Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two N-heterocycles both chelate the metal atom.The chloride and chloro\u00addifluoro\u00adacetate anions occupy DOI: 10.1107/S1600536808010829/sg2236Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Ni2+ cation is in a distorted octa\u00adhedral environment, coordinated by six N atoms from three chelating 3-(2-pyrid\u00adyl)-1H-pyrazole ligands. In the one-electron reduced heteropolyanion, two O atoms of the central PO4 group (M\u2014N bond lengths, whereas all other bond lengths, angles and the hydrogen-bonding motifs are very similar.The hydro\u00adthermally prepared title compound, [Ni(C DOI: 10.1107/S1600536810005945/wm2306Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The carboxyl\u00adate groups of pyrazine-2-carboxyl\u00adate and oxalate ligands link the lanthanum metal centres, forming layers parallel to (10In the title complex, [La(C DOI: 10.1107/S1600536808041664/dn2413Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808025452/hy2145Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the anion, the chloro substituent is disordered over two rings (occupancy ratio 0.81:0.19); the two chloro\u00addifluoro\u00admethyl groups are also disordered over two sites for their halogen atoms (occupancy ratios 0.72:0.28 and 0.70:0.30).In the title salt, [Ag(C DOI: 10.1107/S1600536808014128/bq2076Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The three O atoms are arranged fac, as are the three S atoms.In the title compound, [Co(C DOI: 10.1107/S1600536808011598/hy2130Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Corner-sharing PbCl6 octa\u00adhedra extend parallel to the ac plane. Adjacent layers are staggered relative to one another, with diammonium cations separating these layers. The cations exhibit via N\u2014H\u22efCl hydrogen bonding in the right-angled halogen sub-type of the terminal halide hydrogen-bonding motif.The title compound, {(C DOI: 10.1107/S1600536810016818/wm2339Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dihedral angle between the two essentially planar quinoline ring systems is 45.02\u2005(9)\u00b0. In the crystal structure, an extensive O\u2014H\u22efO hydrogen-bonding network forms layers parallel to the ab plane.In the title compound, [Cu(SO DOI: 10.1107/S1600536808001980/lh2587Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The resulting geometry is distorted octa\u00adhedral within a ClN2O3 donor set.In the title complex, [Fe(C DOI: 10.1107/S1600536809031432/tk2520Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the chain, the ZnII atom adopts a slightly distorted octa\u00adhedral coordination geometry involving four water mol\u00adecules at the equatorial positions. The noncoordinated benzene-1,4-dicarboxyl\u00adate anion, which is also located on a twofold rotation axis, bridges adjacent chains through O\u2014H\u22efO hydrogen bonds, forming a three-dimensional supra\u00admolecular network.In the title compound, {[Zn(C DOI: 10.1107/S1600536809019412/is2415Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The hydroxyl group acts as a donor, forming an intra\u00admolecular O\u2014H\u22efN hydrogen bond.In the title compound, [Zn(C DOI: 10.1107/S1600536809001949/hy2173Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both PbBr6 octa\u00adhedra and the organic cation exhibit via N\u2014H\u22efBr hydrogen bonding in the right-angled halogen sub-type of the terminal halide hydrogen-bonding motif.The title compound, {(C DOI: 10.1107/S1600536810016806/wm2338Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S160053680904495X/hb5192Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules are linked by bifurcated N\u2014H\u22ef hydrogen bonds, generating [001] chains.In the title compound, C DOI: 10.1107/S1600536810010810/hb5367Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809024015/tk2481Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The piperidine ring adopts a distorted boat conformation in both mol\u00adecules, in which the N atom assumes an almost planar configuration.The asymmetric unit of the title compound, C DOI: 10.1107/S1600536809045358/ci2956Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The Na atoms are disordered over three sites .The crystal structure of the title compound, 2Na DOI: 10.1107/S1600536808024331/bt2752Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging dca anions lead to a polymeric chain propagating in [100].In the title compound, [Cd(C DOI: 10.1107/S1600536808044000/hb2881Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "O\u2014H\u22efO hydrogen bonds link the complexes and uncoordinated water mol\u00adecules into two-dimensional networks parallel to (001).In the title compound, [Ni(C DOI: 10.1107/S1600536809022028/bi2378Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, adjacent mol\u00adecules are linked via pairs of N\u2014H\u22efO hydrogen bonds into chains propagating in [010].In title compound, [Cu(C DOI: 10.1107/S1600536809044262/hb5128Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The polyoxoanions are linked together via the bipyridyl cations, acting as hydrogen-bond donors, generating a two-dimensional supra\u00admolecular network. The asymmetric unit contains 1.5 4,4\u2032-bipyridinium (H2bpy) units, with an inversion centre in the central bond of the second H2bpy unit. The site symmetry of the anion is The title compound, tris\u00ad diarsenoocta\u00addeca\u00admolybdate(VI), (C DOI: 10.1107/S1600536809050260/fi2091Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "GdIII ions are bridged by bidentate and tridentate 3-PYA ligands, resulting in a two-dimensional structure.In the title compound, [Gd(C DOI: 10.1107/S1600536808012270/lh2617Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecular structure displays a cobalt(I) center in a distorted trigonal-planar coordination environment, with one Cp and two phosphane ligands. There are two crystallographically independent mol\u00adecules in the asymmetric unit besides the disordered solvent molecules.The title compound, [Co(C DOI: 10.1107/S1600536808042268/im2092Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810016466/pk2244Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the structure, the oxalate and 5-amino\u00adisophthalate ligands link the dysprosium ions, building up a two-dimensional metal\u2013organic framework parallel to the (10The title complex, [Dy(C DOI: 10.1107/S1600536809019199/dn2450Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Acta Cr DOI: 10.1107/S1600536809051903/cv2664Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The structure displays weak intra\u00admolecular C\u2014H\u22efBr hydrogen-bonding inter\u00adactions.In the title complex, [PtBr DOI: 10.1107/S160053680803208X/rz2250Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, two inversion-related cations are linked to the anion via weak N\u2014H\u22efBr hydrogen bonds.In the title compound, (C DOI: 10.1107/S1600536809030323/lh2842Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The CoII centre exists in an all cis-octa\u00adhedral coordination geometry.In the title compound, [Co(C DOI: 10.1107/S1600536809037878/bt5061Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "All interatomic distances, angles and the hydrogen bond geometry are very similar for the three structures..The title compound, [Pr(C DOI: 10.1107/S1600536809001500/at2681Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Cd atom has a distorted tetrahedral coordination. Inter\u00admolecular C\u2014H\u22efI hydrogen bonds link the monomeric units, generating a one-dimensional supra\u00admolecular chain along the a axis.In the title compound, [CdI DOI: 10.1107/S1600536808030225/bq2097Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cation and anion are linked by an N\u2014H\u22efBr hydrogen bond.The anion in the title compound, (C DOI: 10.1107/S1600536808032248/tk2315Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809032425/hb5049Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Symmetry-related Sn atoms are bridged by diisopropyl\u00addithio\u00adcarbamoylacetato ligands, forming a one-dimensional polymer along [001].In the title compound, [Sn(C DOI: 10.1107/S1600536810005933/lh2996Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complex mol\u00adecules are linked into layers parallel to (001) by N\u2014H\u22efN hydrogen bonds, with the H atoms disordered over four symmetry-equivalent non-coordinated N atoms.In the title compound, [Mn(C DOI: 10.1107/S1600536809008411/bi2351Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal centre is also chelated by three deprotonated 1,3-diphenyl\u00adpropane-1,3-dione (dbm) ligands, forming enanti\u00adomerically pure [Tb(dbm)3 RRL]. The TbIII atom is located in a distorted square anti\u00adprism of eight coordinating atoms (six O and two N atoms).In the title compound, [Tb(C DOI: 10.1107/S1600536809019783/ng2576Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mean planes of two naphthyl systems of the ligand make a dihedral angle of 40.32\u2005(11)\u00b0.In the title complex, [Cu(C DOI: 10.1107/S1600536809030694/hy2212Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The LaIII ions are bridged by \u03bc4-isophthalate ligands, forming two-dimensional layers. In the crystal structure, these layers are connected by inter\u00admolecular O\u2014H\u22efO hydrogen bonds into a three-dimensional network.In the title coordination polymer, [La DOI: 10.1107/S1600536809054543/lh2972Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808009707/at2559Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The geometry about the Pd atom is distorted square-planar. The pyrazole rings are almost perpendicular, forming a dihedral angle of 86.6\u2005(6)\u00b0 to each other, to mitigate steric conflict between their methyl groups.The title compound, [PdCl(C al. 2006. Acta Cr DOI: 10.1107/S1600536810035427/su2207Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, adjacent ZnII atoms are linked by two H2nba ligands, forming one-dimensional ribbons along the c axis. These ribbons are further assembled into layers parallel to the bc plane via O\u2014H\u22efO hydrogen bonds.In the title coordination complex, [Zn(C DOI: 10.1107/S1600536809051836/ng2697Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The compound crystallizes with the Pd(II) atom on a twofold rotation axis. The palladium center has a slightly distorted square-planar environment, with the two P\u2014S chelating ligands adopting a cis configuration. The present structure is a pseudo-polymorph of [Pd(C18H14PS)2]\u00b7CH2Cl2.The title compound, [Pd(C DOI: 10.1107/S1600536808026718/bt2741Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Both dithio\u00adcarbamate and the N-heterocyclic ligands function in a chelating mode.In the title compound, [Eu(C DOI: 10.1107/S160053680904135X/xu2634Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The title centrosymmetric coordination polymer, {[Cu(C DOI: 10.1107/S1600536810014510/su2168Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Sn atoms in the two independent mol\u00adecules adopt distorted trans-C3SnO2 trigonal\u2013bipyramidal geometries. The repeat distance of the polymeric chain is b/2.The 4-nitro\u00adcinnamate anion in the title compound, [Sn(C DOI: 10.1107/S1600536808032236/tk2314Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "II atom in the title Schiff base complex, [Cu(C15H11N3O5)(C5H5N)], is O,N,O\u2032-chelated by the doubly deprotonated Schiff base ligand. The metal centre is in a square-planar coordination geometry.The pyridine-coordinated Cu DOI: 10.1107/S1600536808042803/bt2838Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808008957/bt2692Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The mol\u00adecule lies across a twofold rotation axis, around which two 1,10-phenanthroline ligands are arranged. There are short contacts between the 1,10-phenanthroline groups and the O atoms of the croconate ligand, which probably stabilize the crystal structure via weak C\u2014H\u22efO interactions.In the title compound, [Zn(C DOI: 10.1107/S1600536808033709/sg2254Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two independent mol\u00adecules comprise the asymmetric unit, each of which lies on a mirror plane that passes through the C2Sn unit.In the title compound, [Sn(CH DOI: 10.1107/S1600536809030062/tk2508Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular N\u2014H\u22efCl hydrogen bonds link the organic cations and the uncoordinated chloride ion.In the title compound, (C DOI: 10.1107/S1600536810002886/hb5291Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each pair of adjacent MnII atoms is bridged by a CH3O-ip ligand, forming a helical chain running along a crystallographic 21 axis in the c-axis direction. These chains are decorated with 2,2\u2032-bipy ligands on alternating sides. O\u2014H\u22efO hydrogen bonding involving the water molecules stabilizes the crystal structure.In the title compound, {[Mn(C DOI: 10.1107/S1600536809035466/bg2299Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The water solvent mol\u00adecule is disordered over two positions in a 1:1 ratio.In the crystal structure of the title compound, [Ni(N DOI: 10.1107/S1600536809029407/rn2055Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808033102/at2636Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "One 2-dph ligand functions in a bridging mode and connects Pb ions into a linear chain. The crystal packing is governed by intra- and inter\u00admolecular O\u2014H\u22efO hydrogen bonds.In the title complex, {[Pb(C DOI: 10.1107/S1600536810004162/hy2276Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two disordered dichloro\u00admethane solvent mol\u00adecules are each 0.25-occupied on a twofold rotation axis.In the title compound, [FePt(C DOI: 10.1107/S1600536808043493/hy2171Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each FeIII center in the complex has a six-coordinated distorted cis-FeN2O4 octa\u00adhedral geometry.The structure of the title compound, [Fe DOI: 10.1107/S1600536809005091/hg2478Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The nickel(II) center is coordinated by two P atoms of the chelating PNP ligand, Ph2PN(iPr)PPh2, and two bromide ions in a distorted square-planar geometry.The title compound, [NiBr DOI: 10.1107/S1600536809003936/ci2764Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809038045/hb5109Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The other two imino N atoms act as hydrogen-bond acceptors from phenolate OH groups. The toluene solvent mol\u00adecule is disordered about a centre of inversion.In the toluene hemisolvated tripodal tris\u00ad(2-amino\u00adethyl)amine Schiff base, C DOI: 10.1107/S1600536809002906/bt2855Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Fe atom is six-coordinated by three phenolic O and three imine N atoms from three Schiff base ligands in an octa\u00adhedral geometry.The title complex, [Fe(C DOI: 10.1107/S1600536808014165/sj2500Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The compound adopts a linear chain structure.In the title compound, [CoCl DOI: 10.1107/S1600536808006685/ng2432Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Its non-centrosymmetric polymorph structure, (II), was known previously and has been redetermined at 193\u2005(2)\u2005K -\u03bcassa 2002. Acta Cr DOI: 10.1107/S1600536809009088/si2150Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Hydrogen bonds exist between the OH group of the pyridine-4-carbaldehyde oxime ligand and the two O atoms of the acetyl\u00adacetonate ions.The title compound, [U(C DOI: 10.1107/S1600536808012889/im2063Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The cation is bowed due to crystal packing effects, and the dihedral angle between the xylyl rings is 52.3\u2005(7)\u00b0. In the title compound, [Au(C DOI: 10.1107/S1600536808027116/hb2785Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging ligand results in an infinite chain. A network of O\u2014H\u22efO hydrogen bonds helps to establish the crystal structure.In the title compound, {[Cu(C DOI: 10.1107/S1600536808025439/hb2747Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two O atoms are cis, as are the two S atoms.In the title compound, [Ni(C DOI: 10.1107/S1600536808017145/hy2137Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808005382/dn2320Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Methanol\u2013acetate O\u2014H\u22efO hydrogen bonds link the dinculear units into a linear supra\u00admolecular chain extending parallel to [100].The reaction of zinc acetate and 2-methyl-8-hydroxy\u00adquinoline in methanol yielded the centrosymmetric dinuclear title compound, [Zn DOI: 10.1107/S1600536809014214/tk2424Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The linear butadiyne substituent has alternating C\u2014C triple and single bonds, while the unsubstituted cyclo\u00adpenta\u00addiene ring is slightly positionally disordered and retains a close to eclipsed conformation.The title compound, [Fe(C DOI: 10.1107/S1600536809005522/hg2474Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Ni\u22efNi distance is 3.2398\u2005(12)\u2005\u00c5.In the title azide-bridged dinuclear centrosymmetric nickel(II) complex, [Ni DOI: 10.1107/S1600536808037902/ci2712Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two cations are linked into dimers via three bridging carboxyl\u00adate groups from three 2,5-difluoro\u00adbenzoic acid units. The GdIII ion is nine-coord\u00adinated by seven O atoms and two N atoms.In the centrosymmetric title compound, [Gd DOI: 10.1107/S1600536808023507/er2055Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The Pd atom is located on a centre of inversion.The title compound, [PdCl DOI: 10.1107/S1600536808008337/bt2685Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Two short intra\u00admolecular C\u2014H\u22efO contacts occur in the mol\u00adecule.In the centrosymmetric title compound, [Zn(C DOI: 10.1107/S1600536809031109/hb5031Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ferrocenyl unit deviates from an eclipsed geometry with tilted cp rings; the inter\u00adplanar angle between the cp and imidazole rings is 114.11\u2005(4)\u00b0.In the title compound, [Fe(C DOI: 10.1107/S1600536808029231/dn2373Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Extensive O\u2014H\u22efO hydrogen-bonding inter\u00adactions connect the supra\u00admolecular chains into a three-dimensional network.The title supra\u00admolecular polymer, [Cu(S DOI: 10.1107/S1600536809047096/hb5217Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "The MgII ion is hexa\u00adcoordinated to four tetra\u00adhydro\u00adfuran (THF) ligands, and two AlH4 \u2212 anions through bridging H atoms. The Al\u2014H distances are more precise compared to those previously determined . The mol\u00adecule has twofold rotation symmetry.The structure of the title compound, [Mg(AlH al. 1995. Chem. BFuhr 2002. J. Allo DOI: 10.1107/S1600536810014200/ci5044Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The SnIV atom is six-coordinate within a distored octa\u00adhedral geometry defined by a C2Cl2O2 donor set.The mol\u00adecule of the title compound, [Sn(C DOI: 10.1107/S1600536809039269/tk2538Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The two carboxyl\u00adate groups of each L ligand, which adopt a syn-anti coordination mode, combine with four MnII atoms, yielding one-dimensional chains extending along [010].The title compound, [Mn DOI: 10.1107/S1600536810008123/fi2094Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The alkyl chains of the ligands are equally disordered over two sets of sites.In the title compound, [Zn(C DOI: 10.1107/S1600536810002825/hb5312Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal, inter\u00admolecular O\u2014H\u22efO hydrogen bonds form an extensive three-dimensional network, which consolidates the crystal packing.In the title compound, [Ni(C DOI: 10.1107/S1600536809028190/cv2585Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The TBDC ligands act as bridging ligands, forming chains along [110]. These chains are further linked into a two-dimensional network via inter\u00admolecular O\u2014H\u22efO hydrogen bonds. The solvent water mol\u00adecule lies on a twofold rotation axis.In the title complex, {[Cu(C DOI: 10.1107/S1600536810036913/lh5099Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ions are linked via N\u2014H\u22efCl hydrogen bonds into chains running along the b axis.The crystal structure of the title compound, (C DOI: 10.1107/S1600536808007368/ya2069Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Each Mo atom is coordinated by an \u03b75-cyclo\u00adpenta\u00addienyl ligand, two carbonyl ligands and a diphenyl\u00adphosphine ligand in a piano-stool fashion.The title compound, [Mo DOI: 10.1107/S1600536808017996/hg2402Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The symmetry-equivalent VV atoms exhibit coordination geometries defined by cis-terminal fluoride and oxide groups, unsymmetrically bridging oxide groups and the N-atom donors of the phenanthroline ligands. The crystal packing is stabilized by weak inter\u00admolecular C\u2014H\u22efO and C\u2014H\u22efF hydrogen bonds.The title compound, [V DOI: 10.1107/S1600536810037232/lh5133Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the crystal structure, mol\u00adecules are linked through inter\u00admolecular N\u2014H\u22efO hydrogen bonds, forming chains running along the b axis.In the title complex, [ZnI DOI: 10.1107/S1600536809037210/om2276Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal centres are connected via the tridentate L ligands into a three-dimensional polymeric structure.In the title compound, [Cd(C DOI: 10.1107/S160053680904255X/cv2629Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "J. Soli DOI: 10.1107/S1600536808033394/wm2190Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809003584/hb2904Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The title compound, (C DOI: 10.1107/S1600536810010196/dn2549Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808036131/pv2114Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The distorted square\u2013pyramidal N2O3 coordination geometry is completed by an O atom derived from a perchlorate anion.In the centrosymmetric and dinuclear title complex, [Mn DOI: 10.1107/S1600536808035551/tk2317Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536809032061/hb5046Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810013541/hb5404Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The bridging phenyl\u00adcyanamide anions generate an infinite chain propagating in [001].In the title coordination polymer, [Co(C DOI: 10.1107/S160053681000557X/hb5302Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "In the complex cations, the NaI centre is coordinated by five O atoms of the 2,3-naphtho-15-crown-5 ligand and one water O atom. The complex mol\u00adecules form a two-dimensional network via weak O\u2014H\u22efS inter\u00adactions between adjacent cations and anions The title complex, [Na(C DOI: 10.1107/S1600536809038641/pk2189Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Inter\u00admolecular O\u2014H\u22efCl and O\u2014H\u22efO hydrogen bonds form an extensive three-dimensional hydrogen-bonding network, which consolidates the crystal packing.In the title compound, [CoCl(C DOI: 10.1107/S1600536808042591/cv2481Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The ZnII atom is five coordinate with a distorted trigonal\u2013bipyramidal geometry, coordinating with three N atoms of the Schiff base (2-morpholinoeth\u00adyl)(2-pyridylmethyl\u00adidene)amine and two N atoms from two thio\u00adcyanate ligands. The morpholine ring adopts a chair configuration.The title compound, [Zn(NCS) DOI: 10.1107/S1600536808044061/su2087Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal center is five-coordinate in a trans-Br2SnC3 trigonal bipyramidal geometry. The cation is disordered about a center of inversion.The anion in the title salt, (C DOI: 10.1107/S1600536808011094/sg2227Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The dinuclear complex mol\u00adecules are assembled into one-dimensional supra\u00admolecular chains extending in the [100] direction by hydrogen bonds. Inter\u00adchain hydrogen bonds further link these chains into layers perpendicular to [001].In the title compound, [Cu DOI: 10.1107/S1600536808034570/cs2084Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "A crystallographic twofold axis bisects the molecule.The title compound, C DOI: 10.1107/S1600536808015377/fj2094Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The word \"Initiation\" was incorrectly entered as \"Initiator.\" The correct title is: \"A Novel Target of Action of Minocycline in NGF-Induced Neurite Outgrowth in PC12 Cells: Translation Initiation Factor eIF4AI\". The correct citation is: Hashimoto K, Ishima T (2010) A Novel Target of Action of Minocycline in NGF-Induced Neurite Outgrowth in PC12 Cells: Translation Initiator Factor eIF4AI. PLoS ONE 5(11): e15430. doi:10.1371/journal.pone.0015430"} +{"text": "In the crystal structure no obvious hydrogen bonding is observed.The five-coordinate Sn atom in the title salt, [(CH DOI: 10.1107/S1600536809019722/tk2456Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The metal centres are linked in an unusual triple-bridged mode into chains parallel to [101].In the title compound, [Cu(C DOI: 10.1107/S1600536809030050/pv2188Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The S atom from the other NCS\u2212 ion completes the distorted square-pyramidal coordination.In the title complex, [Cu(NCS) DOI: 10.1107/S1600536809048594/kj2135Isup2.hklStructure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF reportAdditional supplementary materials:"} +{"text": "In the crystal structure, inter\u00admolecular O\u2014H\u22efO hydrogen bonds link the mol\u00adecules into layers parallel to the bc plane.In the title mononuclear complex, [Cu(C DOI: 10.1107/S1600536808010593/cv2398Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536810036202/wm2402Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The complete ligand is generated by crystallographic twofold symmetry, resulting in an infinite one-dimensional architecture along [101].In the title coordination polymer, [FeCl DOI: 10.1107/S1600536810002837/hb5310Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "N\u2014H\u22efO hydrogen bonding is present in the crystal structure.In the crystal structure of the title compound, [Cu(C DOI: 10.1107/S1600536809004577/xu2458Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The five-membered imidazole ring is disordered over two positions with the major component having a site occupancy of 0.712\u2005(4); the N-bound methyl substituents are ordered. The imidazole ring is approximately perpendicular to the six-membered phenyl\u00adene ring .The title imidazolium-based ionic-liquid salt, C DOI: 10.1107/S1600536809026324/tk2494Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The diethyl ether ligand adopts a nearly planar W-type conformation.In the title compound, [Li(C DOI: 10.1107/S1600536809011556/dn2437Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The crystal structure displays weak inter\u00admolecular N\u2014H\u22efCl hydrogen bonding.In the title compound, [PdCl DOI: 10.1107/S1600536809008472/rk2132Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "The NiII ion, lying on an inversion centre, is four-coordinated in a square-planar geometry by two phenolate O and two imine N atoms from two symmetry-related 2-imino\u00admethyl-5-methoxy\u00adphenolate ligands. In the crystal, mol\u00adecules are linked into corrugated layers parallel to (100) by N\u2014H\u22efO hydrogen bonds.The title compound, [Ni(C DOI: 10.1107/S1600536809039233/ci2923Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "DOI: 10.1107/S1600536808023799/tk2286Isup2.hkl Structure factors: contains datablocks I. DOI: crystallographic information; 3D view; checkCIF report Additional supplementary materials:"} +{"text": "Correction to: Chiropr Man Therap (2019) 27:63https://doi.org/10.1186/s12998-019-0283-6Original name tagging:After publication of our article the authAx\u00e9n IbenHestbaek LiseCorrect name tagging:Leboeuf-Yde CharlotteIben Ax\u00e9nLise HestbaekCharlotte Leboeuf-YdeThe original article has been corrected."} +{"text": "The correct reference is: Salusso A, Raimunda D. Pseudomonas Aeruginosa CDF Transporters CzcD and YiiP are Involved in Zn2+ Efflux, Outer Membrane Permeability and Antibiotic Resistance. Biophys J.; 2017; 112: 3, 16a."} +{"text": "The Pan African Medical Journal. 2018;30:266. doi:10.11604/pamj.2018.30.266.13209.Ce Corrigendum modifie l'article original Dans l'article original archiv\u00e9 sur Pubmed, le nom de l'auteur Abdelkader Jalil El Hangouche est archiv\u00e9 Hangouche AJE au lieu de El Hangouche AJ ."} +{"text": "GigaScience, 6, 2017; doi: 10.1093/gigascience/gix077.A formula was incorrect upon initial publication. The formula \u201cp-value = binomial_cdf (T(v)-Kv(s), T(v), PNull (s))\u201d should instead be \u201cp-value = binomial_cdf (T(v)-Kv(s), T(v), 1-PNull (s)).\u201dThis has now been corrected."} +{"text": "Scientific Reports 10.1038/s41598-017-18331-9, published online 21 December 2017Correction to: This Article contains typographical errors in the Acknowledgements section.\u201cHorizon 2020 Framework Programme (H2020) (792720)\u201dshould read:\u201cHorizon 2020 Framework Programme (H2020) (732720)\u201d"} +{"text": "Nature Communications; 10.1038/ncomms15287; published online 16 May 2017.Correction to: This Article contains errors in Fig."} +{"text": "Correction to: Br J Cancer (2018) 117, 1819\u20131827; 10.1038/bjc.2017.353; published online 12 October 2017Supplementary Table Supplementary Table 1Supplementary Figure Legends"} +{"text": "Scientific Reports5; Article number: 1533810.1038/srep15338; published online: 10212015; updated: 07022018In the original version of this Article, the author Karthiga Santhana Kumar was incorrectly indexed.In addition, this Article contained an error in the Results section, under the subheading \u2018Automated quantification of cell dissemination\u2019,http://www.infozentrum.ethz.ch/uploads/user_upload/Software/.\u201d\u201cA program suite referred to as automated Cell Dissemination counter (aCDc) consisting of three open source, executable Java programs (.jar) files can be downloaded through the following web link now reads:https://urldefense.proofpoint.com/v2/url?u=http-3A__www.infozentrum.ethz.ch_uploads_user-5Fupload_Software_ImageAnalysisSoftware.zip&d=DwIGaQ&c=vh6FgFnduejNhPPD0fl_yRaSfZy8CWbWnIf4XJhSqx8&r=Q0HWMVGq_tlDBf7wAxJCv189FbTXBj2Fzg4N_lVZ7NM&m=y4-cT7GLvN-bRkjsbfl2iBNdNwRNEYQ4YmdXP3tZjas&s=o6yob3XKrSnFjEfuAxXQN7WgIuJhyqBCi8hBAm94hFg&e=.\u201d\u201cA program suite referred to as automated Cell Dissemination counter (aCDc) consisting of three open source, executable Java programs (.jar) files can be downloaded through the following web link"} +{"text": "This article has been corrected: The correct affiliation information is given below:1 Josep Carreras Leukemia Research Institute, Universitat Aut\u00f2noma de Barcelona, Spainhttps://doi.org/10.18632/oncotarget.12497Original article: Oncotarget. 2016; 7:72057-72066."} +{"text": "Scientific Reports 10.1038/s41598-017-06977-4, published online 08 August 2017Correction to: This Article contained an error in the legend of Table 1 where,\u201cFor each interactors, the interacting TANC protein, the detection method and the binding region are here listed. Y2H: Yeast two hybrid; Co-IP: Co-immunoprecipitation; SPR: Surface plasmon resonance HTS: High-Throughput System; AC: Affinity Capture; PL: Proximity Label; MS: Mass spectrometry; CLIP: Cross-Linking ImmunoPrecipitation SF-TAP/MS: systematic tandem affinity purifications coupled to mass spectrometry. LIG_PDZ_Class_1: PDZ-binding motif; LIG_EVH1_1: Proline-rich motif binding to signal transduction class I EVH1 domains; DEG_SCF_TRCP1: SCF-betaTrCP1 complex target site; MOD_LATS_1: phosphorylation motif recognised by the LATS kinases; DOC_PP1_RVXF_1: PP1 docking motif; LIG_14-3-3_2: phospho-motif mediating the interaction with 14-3-3 proteins; LIG_Actin_WH2_2: Actin-binding motif; TRG_NES_CRM1_1: Nuclear Export Signal.\u201dnow reads:3) and helium (0.03\u2009g/cm3) were kept fixed during the fitting procedure, and their thicknesses were infinite. Error estimates were obtained for every parameter by varying the parameter until the \u03c7 based R-value is changed by 5% . The method does not reveal correlations between the parameters. On the right side, theoretical bulk density and the molecular length of the molecules are given for comparison.\u201d\u201cThe tabulated parameters are obtained from fitting the reflectivity data with box models. For models with more than one layer, the layer closest to the calcite surface is indexed 1 (e.g. Methanol-1). The density for calcite (2.71\u2009g/cm"} +{"text": "G. Tuberoso."} +{"text": "Scientific Data 2:150050 doi: 10.1038/sdata.2015.50 (2015); Published 29 September 2015; Updated 3 July 2018.Panels a-e were accidentally omitted from"} +{"text": "Correction to: BMC Genomics (2019) 20:262https://doi.org/10.1186/s12864-019-5576-6Following publication of the original article , the autPampon\u00e9t Vanessa Carvalho CayresOriginally the author name was published as:Vanessa Carvalho Cayres Pampon\u00e9tThe correct author name is:"} +{"text": "The European Centre for Disease Prevention and Control (ECDC) invites applications for the following positions:Disease Programme Coordination ManagerThe application deadline expires on 03 September 2018. Financial assistantThe application deadline expires on 03 September 2018.https://ecdc.europa.eu/en/work-us/vacancies?f%5B0%5D=deadline_date%3A1&f%5B1%5D=vacancy_type%3A1700For more information on either position, please visit the ECDC website:"} +{"text": "The original publication containsThe correct version:Medina-Pradas et al. (2011): \u201cEFA/CV/CtV/ICR\u201d"} +{"text": "Pulmonaria officinalis L., Boraginaceae) is considered to possess therapeutic properties and it has been traditionally used as a remedy against various lung disorders in many countries. Nevertheless, very few data concerning its phytochemical composition are available. This research aims to provide a detailed description of specialized metabolites from the aerial parts of lungwort. Nine previously undescribed and 36 known phenolic compounds were detected in the 50% methanolic extract. Following multistep preparative procedures, structures of newly discovered compounds were determined using one- and two-dimensional techniques of NMR spectroscopy. Among the identified compounds were caffeic acid esters with aliphatic hydroxycarboxylic acids, conjugates of dicaffeic acid with rosmarinic acid, and previously unknown isomers of isosalvianolic acid A and yunnaneic acid E, as well as other lignans. Concentrations of all identified phenolic derivatives in the investigated herbal material were estimated using a method based on liquid chromatography with high-resolution mass spectrometry detection. Seasonal changes in the concentration of metabolites were also investigated using targeted and untargeted metabolomics techniques.Lungwort ( Pulmonaria officinalis L (lungwort), belonging to the Boraginaceae family, is a herbaceous perennial plant, widely spread in Europe and western Asia. It has a long tradition of use in folk medicine of many countries as a remedy against various respiratory diseases including asthma, chronic bronchitis, tuberculosis, laryngitis, and coughs. It also has expectorant, antitussive, and diaphoretic properties photocycloaddition of two olefinic moieties \u2212 at m/z 353. Compound 6 was identified as 3-O-caffeoylquinic acid, whereas compound 9 was identified as 4-O-caffeoylquinic acid, by comparisons of MS/MS fragmentation patterns and retention times with that of authentic standards. The last isomer was only tentatively identified as a 5-O-caffeoylquinic acid (13) by its fragmentation pattern alone \u2212 ion of digoxin at RT 17.48 min). At this stage of data processing, standard t-test and fold-change analyses were carried out to provide a preliminary overview of features potentially characteristic for the two phenological stages under study. Next, all missing intensity values and intensities that were equal to zero in the data matrix were replaced by the half of the minimum positive value that was found within the data, and multivariate PCA was applied to investigate systematic variation in the data matrix and to identify potential groups in an unsupervised manner.For untargeted metabolomic analyses, data obtained from LC-QTOF-MS/MS runs were processed using Find Molecular Features function of Bruker DataAnalysis ver. 4.4 SR1 software. The following parameters were used: a signal-to-noise threshold of 9, correlation coefficient threshold of 0.7, and the minimum compound length of seven spectra. For each detected compound, in addition to the deprotonated ion, all typical adduct and composite ions were grouped into a single feature. Next, features from the entire dataset were subjected to advanced bucket generation with Bruker ProfileAnalysis ver. 2.3 software, using retention time range 1.2\u201322.0 min and oAnalyst . Data weThe bias related to instrumental drift was minimized by randomization of the sample list injection order. It was achieved using an in-house-developed VBA script in Microsoft Excel.P. officinalis that had been isolated in the course of this study, and 25 \u00b5g/mL of the internal standard. This QC sample was used to monitor the quality and stability of the data acquisition and was analyzed in replicate after each block of 20 analyses.The performance of the LC-MS and the data processing systems were monitored with two types of quality control (QC) samples. Class-specific QC samples were prepared by mixing 10 \u00b5L aliquots of each sample within the group and diluting them 10 times, just like normal samples. Class QC samples were analyzed after every six analyses of normal samples. During data processing, features detected in less than 75% of class-specific QC samples were removed from the dataset. The frequency distribution of the relative standard deviation for the peak intensities and peak numbers in the QC samples are given in 1H, 13C DEPTQ, 1H\u201313C HSQC, 1H\u201313C H2BC, 1H\u201313C HMBC, 1H\u201313C F2-coupled perfect-CLIP HSQC, 1H\u201313C HSQC-TOCSY, 1H\u20131H COSY DQF, 1H\u20131H TOCSY, 1H\u20131H NOESY, 1H\u20131H TROESY, 1D\u2013TOCSY, 1D-TROESY, CSSF-1D-NOESY, and CSSF-1D-TOCSY \u2212 .Danshensu lactic acid (2); light brownish amorphous powder; UV \u03bbmax (nm) 260; HR-QTOF-MS (neg.) m/z 312.1086 [M \u2212 H]\u2212 .Menisdaurin (O-(E)-Caffeoyl-threonic acid (3); white amorphous powder; UV \u03bbmax (nm) 325; \u22125 M, MeOH): [\u0398]228 \u2212 3330, [\u0398]252 \u2212 32, [\u0398]259 \u2212 170, [\u0398]297 + 2385, [\u0398]306 + 2250, [\u0398]315 + 1877, [\u0398]322 + 2185, [\u0398]325 + 2034, [\u0398]333 + 2338, [\u0398]342 + 1962, [\u0398]347 + 2091, [\u0398]372 + 284, [\u0398]377 + 340; HR-QTOF-MS (neg.) m/z 297.0619 [M \u2212 H]\u2212 . 1H and 13C-NMR spectroscopic data (3-pic data .O-(E)-Caffeoyl-l-threonic acid (4); white amorphous powder; UV \u03bbmax (nm) 325; \u22125 M, MeOH) [\u0398]237 + 1647, [\u0398]338 \u2212 1574; HR-QTOF-MS (neg.) m/z 297.0611 [M \u2212 H]\u2212 .2-5); white amorphous powder; UV \u03bbmax (nm) 275; HR-QTOF-MS (neg.) m/z 215.0825 [M \u2212 H]\u2212 .Lycoperodine-1 (6); white amorphous powder; UV \u03bbmax (nm) 325; HR-QTOF-MS (neg.) m/z 353.0882 [M \u2212 H]\u2212 .Chlorogenic acid (7); white amorphous powder; UV \u03bbmax (nm) 325; HR-QTOF-MS (neg.) m/z 405.2126 [M \u2212 H]\u2212 .Actinidioionoside (8); white amorphous powder; UV \u03bbmax (nm) 325; HR-QTOF-MS (neg.) m/z 179.0262 [M \u2212 H]\u2212 .Caffeic acid (9); white amorphous powder; UV \u03bbmax (nm) 325; HR-QTOF-MS (neg.) m/z 353.0882 [M \u2212 H]\u2212 .Cryptochlorogenic acid (O-(E)-Feruloyl-\u03b1-sorbopyranosyl-(2\u2032\u21921)-\u03b1-glucopyranoside (10); white amorphous powder; UV \u03bbmax (nm) 325; m/z 517.1572 [M \u2212 H]\u2212 . 1H and 13C-NMR spectroscopic data (3\u2032-pic data .O-(E)-Caffeoyl-d-glyceric acid (11); white amorphous powder; UV \u03bbmax (nm) 325; \u22125 M, MeOH) [\u0398]265 \u2212 144, [\u0398]317 \u2212 5806, [\u0398]380 + 296; HR-QTOF-MS (neg.) m/z 267.0508 [M \u2212 H]\u2212 .2-O-(E)-Caffeoyl-l-threonic acid (12); white amorphous powder; UV \u03bbmax (nm) 215, 325; \u22125 M, MeOH) [\u0398]261\u2212169, [\u0398]283 \u2212 593, [\u0398]300 \u2212 509, [\u0398]325 \u2212 1349, [\u0398]384 + 80, [\u0398]380 + 296; HR-QTOF-MS (neg.) m/z 297.0616 [M \u2212 H]\u2212 .4-13); tentative identification; UV \u03bbmax (nm) 325; HR-QTOF-MS (neg.) m/z 353.0878 [M \u2212 H]\u2212 .Neochlorogenic acid (O-(E)-Caffeoyl- glyceric acid (14); white amorphous powder; UV \u03bbmax (nm) 215, 325; \u22125 M, MeOH) [\u0398]231 \u2212 1125, [\u0398]253 \u2212 207, [\u0398]273 \u2212 277, [\u0398]293 + 208, [\u0398]305 + 429, [\u0398]324 + 1234, [\u0398]343 + 76, [\u0398]358 \u2212 204, [\u0398]373 \u2212 286; HR-QTOF-MS (neg.) m/z 267.0509 [M \u2212 H]\u2212 .1H and 13C-NMR spectroscopic data (3-pic data . O-p-Coumaroylquinic acid (15); white amorphous powder; UV \u03bbmax (nm) 225, 310; m/z 337.0924 [M \u2212 H]\u2212 .3-O-p-Coumaroylquinic acid (16); tentative identification; UV \u03bbmax (nm) 225, 310; HR-QTOF-MS (neg.) m/z 337.0926 [M \u2212 H]\u2212 .4-O-p-Coumaroylquinic acid (17); tentative identification; UV \u03bbmax (nm) 225, 310; HR-QTOF-MS (neg.) m/z 337.0924 [M \u2212 H]\u2212 .5-18); white amorphous powder; UV \u03bbmax (nm) 255, 345; \u22125 M, MeOH) [\u0398]254 \u2212 14186, [\u0398]292 + 3337, [\u0398]313 \u2212 4443, [\u0398]351 + 12263; HR-QTOF-MS (neg.) m/z 537.1034 [M \u2212 H]\u2212 . 1H and 13C-NMR spectroscopic data (Globoidnan B (pic data .19) yellow amorphous powder; UV \u03bbmax (nm) 255, 355; HR-QTOF-MS (neg.) m/z 609.1464 [M \u2212 H]\u2212 .Rutin (20); tentative identification; UV \u03bbmax (nm) 345; HR-QTOF-MS (neg.) m/z 593.1501 [M \u2212 H]\u2212 .Nicotiflorin isomer (O-\u03b2-glucoside (21); yellow amorphous powder; UV \u03bbmax (nm) 255, 355; HR-QTOF-MS (neg.) m/z 463.0892 [M \u2212 H]\u2212 .Quercetin 3-22); white amorphous powder; UV \u03bbmax (nm) 265; m/z 571.1092 [M \u2212 H]\u2212 .Yunnaneic acid E -\u03b2-glucoside (23); yellow amorphous powder; UV \u03bbmax (nm) 255, 355; HR-QTOF-MS (neg.) m/z 549.0876 [M \u2212 H]\u2212 .Quercetin 3-24); yellow amorphous powder; UV \u03bbmax (nm) 265, 345; HR-QTOF-MS (neg.) m/z 593.1503 [M \u2212 H]\u2212 .Nicotiflorin (25); yellow amorphous powder; UV \u03bbmax (nm) 265, 345; HR-QTOF-MS (neg.) m/z 447.0940 [M \u2212 H]\u2212 .Astragalin (26); light cream amorphous powder; UV \u03bbmax (nm) 285; HR-QTOF-MS (neg.) m/z 719.1607 [M \u2212 H]\u2212 .Shimobashiric acid C (27); light yellowish amorphous powder; UV \u03bbmax (nm) 220, 330; CD [\u0398]232 \u2212 9423, [\u0398]254 \u2212 1004, [\u0398]275 \u2212 3233, [\u0398]302 + 7406, [\u0398]313 + 6634, [\u0398]326 + 7255; HR-QTOF-MS (neg.) m/z 359.0773 [M \u2212 H]\u2212 .Rosmarinic acid -\u03b2-glucoside (28); yellow amorphous powder; UV \u03bbmax (nm) 265, 345; HR-QTOF-MS (neg.) m/z 533.0940 [M \u2212 H]\u2212 .Kaempferol 3-29); white amorphous powder; UV \u03bbmax (nm) 310; \u22125 M, MeOH) [\u0398]253 \u2212 70887, [\u0398]290 + 6650, [\u0398]332 \u2212 7130, [\u0398]386 + 290; HR-QTOF-MS (neg.) m/z 537.1035 [M \u2212 H]\u2212 .Monardic acid A (30); white amorphous powder; UV \u03bbmax (nm) 265; HR-QTOF-MS (neg.) m/z 509.1094 [M \u2212 H]\u2212 . 1H and 13C-NMR spectroscopic data -2-((3-(3-(carboxycarbonyl)-3\u2032,4\u2032-dihydroxy--4-yl) propanoyl)oxy)-3-propanoic acid (pic data .31); white amorphous powder; UV \u03bbmax (nm) 310; \u22125 M, MeOH) [\u0398]253 + 28451, [\u0398]281 \u2212 3444, [\u0398]330 + 8800; HR-QTOF-MS (neg.) m/z 537.1054 [M \u2212 H]\u2212 .Lithospermic acid A (32); white amorphous powder; UV \u03bbmax (nm) 325; \u22125 M, MeOH) [\u0398]237 + 16506, [\u0398]246 + 15155, [\u0398]253 + 15786, [\u0398]247 \u2212 4592, [\u0398]294 + 15809, [\u0398]341 \u2212 47198; HR-QTOF-MS (neg.) m/z 999.2766 [M \u2212 H]\u2212 . 1H and 13C-NMR spectroscopic data (Pulmonarioside A (pic data .O-(8\u2033-Z-caffeoyl) rosmarinic acid) (33); white amorphous powder; UV \u03bbmax (nm) 325; m/z 537.1034 [M \u2212 H]\u2212 .Salvianolic acid H, (3\u2032-34); white amorphous powder; UV \u03bbmax (nm) 250; 288; 330; \u22125 M, MeOH) [\u0398]235 + 14042, [\u0398]255 + 25042, [\u0398]280 \u2212 2869; [\u0398]303 + 9014, [\u0398]334 + 11379; HR-QTOF-MS (neg.) m/z 717.1444 [M \u2212 H]\u2212 .Lithospermic acid B (35); white amorphous powder; UV \u03bbmax (nm) 325; \u22125 M, MeOH) [\u0398]253 + 32447, [\u0398]274 \u2212 4384, [\u0398]296 + 20685, [\u0398]340 \u2212 56660; HR-QTOF-MS (neg.) m/z 1013.2946 [M \u2212 H]\u2212 . 1H and 13C-NMR spectroscopic data (Pulmonarioside B (pic data .36); white amorphous powder; UV \u03bbmax (nm) 280; \u22125 M, MeOH) [\u0398]231 \u2212 13436, [\u0398]252 \u2212 9737, [\u0398]269 \u2212 11309, [\u0398]300 + 41370; HR-QTOF-MS (neg.) m/z 1093.2255 [M \u2212 H]\u2212 .Yunnaneic acid B (37); white amorphous powder; UV \u03bbmax (nm) 260, 320; m/z 491.0979 [M \u2212 H]\u2212 .Globoidnan A (38); white amorphous powder; UV \u03bbmax (nm) 325; \u22125 M, MeOH) [\u0398]246 + 10304, [\u0398]284 \u2212 24134, [\u0398]324 + 26434; HR-QTOF-MS (neg.) m/z 551.1190 [M \u2212 H]\u2212 .1H and 13C-NMR spectroscopic data (Pulmitric acid A (pic data .39); white amorphous powder; UV \u03bbmax (nm) 320; m/z 535.0885 [M \u2212 H]\u2212 ; 1H and 13C-NMR spectroscopic data (Pulmitric acid B (pic data .40); white amorphous powder; UV \u03bbmax (nm) 320; \u22125 M , MeOH) [\u0398]230 \u2212 7505, [\u0398]255 + 5772, [\u0398]276 \u2212 1307, [\u0398]305 + 15195; HR-QTOF-MS (neg.) m/z 493.1134 [M \u2212 H]\u2212 ; 1H and 13C-NMR spectroscopic data ; white amorphous powder; UV \u03bbmax (nm) 320; \u22125 M, MeOH) [\u0398]248 \u2212 6367, [\u0398]305 + 3958; HR-QTOF-MS (neg.) m/z 493.1134 [M \u2212 H]\u2212 ; 1H and 13C-NMR spectroscopic data ; tentative identification; UV \u03bbmax (nm) 320; HR-QTOF-MS (neg.) m/z 493.1133 [M \u2212 H]\u2212 .Isosalvianolic acid A isomer (43); white amorphous powder; UV \u03bbmax (nm) 330; m/z 373.0932 [M \u2212 H]\u2212 . Rosmarinic acid methyl ester (44); white amorphous powder; UV \u03bbmax (nm) 325; HR-QTOF-MS (neg.) m/z 551.1189 [M \u2212 H]\u2212 . Salvianolic acid H-9\u2033-methylester (3\u2032-O-(8\u2033-Z-caffeoyl)rosmarinic acid-9\u2033-methylester) (45) tentative identification; UV \u03bbmax (nm) 220; HR-QTOF-MS (neg.) m/z 519.0926 [M \u2212 H]\u2212 .Lycopic acid C (Pulmonaria officinalis. The presented research may provide insights for the potential applications of lungwort as a dietary supplement or a nutraceutical, and may it also contribute to the broader application of Pulmonariae Herba. Extracts of P. officinalis may serve as a prominent supply of rosmarinic acid and related compounds, as well as a source of several others metabolites. Among the 45 identified metabolites, we found many compounds with well-established therapeutic properties, although none of them alone can be directly associated with the ethnomedicinal use of lungwort. Our results also show progressive changes in the phytochemical composition of P. officinalis during the phenological cycle, presumably reflecting both changes in the physiological state of plants, as well as varying intensity of different abiotic factors.To the best of our knowledge, this is the first comprehensive study of specialized metabolites in the aerial parts of"} +{"text": "Chem. Commun., 2018, DOI: 10.1039/c7md00575j.Correction for \u2018Novel valdecoxib derivatives by ruthenium("} +{"text": "Retraction Note: Stem Cell Res Therhttps://doi.org/10.1186/scrt443This article has been"} +{"text": "Correction to: Antimicrob Resist Infect Controlhttps://doi.org/10.1186/s13756-018-0389-yThe original article contains\u201cTPB has been employed extensively in pharmacy practice research.\u201d"} +{"text": "Enterobacteriaceae, which they named Edwardsiella (for CDC microbiologist Philip R. Edwards) tarda . These o"} +{"text": "This article has been corrected: The correct Title information is given below:ARF\u2013Mdm2\u2013P53-dependent cellular senescenceNLRP6 targeting suppresses gastric tumorigenesis via P14111597-111607. https://doi.org/10.18632/oncotarget.22876Original article: Oncotarget. 2017; 8:"} +{"text": "EGFR mediates LPA\u2010induced proteolytic enzyme expression and ovarian cancer invasion: Inhibition by resveratrol. Mol Oncol7, 121\u2013129.23127547"} +{"text": "Although the Concise Guide represents approximately 400 pages, the material presented is substantially reduced compared to information and links presented on the website. It provides a permanent, citable, point\u2010in\u2010time record that will survive database updates. The full contents of this section can be found at http://onlinelibrary.wiley.com/doi/10.1111/bph.14747. In addition to this overview, in which are identified Other protein targets which fall outside of the subsequent categorisation, there are six areas of focus: G protein\u2010coupled receptors, ion channels, nuclear hormone receptors, catalytic receptors, enzymes and transporters. These are presented with nomenclature guidance and summary information on the best available pharmacological tools, alongside key references and suggestions for further reading. The landscape format of the Concise Guide is designed to facilitate comparison of related targets from material contemporary to mid\u20102019, and supersedes data presented in the 2017/18, 2015/16 and 2013/14 Concise Guides and previous Guides to Receptors and Channels. It is produced in close conjunction with the International Union of Basic and Clinical Pharmacology Committee on Receptor Nomenclature and Drug Classification (NC\u2010IUPHAR), therefore, providing official IUPHAR classification and nomenclature for human drug targets, where appropriate.The Concise Guide to PHARMACOLOGY 2019/20 is the fourth in this series of biennial publications. The Concise Guide provides concise overviews of the key properties of nearly 1800 human drug targets with an emphasis on selective pharmacology (where available), plus links to the open access knowledgebase source of drug targets and their ligands ( Thyroid hormone receptorsS231 1B. Retinoic acid receptorsS232 1C. Peroxisome proliferator\u2010activated receptorsS233 1D. Rev\u2010Erb receptorsS234 1F. Retinoic acid\u2010related orphansS234 1H. Liver X receptor\u2010like receptorsS235 1I. Vitamin D receptor\u2010like receptorsS236 2A. Hepatocyte nuclear factor\u20104 receptorsS237 2B. Retinoid X receptorsS238 2C. Testicular receptorsS238 2E. Tailless\u2010like receptorsS239 2F. COUP\u2010TF\u2010like receptorsS239 3B. Estrogen\u2010related receptorsS240 4A. Nerve growth factor IB\u2010like receptorsS241 5A. Fushi tarazu F1\u2010like receptorsS241 6A. Germ cell nuclear factor receptorsS242 0B. DAX\u2010like receptorsS242 Steroid hormone receptorsS243 3A. Estrogen receptorsS244 3C. 3\u2010Ketosteroid receptorsS248 Cytokine receptor familyS249 IL\u20102 receptor familyS251 IL\u20103 receptor familyS252 IL\u20106 receptor familyS254 IL\u201012 receptor familyS255 Prolactin receptor familyS256 Interferon receptor familyS257 IL\u201010 receptor familyS258 Immunoglobulin\u2010like family of IL\u20101 receptorsS259 IL\u201017 receptor familyS259 GDNF receptor familyS260 IntegrinsS264 Pattern recognition receptorsS264 Toll\u2010like receptor familyS266 NOD\u2010like receptor familyS268 RIG\u2010I\u2010like receptor familyS269 Receptor Guanylyl Cyclase (RGC) familyS269 Transmembrane quanylyl cyclasesS270 Nitric oxide (NO)\u2010sensitive (soluble) guanylyl cyclaseS271 Receptor tyrosine kinases (RTKs)S272 Type I RTKs: ErbB receptor familyS273 Type II RTKs: Insulin receptor familyS274 Type III RTKs: PDGFR, CSFR, Kit, FLT3 receptor familyS275 Type IV RTKs: VEGF receptor familyS275 Type V RTKs: FGF (broblast growth factor) receptor familyS276 Type VI RTKs: PTK7/CCK4S277 Type VII RTKs: Neurotrophin receptor/Trk familyS278 Type VIII RTKs: ROR familyS278 Type IX RTKs: MuSKS279 Type X RTKs: HGF (hepatocyte growth factor) receptor familyS279 Type XI RTKs: TAM receptor familyS280 Type XII RTKs: TIE family of angiopoietin receptorsS280 Type XIII RTKs: Ephrin receptor familyS281 Type XIV RTKs: RETS282 Type XV RTKs: RYKS282 Type XVI RTKs: DDR (collagen receptor) familyS283 Type XVII RTKs: ROS receptorsS283 Type XVIII RTKs: LMR familyS284 Type XIX RTKs: Leukocyte tyrosine kinase (LTK) receptor familyS284 Type XX RTKs: STYK1S286 Receptor serine/threonine kinase (RSTK) familyS286 Type I receptor serine/threonine kinasesS287 Type II receptor serine/threonine kinasesS287 Type III receptor serine/threonine kinasesS287 RSTK functional heteromersS289 Receptor tyrosine phosphatase (RTP) familyS291 Tumour necrosis factor (TNF) receptor familyS301 Acetylcholine turnoverS302 Adenosine turnoverS303 Amino acid hydroxylasesS304 L\u2010Arginine turnoverS304 2.1.1.\u2010 Protein arginine N\u2010methyltransferasesS305 ArginaseS305 Arginine:glycine amidinotransferaseS305 Dimethylarginine dimethylaminohydrolasesS306 Nitric oxide synthasesS307 Carbonic anhydrasesS308 Carboxylases and decarboxylasesS308 CarboxylasesS309 DecarboxylasesS311 Catecholamine turnoverS313 Ceramide turnoverS313 Serine palmitoyltransferaseS314 Ceramide synthase4\u2010desaturaseS314 Sphingolipid \u0394S315 Sphingomyelin synthaseS315 Sphingomyelin phosphodiesteraseS316 Neutral sphingomyelinase coupling factorsS316 Ceramide glucosyltransferaseS316 Acid ceramidaseS317 Neutral ceramidasesS317 Alkaline ceramidasesS318 Ceramide kinaseS319 Chromatin modifying enzymesS319 2.1.1.\u2010 Protein arginine N\u2010methyltransferasesS320 3.5.1.\u2010 Histone deacetylases (HDACs)S321 Cyclic nucleotide turnover/signallingS321 Adenylyl cyclases (ACs)S323 Exchange protein activated by cyclic AMP (EPACs)S323 Phosphodiesterases, 3\u2019,5\u2019\u2010cyclic nucleotide (PDEs)S327 Cytochrome P450S327 CYP2 familyS328 CYP2 familyS329 CYP3 familyS330 CYP4 familyS331 CYP5, CYP7 and CYP8 familiesS332 CYP11, CYP17, CYP19, CYP20 and CYP21 familiesS333 CYP24, CYP26 and CYP27 familiesS333 CYP39, CYP46 and CYP51 familiesS334 DNA topoisomerasesS335 Endocannabinoid turnoverN\u2010Acylethanolamine turnoverS336 S337 2\u2010Acylglycerol ester turnoverS338 Eicosanoid turnoverS338 CyclooxygenaseS339 Prostaglandin synthasesS341 LipoxygenasesS342 Leukotriene and lipoxin metabolismS343 GABA turnoverS344 Glycerophospholipid turnoverS345 Phosphoinositide\u2010specific phospholipase C2S346 Phospholipase AS348 Phosphatidylcholine\u2010specific phospholipase DS349 Lipid phosphate phosphatasesS349 Phosphatidylinositol kinasesS350 1\u2010phosphatidylinositol 4\u2010kinase familyS351 Phosphatidylinositol\u20104\u2010phosphate 3\u2010kinase familyS351 Phosphatidylinositol 3\u2010kinase familyS351 Phosphatidylinositol\u20104,5\u2010bisphosphate 3\u2010kinase familyS352 1\u2010phosphatidylinositol\u20103\u2010phosphate 5\u2010kinase familyS353 Type I PIP kinases (1\u2010phosphatidylinositol\u20104\u2010phosphate 5\u2010kinase family)S353 Type II PIP kinases (1\u2010phosphatidylinositol\u20105\u2010phosphate 4\u2010kinase family)S356 Phosphatidylinositol phosphate kinasesS356 Haem oxygenaseS358 Hydrogen sulphide synthesisS358 HydrolasesS360 Inositol phosphate turnoverS360 Inositol 1,4,5\u2010trisphosphate 3\u2010kinasesS360 Inositol polyphosphate phosphatasesS361 Inositol monophosphataseS361 Kinases (EC 2.7.x.x)S362 Rho kinaseS362 Protein kinase C (PKC) familyS363 Alpha subfamilyS363 Delta subfamilyS364 Eta subfamilyS364 FRAP subfamilyS365 Cyclin\u2010dependent kinase (CDK) familyS365 CDK4 subfamilyS366 GSK subfamilyS367 Polo\u2010like kinase (PLK) familyS367 STE7 familyS368 Abl familyS368 Ack familyS369 Janus kinase (JakA) familyS369 Src familyS370 Tec familyS371 RAF familyS372 Lanosterol biosynthesis pathwayS374 Nucleoside synthesis and metabolismS376 Paraoxonase (PON) familyS377 Peptidases and proteinasesS377 A1: PepsinS377 A22: PresenilinS378 C14: CaspaseS378 M1: Aminopeptidase NS379 M2: Angiotensin\u2010converting (ACE and ACE2)S379 M10: Matrix metallopeptidaseS380 M12: Astacin/AdamalysinS380 M28: Aminopeptidase YS381 M19: Membrane dipeptidaseS381 S1: ChymotrypsinS382 T1: ProteasomeS382 S8: SubtilisinS383 S9: Prolyl oligopeptidaseS383 Poly ADP\u2010ribose polymerasesS384 Prolyl hydroxylasesS384 Sphingosine 1\u2010phosphate turnoverS385 Sphingosine kinaseS386 Sphingosine 1\u2010phosphate phosphataseS387 Sphingosine 1\u2010phosphate lyaseS387 Thyroid hormone turnoverS388 1.14.13.9 Kynurenine 3\u2010monooxygenaseS389 2.5.1.58 Protein farnesyltransferaseS390 3.5.1.\u2010 Histone deacetylases (HDACs)S391 3.5.3.15 Peptidyl arginine deiminases (PADI)S391 3.6.5.2 Small monomeric GTPasesS391 RAS subfamilyS392 RAB subfamilyS399 ATP\u2010binding cassette transporter familyS399 ABCA subfamilyS401 ABCB subfamilyS403 ABCC subfamilyS404 ABCD subfamily of peroxisomal ABC transportersS405 ABCG subfamilyS406 F\u2010type and V\u2010type ATPasesS406 F\u2010type ATPaseS407 V\u2010type ATPaseS407 P\u2010type ATPases+/K+\u2010ATPasesS407 Na2+\u2010ATPasesS408 Ca+/K+\u2010ATPasesS408 H+\u2010ATPasesS408 CuS409 Phospholipid\u2010transporting ATPasesS409 SLC superfamily of solute carriersS410 SLC1 family of amino acid transportersS410 Glutamate transporter subfamilyS412 Alanine/serine/cysteine transporter subfamilyS413 SLC2 family of hexose and sugar alcohol transportersS413 Class I transportersS414 Class II transportersS415 Proton\u2010coupled inositol transporterS415 SLC3 and SLC7 families of heteromeric amino acid transporters (HATs)S415 SLC3 familyS416 SLC7 familyS417 SLC4 family of bicarbonate transportersS417 Anion exchangers3\u2212 transportersS418 Sodium\u2010dependent HCOS418 SLC5 family of sodium\u2010dependent glucose transportersS419 Hexose transporter familyS420 Choline transporterS421 Sodium iodide symporter, sodium\u2010dependent multivitamin transporter and sodium\u2010coupled monocarboxylate transportersmyo\u2010inositol cotransporter transportersS422 Sodium S423 SLC6 neurotransmitter transporter familyS423 Monoamine transporter subfamilyS424 GABA transporter subfamilyS425 Glycine transporter subfamilyS427 Neutral amino acid transporter subfamilyS428 SLC8 family of sodium/calcium exchangersS429 SLC9 family of sodium/hydrogen exchangersS429 SLC10 family of sodium\u2010bile acid co\u2010transportersS431 SLC11 family of proton\u2010coupled metal ion transportersS431 SLC12 family of cation\u2010coupled chloride transportersS433 SLC13 family of sodium\u2010dependent sulphate/carboxylate transportersS434 SLC14 family of facilitative urea transportersS435 SLC15 family of peptide transportersS437 SLC16 family of monocarboxylate transportersS438 SLC17 phosphate and organic anion transporter familyS438 Type I sodium\u2010phosphate co\u2010transportersS439 Sialic acid transporterS439 Vesicular glutamate transporters (VGLUTs)S440 Vesicular nucleotide transporterS440 SLC18 family of vesicular amine transportersS442 SLC19 family of vitamin transportersS443 SLC20 family of sodium\u2010dependent phosphate transportersS443 SLC22 family of organic cation and anion transportersS444 Organic cation transporters (OCT)S445 Organic zwitterions/cation transporters (OCTN)S446 Organic anion transporters (OATs)S446 Urate transporterS447 Atypical SLC22B subfamilyS448 SLC23 family of ascorbic acid transportersS449 SLC24 family of sodium/potassium/calcium exchangersS450 SLC25 family of mitochondrial transportersS450 Mitochondrial di\u2010 and tri\u2010carboxylic acid transporter subfamilyS451 Mitochondrial amino acid transporter subfamilyS452 Mitochondrial phosphate transportersS452 Mitochondrial nucleotide transporter subfamilyS453 Mitochondrial uncoupling proteinsS454 Miscellaneous SLC25 mitochondrial transportersS454 SLC26 family of anion exchangersS454 Selective sulphate transportersS455 Chloride/bicarbonate exchangersS455 Anion channelsS456 Other SLC26 anion exchangersS457 SLC27 family of fatty acid transportersS458 SLC28 and SLC29 families of nucleoside transportersS458 SLC28 familyS459 SLC29 familyS461 SLC30 zinc transporter familyS461 SLC31 family of copper transportersS462 SLC32 vesicular inhibitory amino acid transporterS463 SLC33 acetylCoA transporterS464 SLC34 family of sodium phosphate co\u2010transportersS465 SLC35 family of nucleotide sugar transportersS466 SLC36 family of proton\u2010coupled amino acid transportersS468 SLC37 family of phosphosugar/phosphate exchangersS468 SLC38 family of sodium\u2010dependent neutral amino acid transportersS469 System A\u2010like transportersS469 System N\u2010like transportersS470 Orphan SLC38 transportersS470 SLC39 family of metal ion transportersS471 SLC40 iron transporterS472 SLC41 family of divalent cation transportersS473 SLC42 family of Rhesus glycoprotein ammoniumtransportersS473 SLC43 family of large neutral amino acid transportersS474 SLC44 choline transporter\u2010like familyS475 SLC45 family of putative sugar transportersS475 SLC46 family of folate transportersS477 SLC47 family of multidrug and toxin extrusion transportersS477 SLC48 heme transporterS478 SLC49 family of FLVCR\u2010related heme transportersS479 SLC50 sugar transporterS479 SLC51 family of steroid\u2010derived molecule transportersS480 SLC52 family of riboflavin transportersS481 SLC53 Phosphate carriersS481 SLC54 Mitochondrial pyruvate carriersS482 SLC55 Mitochondrial cation/proton exchangersS482 SLC56 SideroflexinsS483 SLC57 NiPA\u2010like magnesium transporter familyS483 SLC58 MagT\u2010like magnesium transporter familyS484 SLC59 Sodium\u2010dependent lysophosphatidylcholine symporter familyS484 SLC60 Glucose transportersS485 SLC61 Molybdate transporter familyS485 SLC62 Pyrophosphate transportersS486 SLC63 Sphingosine phosphate transportersS486 SLC64 Golgi Ca2+/H+ exchangersS487 SLC65 NPC\u2010type cholesterol transportersS488 SLCO family of organic anion transporting polypeptideshttps://www.guidetopharmacology.org/). This database is supported by the British Pharmacological Society (BPS), the International Union of Basic and Clinical Pharmacology (IUPHAR), the University of Edinburgh and previously the Wellcome Trust. Data included in the Guide to PHARMACOLOGY are derived in large part from interactions with the subcommittees of the Nomenclature Committee of the International Union of Basic and Clinical Pharmacology (NC\u2010IUPHAR). A major influence on the development of the database was Tony Harmar (1951\u20102014), who worked with a passion to establish the curators as a team of highly informed and informative individuals, with a focus on high\u2010quality data input, ensuring a suitably validated dataset. The Editors of the Concise Guide have compiled the individual records, in concert with the team of Curators, drawing on the expert knowledge of these latter subcommittees. The tables allow an indication of the status of the nomenclature for the group of targets listed, usually previously published in Pharmacological Reviews. In the absence of an established subcommittee, advice from several prominent, independent experts has generally been obtained to produce an authoritative consensus on nomenclature, which attempts to fit in within the general guidelines from NC\u2010IUPHAR. This current edition, the Concise Guide to PHARMACOLOGY 2019/20, is the latest snapshot of the database in print form, following on from the Concise Guide to PHARMACOLOGY 2017/18. It contains data drawn from the online database as a rapid overview of the major pharmacological targets. Thus, there are many fewer targets presented in the Concise Guide compared to the online database. The priority for inclusion in the Concise Guide is the presence of quantitative pharmacological data for human proteins. This means that often orphan family members are not presented in the Concise Guide, although structural information is available on the online database. The organisation of the data is tabular (where appropriate) with a standardised format, where possible on a single page, intended to aid understanding of, and comparison within, a particular target group. The Concise Guide is intended as an initial resource, with links to additional reviews and resources for greater depth and information. Pharmacological and structural data focus primarily on human gene products, wherever possible, with links to HGNC gene nomenclature and UniProt IDs. In a few cases, where data from human proteins are limited, data from other species are indicated. Pharmacological tools listed are prioritised on the basis of selectivity and availability. That is, agents are included where they are both available AND the most selective. The Concise Guide is divided into seven sections, which comprise pharmacological targets of similar structure/function. These are G protein\u2010coupled receptors, ion channels , catalytic receptors, nuclear hormone receptors, enzymes, transporters and other protein targets. We hope that the Concise Guide will provide for researchers, teachers and students a state\u2010of\u2010the art source of accurate, curated information on the background to their work that they will use in the Introductions to their Research Papers or Reviews, or in supporting their teaching and studies. We recommend that any citations to information in the Concise Guide are presented in the following format: Alexander SPH et al. (2019). The Concise Guide to PHARMACOLOGY 2019/20: Introduction and Other Protein Targets. Br J Pharmacol 176: S1\u2013S20. In this overview are listed protein targets of pharmacological interest, which are not G protein\u2010coupled receptors, ion channels, nuclear hormone receptors, catalytic receptors, transporters or enzymes.In order to allow clarity and consistency in pharmacology, there is a need for a comprehensive organisation and presentation of the targets of drugs. This is the philosophy of the IUPHAR/BPS Guide to PHARMACOLOGY presented on the online free access database also supported the initiation and expansion of the database. We are also tremendously grateful to the long list of collaborators from NC\u2010IUPHAR subcommittees and beyond, who have assisted in the construction of the Concise Guide to PHARMACOLOGY 2019/20 and the online database http://www.guidetopharmacology.org.We are extremely grateful to the British Pharmacological Society and the International Union of Basic and Clinical Pharmacology, for financial support of the website and for advice from the NC\u2010IUPHAR subcommittees. We thank the University of Edinburgh, who host the The authors state that there are no conflicts of interest to disclose.http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=1021\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=982\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=970\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=983\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=971\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=910\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=866\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=966\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=997\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=998\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=986\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=901\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=916\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=930\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=915\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=946\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=935\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=784\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=954\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=949\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=985\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=987\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=984\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=868\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=889\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=876\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=888\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=934\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=924\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=919\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=921\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=991\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=941\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=942\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=945\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=929\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=1001\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=906\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=907\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=932\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=905\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=875\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=1000\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=989\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=972\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=1019\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=973\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=974\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=990\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=995\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=996\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=904\u2013 http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=903\u2013 provisional nomenclature, http://www.ensembl.org/Homo_sapiens/Gene/Family/Genes?family=ENSFM00500000270960) respond to the 30 kDa complement\u2010related protein hormone adiponectin originally cloned from adipocytes [http://www.ncbi.nlm.nih.gov/pubmed/8619847?dopt=AbstractPlus]. Although sequence data suggest 7TM domains, immunological evidence indicates that, contrary to typical 7TM topology, the carboxyl terminus is extracellular, while the amino terminus is intracellular [http://www.ncbi.nlm.nih.gov/pubmed/12802337?dopt=AbstractPlus]. Signalling through these receptors appears to avoid G proteins; modelling based on the crystal structures of the adiponectin receptors suggested ceramidase acivity, which would make these the first in a new family of catalytic receptors [http://www.ncbi.nlm.nih.gov/pubmed/25855295?dopt=AbstractPlus].Adiponectin receptors has also been suggested to be a receptor for (hexameric) adiponectin [http://www.ncbi.nlm.nih.gov/pubmed/15210937?dopt=AbstractPlus].T\u2010Cadherin Adiponectin: a manifold therapeutic target for metabolic syndrome, diabetes, and coronary disease? Cardiovasc Diabetol13: 103 [https://www.ncbi.nlm.nih.gov/pubmed/24957699?dopt=AbstractPlus]Fisman EZ et al. (2018) Structure and function analysis of adiponectin receptors toward development of novel antidiabetic agents promoting healthy longevity. Endocr J65: 971\u2010977 [https://www.ncbi.nlm.nih.gov/pubmed/30282888]Okada\u2010Iwabu M et al. (2016) Adiponectin signaling and function in insulin target tissues. J Mol Cell Biol8: 101\u20109 [https://www.ncbi.nlm.nih.gov/pubmed/26993044?dopt=AbstractPlus]Ruan H et al. (2017) Cardiovascular Adiponectin Resistance: The Critical Role of Adiponectin Receptor Modification. Trends Endocrinol. Metab.28: 519\u2010530 [https://www.ncbi.nlm.nih.gov/pubmed/28473178?dopt=AbstractPlus]Wang Y et al. (2014) Adiponectin and insulin cross talk: the microvascular connection. Trends Cardiovasc. Med.24: 319\u201024 [https://www.ncbi.nlm.nih.gov/pubmed/25220977?dopt=AbstractPlus]Zhao L http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=760), degranulation and aggregation of platelets, as well as proteins circulating in the plasma. The coagulation cascade involves multiple proteins being converted to more active forms from less active precursors, typically through proteolysis (see http://www.guidetopharmacology.org/GRAC/FamilyDisplayForward?familyId=759&familyType=ENZYME). Listed here are the components of the coagulation cascade targetted by agents in current clinical usage.Coagulation as a process is interpreted as a mechanism for reducing excessive blood loss through the generation of a gel\u2010like clot local to the site of injury. The process involves the activation, adhesion (see Blood125: 2045\u201051 [https://www.ncbi.nlm.nih.gov/pubmed/25712994?dopt=AbstractPlus]Astermark J. (2015) FVIII inhibitors: pathogenesis and avoidance. et al. (2017) New clotting disorders that cast new light on blood coagulation and may play a role in clinical practice. J. Thromb. Thrombolysis44: 71\u201075 [https://www.ncbi.nlm.nih.gov/pubmed/28251495?dopt=AbstractPlus]Girolami A et al. (2016) Blood flow and mass transfer regulation of coagulation. Blood Rev.30: 357\u201068 [https://www.ncbi.nlm.nih.gov/pubmed/27133256?dopt=AbstractPlus]Rana K Bromodomains bind proteins with acetylated lysine residues, such as histones, to regulate gene transcription. Listed herein are examples of bromodomain\u2010containing proteins for which sufficient pharmacology exists.et al. (2017) Functions of bromodomain\u2010containing proteins and their roles in homeostasis and cancer. Nat. Rev. Mol. Cell Biol.18: 246\u2010262 [https://www.ncbi.nlm.nih.gov/pubmed/28053347?dopt=AbstractPlus]Fujisawa T Biochem Pharmacol159: 40\u201051 [https://www.ncbi.nlm.nih.gov/pubmed/30414936]Myrianthopoulos V & Mikros E. (2019) From bench to bedside, via desktop. Recent advances in the application of cutting\u2010edge in silico tools in the research of drugs targeting bromodomain modules. et al. (2017) BET bromodomain proteins and epigenetic regulation of inflammation: implications for type 2 diabetes and breast cancer. Cell. Mol. Life Sci.74: 231\u2010243 [https://www.ncbi.nlm.nih.gov/pubmed/27491296?dopt=AbstractPlus]Nicholas DA Drug Discov Today23: 76\u201089 [https://www.ncbi.nlm.nih.gov/pubmed/28943305]Ramadoss M & Mahadevan V. (2018) Targeting the cancer epigenome: synergistic therapy with bromodomain inhibitors. et al. (2019) Small\u2010molecule PROTAC degraders of the Bromodomain and Extra Terminal (BET) proteins \u2010 A review. Drug Discov Today Technol31: 43\u201051 [https://www.ncbi.nlm.nih.gov/pubmed/31200858]Yang CY http://www.ncbi.nlm.nih.gov/pubmed/23716704?dopt=AbstractPlus]. These amyloidogenic mutants are linked to the development of pathological amyloidoses, including familial amyloid polyneuropathy (FAP) , familial amyloid cardiomyopathy (FAC) [http://www.ncbi.nlm.nih.gov/pubmed/9017939?dopt=AbstractPlus], amyloidotic vitreous opacities, carpal tunnel syndrome [http://www.ncbi.nlm.nih.gov/pubmed/10403814?dopt=AbstractPlus] and others. In old age, non\u2010mutated TTR can also form pathological amyloid fibrils [http://www.ncbi.nlm.nih.gov/pubmed/7016817?dopt=AbstractPlus]. Pharmacological intervention to reduce or prevent TTR dissociation is being pursued as a theapeutic strategy. To date one small molecule kinetic stabilising molecule (http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=8378) has been approved for FAP, and is being evaluated in clinical trials for other TTR amyloidoses.Transthyretin (TTR) is a homo\u2010tetrameric protein which transports thyroxine in the plasma and cerebrospinal fluid and retinol (vitamin A) in the plasma. Many disease causing mutations in the protein have been reported, many of which cause complex dissociation and protein mis\u2010assembly and deposition of toxic aggregates amyloid fibril formation [et al. (2019) Hereditary transthyretin amyloidosis: a model of medical progress for a fatal disease. Nat Rev Neurol15: 387\u2010404 [https://www.ncbi.nlm.nih.gov/pubmed/31209302]Adams D et al. (2017) Is transthyretin a good marker of nutritional status? Clin Nutr36: 364\u2010370 [https://www.ncbi.nlm.nih.gov/pubmed/27381508?dopt=AbstractPlus]Delli\u00e8re S et al. (2017) Transthyretin amyloidosis: an under\u2010recognized neuropathy and cardiomyopathy. Clin. Sci.131: 395\u2010409 [https://www.ncbi.nlm.nih.gov/pubmed/28213611?dopt=AbstractPlus]Galant NJ Biol Pharm Bull41: 979\u2010984 [https://www.ncbi.nlm.nih.gov/pubmed/29962408]Yokoyama T & Mizuguchi M. (2018) Inhibition of the Amyloidogenesis of Transthyretin by Natural Products and Synthetic Compounds. et al. (2019) Transthyretin Amyloid Cardiomyopathy: JACC State\u2010of\u2010the\u2010Art Review. J Am Coll Cardiol73: 2872\u20102891 [https://www.ncbi.nlm.nih.gov/pubmed/31171094]Ruberg FL http://www.guidetopharmacology.org/GRAC/ObjectDisplayForward?objectId=1232) or receptors . Many CDs are targeted for therapeutic gain using antibodies for the treatment of proliferative disorders. A full listing of all the Clusters of Differentiation proteins is not possible in the Guide to PHARMACOLOGY; listed herein are selected members of the family targeted for therapeutic gain.Cluster of differentiation refers to an attempt to catalogue systematically a series of over 300 cell\u2010surface proteins associated with immunotyping. Many members of the group have identified functions as enzymes ) and programmed cell death 1 ligand 2 . These ligands are cell surface peptides, normally involved in immune system regulation. Expression of PD\u20101 by cancer cells induces immune tolerance and evasion of immune system attack. Anti\u2010PD\u20101 monoclonal antibodies are used to induce immune checkpoint blockade as a therapeutic intervention in cancer, effectively re\u2010establishing immune vigilance. http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=7499 was the first anti\u2010PD\u20101 antibody to be approved by the US FDA.The endogenous ligands for human PD\u20101 are programmed cell death 1 ligand 1 The glycobiology of the CD system: a dictionary for translating marker designations into glycan/lectin structure and function. Trends Biochem. Sci.40: 360\u201076 [https://www.ncbi.nlm.nih.gov/pubmed/25981696?dopt=AbstractPlus]Gabius HJ et al. (2019) CD markers variations in chronic lymphocytic leukemia: New insights into prognosis. J Cell Physiol. 234: 19420\u201039 [https://www.ncbi.nlm.nih.gov/pubmed/31049958]Vosoughi T Methyllysine reader proteins bind to methylated proteins, such as histones, allowing regulation of gene expression.et al. (2018) Histone methylation and acetylation in macrophages as a mechanism for regulation of inflammatory responses. J Cell Physiol. 233: 6495\u20109507 [https://www.ncbi.nlm.nih.gov/pubmed/29574768]Daskalaki MG et al. (2019) Epigenetic interplays between DNA demethylation and histone methylation for protecting oncogenesis. J Biochem. 165: 297\u2010299 [https://www.ncbi.nlm.nih.gov/pubmed/30605533]Furuya K Cell Mol Life Sci76: 2873\u201083 [https://www.ncbi.nlm.nih.gov/pubmed/31123776]Levy D. (2019) Lysine methylation signaling of non\u2010histone proteins in the nucleus. et al. (2019) Understanding histone H3 lysine 36 methylation and its deregulation in disease. Cell Mol Life Sci in press [https://www.ncbi.nlm.nih.gov/pubmed/31147750]Li J et al. (2019) Role of histone modification and DNA methylation in signaling pathways involved in diabetic retinopathy. J Cell Physiol.234: 7839\u20107846 [https://www.ncbi.nlm.nih.gov/pubmed/30515789]Shafabakhsh R e.g. in plasma) or transport these agents; to the nucleus to interact with nuclear receptors or for interaction with metabolic enzymes. Although sequence homology is limited, crystallographic studies suggest conserved 3D structures across the group of binding proteins.Fatty acid\u2010binding proteins are low molecular weight (100\u2010130 aa) chaperones for long chain fatty acids, fatty acyl CoA esters, eicosanoids, retinols, retinoic acids and related metabolites and are usually regarded as being responsible for allowing the otherwise hydrophobic ligands to be mobile in aqueous media. These binding proteins may perform functions extracellularly (http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=6735 exhibits high affinity for FABP4 (pIC50 8.8) compared to FABP3 or FABP5 (pIC50 <6.6) . http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=6736 is reported to interfere with FABP4 action [http://www.ncbi.nlm.nih.gov/pubmed/19754198?dopt=AbstractPlus]. Ibuprofen displays some selectivity for FABP4 (pIC50 5.5) relative to FABP3 (pIC50 3.5) and FABP5 (pIC50 3.8) [http://www.ncbi.nlm.nih.gov/pubmed/24248795?dopt=AbstractPlus]. Fenofibric acid displays some selectivity for FABP5 (pIC50 5.5) relative to FABP3 (pIC50 4.5) and FABP4 (pIC50 4.6) [http://www.ncbi.nlm.nih.gov/pubmed/24248795?dopt=AbstractPlus]. Multiple pseudogenes for the FABPs have been identified in the human genome.Although not tested at all FABPs, et al. (2015) Enterocyte fatty acid\u2010binding proteins (FABPs): different functions of liver and intestinal FABPs in the intestine. Prostaglandins Leukot. Essent. Fatty Acids93: 9\u201016 [https://www.ncbi.nlm.nih.gov/pubmed/25458898?dopt=AbstractPlus]Gajda AM Prostaglandins Leukot Essent Fatty Acids93: 45\u20109 [https://www.ncbi.nlm.nih.gov/pubmed/25154384?dopt=AbstractPlus]Glatz JF. (2015) Lipids and lipid binding proteins: a perfect match. et al. (2015) Metabolic functions of FABPs\u2013mechanisms and therapeutic implications. Nat Rev Endocrinol11: 592\u2010605 [https://www.ncbi.nlm.nih.gov/pubmed/26260145?dopt=AbstractPlus]Hotamisligil GS et al. (2016) Fatty acid binding proteins and the nervous system: Their impact on mental conditions. Neurosci. Res.102: 47\u201055 [https://www.ncbi.nlm.nih.gov/pubmed/25205626?dopt=AbstractPlus]Matsumata M et al. (2016) Heart lipid droplets and lipid droplet\u2010binding proteins: Biochemistry, physiology, and pathology. Exp. Cell Res.340: 198\u2010204 [https://www.ncbi.nlm.nih.gov/pubmed/26524506?dopt=AbstractPlus]Osumi T http://www.ncbi.nlm.nih.gov/pubmed/20971825?dopt=AbstractPlus]. As the Notch ligands are also membrane bound, cells have to be in close proximity for receptorligand interactions to occur. Cleavage of the intracellular domain (ICD) of activated Notch receptors by \u03b3\u2010secretase is required for downstream signalling and Notch\u2010induced transcriptional modulation . This is why \u03b3\u2010secretase inhibitors can be used to downregulate Notch signalling and explains their anticancer action. One such small molecule is http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=7338 [http://www.ncbi.nlm.nih.gov/pubmed/19773430?dopt=AbstractPlus], although development of this compound has been terminated following an unsuccessful Phase II single agent clinical trial in metastatic colorectal cancer [http://www.ncbi.nlm.nih.gov/pubmed/22445247?dopt=AbstractPlus].The canonical Notch signalling pathway has four type I transmembrane Notch receptors (Notch1\u20104) and five ligands . Each member of this highly conserved receptor family plays a unique role in cell\u2010fate determination during embryogenesis, differentiation, tissue patterning, proliferation and cell death , with http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=8451 and http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=8453 identified as antibody inhibitors of ligand:receptor binding [http://www.ncbi.nlm.nih.gov/pubmed/25388163?dopt=AbstractPlus].Aberrant Notch signalling is implicated in a number of human cancers [et al. (2018) Notch signaling and neuronal death in stroke. Prog. Neurobiol.165\u2010167: 103\u2010116 [https://www.ncbi.nlm.nih.gov/pubmed/29574014?dopt=AbstractPlus]Arumugam TV et al. (2016) The Notch intracellular domain integrates signals from Wnt, Hedgehog, TGF\u03b2/BMP and hypoxia pathways. Biochim. Biophys. Acta1863: 303\u201013 [https://www.ncbi.nlm.nih.gov/pubmed/26592459?dopt=AbstractPlus]Borggrefe T et al. (2015) Ligand\u2010Independent Mechanisms of Notch Activity. Trends Cell Biol.25: 697\u2010707 [https://www.ncbi.nlm.nih.gov/pubmed/26437585?dopt=AbstractPlus]Palmer WH et al. (2015) Molecular pathways: translational and therapeutic implications of the Notch signaling pathway in cancer. Clin. Cancer Res.21: 955\u201061 [https://www.ncbi.nlm.nih.gov/pubmed/25388163?dopt=AbstractPlus]Previs RA et al. (2015) Targeting Notch, Hedgehog, and Wnt pathways in cancer stem cells: clinical update. Nat Rev Clin Oncol12: 445\u201064 [https://www.ncbi.nlm.nih.gov/pubmed/25850553?dopt=AbstractPlus]Takebe N http://www.ncbi.nlm.nih.gov/pubmed/8756726?dopt=AbstractPlus, http://www.ncbi.nlm.nih.gov/pubmed/9108480?dopt=AbstractPlus, http://www.ncbi.nlm.nih.gov/pubmed/9417641?dopt=AbstractPlus], leading to a termination of GPCR signalling. Interactions through protein: protein interactions of many RGS proteins have been identified for targets other than heteromeric G proteins. Sequence analysis of the 20 RGS proteins suggests four families of RGS: RZ, R4, R7 and R12 families. Many of these proteins have been identified to have effects other than through targetting G proteins. Included here is RGS4 for which a number of pharmacological inhibitors have been described.Regulators of G protein signalling (RGS) proteins display a common RGS domain that interacts with the GTP\u2010bound G\u03b1 subunits of heterotrimeric G proteins, enhancing GTP hydrolysis by stabilising the transition state [http://www.ncbi.nlm.nih.gov/pubmed/16765607?dopt=AbstractPlus]. It consists of RGS17 , RGS19 and RGS20 . All members contain an N\u2010terminal cysteine string motif [http://www.ncbi.nlm.nih.gov/pubmed/17183362?dopt=AbstractPlus] which is a site of palmitoylation and could serve functions in membrane targeting, protein stability or aid protein\u2010protein interactions [http://www.ncbi.nlm.nih.gov/pubmed/17126529?dopt=AbstractPlus]. However, the function in the case of RZ family RGS proteins is not yet fully understood. Members of the RZ family of RGS proteins are the only RGS proteins that have selective GTPase activating\u2010protein (GAP) activity for G\u03b1z, a function that resulted in the name of the family . However, the members of the RZ family are able to also GAP G\u03b1i/o members with varying selectivity.The RZ family of RGS proteins is less well characterized than the other families [This is the largest family of RGS proteins.This family of RGS proteins shows some selectivity for Gai/o proteins.http://www.ncbi.nlm.nih.gov/pubmed/26123306?dopt=AbstractPlus]. The G\u03b1i/o\u2010Loco (GoLoco) motif in RGS12 and 14 has GDI activity (for Guanine nucleotide Dissociation Inhibitor) towards G\u03b1i1, G\u03b1i2 and G\u03b1i3 . Through this activity RGS12 and RGS14 can inhibit G protein signaling both by accelerating GTP hydrolysis and by preventing G protein activation. Splice variants of RGS12 and RGS14 also contain membrane targeting and protein\u2010protein interaction domains .The R12 family consists of RGS10, 12 and 14. RGS12 and 14 are large proteins with additional domains that can participate in protein\u2010protein interactions and other functions. In contrast, RGS10 is a small protein consisting of the RGS domain and small N\u2010 and C\u2010termini, similar to members of the R4 family. However, sequence homology of the RGS10 RGS domain clearly places it in the R12 family Alqinyah M et al. (2002) Regulators of G\u2010protein signalling as new central nervous system drug targets. Nat Rev Drug Discov1: 187\u201097 [https://www.ncbi.nlm.nih.gov/pubmed/12120503?dopt=AbstractPlus]Neubig RR et al. (2010) Non\u2010canonical functions of RGS proteins. Cell. Signal.22: 1274\u201081 [https://www.ncbi.nlm.nih.gov/pubmed/20363320?dopt=AbstractPlus]Sethakorn N Br. J. Pharmacol.174: 427\u2010437 [https://www.ncbi.nlm.nih.gov/pubmed/28098342?dopt=AbstractPlus]Sj\u00f6gren B. (2017) The evolution of regulators of G protein signalling proteins as drug targets \u2010 20 years in the making: IUPHAR Review 21. et al. (2010) Thinking outside of the \u2018RGS box\u2019: new approaches to therapeutic targeting of regulators of G protein signaling. Mol. Pharmacol.78: 550\u20107 [https://www.ncbi.nlm.nih.gov/pubmed/20664002?dopt=AbstractPlus]Sj\u00f6gren B http://www.ncbi.nlm.nih.gov/pubmed/27042935?dopt=AbstractPlus] suggests a trimeric structure of a single short transmembrane domain traversing the endoplasmic reticulum membrane, with the bulk of the protein facing the cytosol. A wide range of compounds, ranging from psychoactive agents to antihistamines, have been observed to bind to these sites.Although termed \u2019receptors\u2019, the evidence for coupling through conventional signalling pathways is lacking. Initially described as a subtype of opioid receptors, there is only a modest pharmacological overlap and no structural convergence with the G protein\u2010coupled receptors; the crystal structure of the sigma1 receptor [http://www.guidetopharmacology.org/GRAC/LigandDisplayForward?ligandId=1606 also shows activity at opioid receptors. The sigma2 receptor has recently been reported to be http://www.guidetopharmacology.org/GRAC/ObjectDisplayForward?objectId=2553 [http://www.ncbi.nlm.nih.gov/pubmed/28559337?dopt=AbstractPlus], a 4TM protein partner of NPC1, the Niemann\u2010Pick C1 protein, a 13TM cholesterol\u2010binding protein.et al. (2016) Biochemical Pharmacology of the Sigma\u20101 Receptor. Mol. Pharmacol.89: 142\u201053 [https://www.ncbi.nlm.nih.gov/pubmed/26560551?dopt=AbstractPlus]Chu UB et al. (2015) Sigma\u20101 receptor and inflammatory pain. Inflamm. Res.64: 377\u201081 [https://www.ncbi.nlm.nih.gov/pubmed/25902777?dopt=AbstractPlus]Gris G et al. (2016) Sigma receptors [\u03c3Rs]: biology in normal and diseased states. J. Recept. Signal Transduct. Res.36: 327\u2010388 [https://www.ncbi.nlm.nih.gov/pubmed/26056947?dopt=AbstractPlus]Rousseaux CG et al. (2018) The sigma\u20101 receptor as a regulator of dopamine neurotransmission: A potential therapeutic target for methamphetamine addiction. Pharmacol Ther186: 152\u2010167 [https://www.ncbi.nlm.nih.gov/pubmed/29360540]Sambo DO et al. (2016) The Sigma\u20101 Receptor as a Pluripotent Modulator in Living Systems. Trends Pharmacol. Sci.37: 262\u2010278 [https://www.ncbi.nlm.nih.gov/pubmed/26869505?dopt=AbstractPlus]Su TP et al. (2019) Allosteric Modulators of Sigma\u20101 Receptor: A Review. Front Pharmacol10: 223 [https://www.ncbi.nlm.nih.gov/pubmed/30941035]Vavers E Tubulins are a family of intracellular proteins most commonly associated with microtubules, part of the cytoskeleton. They are exploited for therapeutic gain in cancer chemotherapy as targets for agents derived from a variety of natural products: taxanes, colchicine and vinca alkaloids. These are thought to act primarily through \u03b2\u2010tubulin, thereby interfering with the normal processes of tubulin polymer formation and disassembly.et al. (2019) Current advances of tubulin inhibitors as dual acting small molecules for cancer therapy. Med Res Rev39: 1398\u20101426 [https://www.ncbi.nlm.nih.gov/pubmed/30746734]Arnst KE Proc Natl Acad Sci U S A116: 10366\u201010371 [https://www.ncbi.nlm.nih.gov/pubmed/31072936]Eshun\u2010Wilson L. (2019) Effects of alpha\u2010tubulin acetylation on microtubule structure and stability. et al. (2017) The tubulin code at a glance. J. Cell. Sci.130: 1347\u20101353 [https://www.ncbi.nlm.nih.gov/pubmed/28325758?dopt=AbstractPlus]Gadadhar S et al. (2018) Tubulin Posttranslational Modifications and Emerging Links to Human Disease. Cell173: 1323\u20101327 [https://www.ncbi.nlm.nih.gov/pubmed/29856952]Magiera MM et al. (2017) Anti\u2010mitotic agents: Are they emerging molecules for cancer treatment? Pharmacol. Ther.173: 67\u201082 [https://www.ncbi.nlm.nih.gov/pubmed/28174095?dopt=AbstractPlus]Penna LS"} +{"text": "This article has been corrected: The correct author information is given below:Pin Li2,1,*and Xu Zhang1,2https://doi.org/10.18632/oncotarget.19934Original article: Oncotarget. 2017; 8:62489-62499."}