Whole genome sequencing reveals potential spread of Clostridium difficile between humans and farm animals in the Netherlands, 2002 to 2011. - Wikidata - awgldk - TriplyDB

Whole genome sequencing reveals potential spread of Clostridium difficile between humans and farm animals in the Netherlands, 2002 to 2011.

Whole genome sequencing reveals potential spread of Clostridium difficile between humans and farm animals in the Netherlands, 2002 to 2011.

http://www.wikidata.org/entity/Q35898112

about

Interpreting whole genome sequencing for investigating tuberculosis transmission: a systematic review.Microreact: visualizing and sharing data for genomic epidemiology and phylogeography Advances in the Microbiome: Applications to Clostridium difficile Infection Antimicrobial Resistance and Reduced Susceptibility in Clostridium difficile: Potential Consequences for Induction, Treatment, and Recurrence of C. difficile Infection Diversity and Evolution in the Genome of Clostridium difficile An Outbreak of Clostridium difficile Ribotype 027 Associated with Length of Stay in the Intensive Care Unit and Use of Selective Decontamination of the Digestive Tract: A Case Control Study.More than 50% of Clostridium difficile Isolates from Pet Dogs in Flagstaff, USA, Carry Toxigenic Genotypes.Use of single molecule sequencing for comparative genomics of an environmental and a clinical isolate of Clostridium difficile ribotype 078.Genome Analysis of Clostridium difficile PCR Ribotype 014 Lineage in Australian Pigs and Humans Reveals a Diverse Genetic Repertoire and Signatures of Long-Range Interspecies Transmission.Human Clostridium difficile infection caused by a livestock-associated PCR ribotype 237 strain in Western Australia.Transmission of the gut microbiota: spreading of health.Prevalence and molecular epidemiology of Clostridium difficile infection in Thailand.CRISPR Diversity and Microevolution in Clostridium difficile.Typhlocolitis associated with Clostridium difficile ribotypes 078 and 110 in neonatal piglets from a commercial Irish pig herd.SNP-ing out the differences: Investigating differences between Clostridium difficile lab strains.Ribotype 078 Clostridium difficile infection incidence in Dutch hospitals is not associated with provincial pig farming: Results from a national sentinel surveillance, 2009-2015.Advances in the diagnosis and treatment of Clostridium difficile infections.Incidence and Outbreak of Healthcare-Onset Healthcare-Associated Clostridioides difficile Infections Among Intensive Care Patients in a Large Teaching Hospital in China.Two Distinct Patterns of Clostridium Difficile Diversity Across Europe Indicates Contrasting Routes of Spread.Understanding Clostridium difficile Colonization.The zoonotic potential of Clostridium difficile from small companion animals and their owners.Zoonotic Transfer of Clostridium difficile Harboring Antimicrobial Resistance between Farm Animals and Humans.Genomic survey of Clostridium difficile reservoirs in the East of England implicates environmental contamination of wastewater treatment plants by clinical lineages.Convergent Loss of ABC Transporter Genes From Clostridioides difficile Genomes Is Associated With Impaired Tyrosine Uptake and p-Cresol Production.Proteomic identification of Axc, a novel beta-lactamase with carbapenemase activity in a meropenem-resistant clinical isolate of Achromobacter xylosoxidans.colitis and zoonotic origins-a narrative review

P2860

Q26752616-FD607AEC-F3FF-41DE-AA61-1BE90D002513 Q27966946-B7A6FAC4-1425-416A-8F50-05EC7110C36C Q28066362-10D47965-6E14-450C-A7C6-B57BC8C3BF9B Q28084026-AF687482-F923-455F-B619-10C7FCA41636 Q28084700-C682C476-B3E5-4691-B1A4-FC8213DBCF25 Q36105911-23B3B6CD-AB8B-4FED-B195-5ABAE7F69E4E Q36159357-E10A230C-7F42-4AD8-B2C8-65DB2067761F Q36222658-C18ECADE-7304-46AB-A66D-0D3AB5124441 Q37578190-D1A6CC4B-A250-4A8E-9D0B-078FA2438D8B Q37671582-636487B5-6E71-49A3-8046-65030B87167A Q39365653-B37A8371-4728-4401-8291-50A2B95E8E99 Q40359443-CC755FE7-5D7A-408E-B8DC-162A2BC1328E Q40557862-4D1C225E-D519-4F9C-B959-DFDC8CD23ABD Q41503477-39E6D0C4-FF27-479E-8ECE-75BC2CD5B5F7 Q42072636-0B329C8A-62D0-456A-A935-E01680D6D8FB Q47234100-8770C773-41D5-4B4E-9E43-53C8355938C7 Q50055623-C4CD0307-060A-4BF3-AA9D-DE54CE4B17D4 Q52595192-713F01FC-A28C-42DB-BF89-E41F9DDAE9D4 Q52801942-F0EDD9F8-E0AD-4E21-91B5-8D7BA8E4F3C3 Q52802841-A653E00E-3E9F-4254-BB47-28CFC7BC561E Q52809285-49B43833-D6F3-4CBF-9F75-BAACCD038B38 Q53715705-CCC74469-4585-4CE6-98EA-9F549016AE76 Q54947135-FBF00756-79A5-4A32-9D92-38F040BE3FA9 Q54975909-3F455392-77E4-4CEF-8F55-8D607D36F457 Q55387697-D215B9C0-3B39-463E-967A-142C5F9F0A13 Q56559610-BBF45BA2-429E-4DAF-90A3-04652F84D6A2

P2860

Whole genome sequencing reveals potential spread of Clostridium difficile between humans and farm animals in the Netherlands, 2002 to 2011.

http://www.wikidata.org/entity/Q35898112

description

2014 nî lūn-bûn

@nan

2014年の論文

@ja

2014年論文

@yue

2014年論文

@zh-hant

2014年論文

@zh-hk

2014年論文

@zh-mo

2014年論文

@zh-tw

2014年论文

@wuu

2014年论文

@zh

2014年论文

@zh-cn

name

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@ast

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@en

type

label

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@ast

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@en

prefLabel

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@ast

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@en

P1433

Q35898112-E7EEC12A-AFAE-4560-96C0-FB531FDC83FD

P1476

Q35898112-B6C5C729-397A-47C7-972F-6444C61F70D8

P2093

Q35898112-11F873A5-228F-4495-801C-9DE653CC99B6

Q35898112-4B748E8E-3FF2-44AE-AC38-B4A816546675

Q35898112-55C14741-E706-470B-B987-897C8DAB9FF9

Q35898112-9564F25A-B2E0-435E-81A1-8FB124923D82

Q35898112-A6B10023-E478-48C9-8510-F96F9AE4B3C7

Q35898112-BF39F47E-0FBC-43C8-A99E-35F370895A90

Q35898112-D4572AAF-394F-4E4A-B436-CA039CB9542D

Q35898112-E268CE72-0CE6-4A20-899E-076989568FF2

P2860

Q35898112-059D9062-A20F-4ED6-AB9D-EC8FAB67ECA2

Q35898112-09C70A7D-DCDF-487D-B13F-D6F0DB41B541

Q35898112-0E9BF806-1660-4822-BCDD-059FDF39E4F4

Q35898112-174E0DD2-D15C-4873-B2DB-AC956F3C3042

Q35898112-191E9504-9996-4EB3-9EC8-EC52A2D94325

Q35898112-1C714ACC-82A2-46C3-9CE2-E5B23BE53E05

Q35898112-1DBDA61E-B0F5-42D7-A497-1B2124373925

Q35898112-25B72BB3-82FF-4EEA-A49F-A6ABCF2F6C51

Q35898112-2698BB5A-1BCE-49CA-848E-BA1C558BBF1F

Q35898112-2D78DD1C-F841-4789-AE46-97BAA2138DE3

P304

Q35898112-950A2B1B-AB69-4F64-A1AB-64256BC5491F

P31

Q35898112-266F4CE6-3AAB-4998-B24A-09781CB7C164

P356

Q35898112-7E55493E-16B3-4750-9A2C-7F37D54EF959

P433

Q35898112-DCA253C4-543B-4D0D-AEAD-B9ADB218FAD9

P478

Q35898112-5426E519-A8E0-4DD9-93EE-3DECE29B0A1C

P50

Q35898112-342A1736-0FF8-47BF-A146-F8CC775848F8

Q35898112-48CE6BF3-4C1D-4DDA-A2A5-CD93B2C2C1EF

Q35898112-61A62A9A-3D61-47D2-BE05-89C3E4161B2E

Q35898112-DF37F614-512F-42CE-B21E-CA7B85FEDDA3

P577

Q35898112-75DC8CEC-9388-4887-A642-ADDA768CAE6F

P698

Q35898112-F1EA48BB-23C0-46EA-8299-E0F6897718E7

P921

Q35898112-2ED44D89-4A7C-4408-A77C-78D037DE4850

Q35898112-597E75BC-CA28-4F36-82F0-092AE3C72495

P932

Q35898112-1DCC2BAE-266F-4070-B8E4-AE0F811683BE

P356

1560-7917.ES2014.19.45.20954

P1433

Eurosurveillance

P1476

Whole genome sequencing reveal ...... the Netherlands, 2002 to 2011.

@en

P2093

A Mutreja

http://www.w3.org/2001/XMLSchema#string

D Harris

http://www.w3.org/2001/XMLSchema#string

E C Keessen

http://www.w3.org/2001/XMLSchema#string

E J Kuijper

http://www.w3.org/2001/XMLSchema#string

I M Sanders

http://www.w3.org/2001/XMLSchema#string

L Lipman

http://www.w3.org/2001/XMLSchema#string

S M van Dorp

http://www.w3.org/2001/XMLSchema#string

T D Lawley

http://www.w3.org/2001/XMLSchema#string

P2860

Microevolutionary analysis of Clostridium difficile genomes to investigate transmission

Clostridium difficile toxins: mechanism of action and role in disease.

Evolutionary dynamics of Clostridium difficile over short and long time scales

Toxin B is essential for virulence of Clostridium difficile

Velvet: algorithms for de novo short read assembly using de Bruijn graphs

Clostridium difficile infection in the community: a zoonotic disease?

Clostridium difficile toxin CDT induces formation of microtubule-based protrusions and increases adherence of bacteria

BEAST: Bayesian evolutionary analysis by sampling trees.

Asymptomatic Clostridium difficile colonisation and onward transmission

RAxML-III: a fast program for maximum likelihood-based inference of large phylogenetic trees

P304

20954

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.2807/1560-7917.ES2014.19.45.20954

http://www.w3.org/2001/XMLSchema#string

P433

45

http://www.w3.org/2001/XMLSchema#string

P478

19

http://www.w3.org/2001/XMLSchema#string

P50

Thomas R. Connor

Hilary P. Browne

Cornelis W Knetsch

P577

2014-11-13T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

25411691

http://www.w3.org/2001/XMLSchema#string

P921

Clostridium difficile

P932

4518193

http://www.w3.org/2001/XMLSchema#string