Multilocus sequence typing of Cronobacter sakazakii and Cronobacter malonaticus reveals stable clonal structures with clinical significance which do not correlate with biotypes
about
Genome sequence of Cronobacter sakazakii BAA-894 and comparative genomic hybridization analysis with other Cronobacter speciesThe Roles of Epidemiologists, Laboratorians, and Public Health Agencies in Preventing Invasive Cronobacter InfectionCronobacter Species Contamination of Powdered Infant Formula and the Implications for Neonatal HealthCronobacter species (formerly known as Enterobacter sakazakii) in powdered infant formula: a review of our current understanding of the biology of this bacteriumStrategies for the identification and tracking of cronobacter species: an opportunistic pathogen of concern to neonatal healthCronobacter sakazakii: stress survival and virulence potential in an opportunistic foodborne pathogenDiversity of the Cronobacter genus as revealed by multilocus sequence typingComparative study of Cronobacter identification according to phenotyping methodsThe Cronobacter genus: ubiquity and diversityInsights into the Emergent Bacterial Pathogen Cronobacter spp., Generated by Multilocus Sequence Typing and Analysis.Cronobacter, the emergent bacterial pathogen Enterobacter sakazakii comes of age; MLST and whole genome sequence analysis.BIGSdb: Scalable analysis of bacterial genome variation at the population level.Draft Genome Sequence of Cronobacter sakazakii Clonal Complex 45 Strain HPB5174, Isolated from a Powdered Infant Formula Facility in Ireland.In Silico identification of pathogenic strains of Cronobacter from Biochemical data reveals association of inositol fermentation with pathogenicityComparative analysis of genome sequences covering the seven cronobacter species.Flagella from five Cronobacter species induce pro-inflammatory cytokines in macrophage derivatives from human monocytesPlasmid-encoded MCP is involved in virulence, motility, and biofilm formation of Cronobacter sakazakii ATCC 29544.The decoupling between genetic structure and metabolic phenotypes in Escherichia coli leads to continuous phenotypic diversity.Occurrence and Characterization of Cronobacter spp. in Dehydrated Rice Powder from Chinese SupermarketGenotyping and Source Tracking of Cronobacter sakazakii and C. malonaticus Isolates from Powdered Infant Formula and an Infant Formula Production Factory in China.Genetic analysis of the Cronobacter sakazakii O4 to O7 O-antigen gene clusters and development of a PCR assay for identification of all C. sakazakii O serotypesThe speciation and genotyping of Cronobacter isolates from hospitalised patients.Novel Method for Reliable Identification of Siccibacter and Franconibacter Strains: from "Pseudo-Cronobacter" to New Enterobacteriaceae Genera.Cronobacter spp. in powdered infant formula.Insights into virulence factors determining the pathogenicity of Cronobacter sakazakiiEvaluation of Whole Genome Mapping as a Fast and Automated Molecular Epidemiological Tool for the Study of Cronobacter spp. in Powdered Infant Formula Processing Facilities.CRISPR-cas loci profiling of Cronobacter sakazakii pathovars.Fully Closed Genome Sequences of Five Type Strains of the Genus Cronobacter and One Cronobacter sakazakii Strain.Molecular Surveillance of Cronobacter spp. Isolated from a Wide Variety of Foods from 44 Different Countries by Sequence Typing of 16S rRNA, rpoB and O-Antigen Genes.Duplex Real-Time PCR Method for the Differentiation of Cronobacter sakazakii and Cronobacter malonaticus.Analysis of the role of the Cronobacter sakazakii ProP homologues in osmotolerance.Genomic dissection of the 1994 Cronobacter sakazakii outbreak in a French neonatal intensive care unit.Surveillance and molecular typing of Cronobacter spp. in commercial powdered infant formula and follow-up formula from 2011 to 2013 in Shandong Province, China.Genetic Characterization of Cronobacter sakazakii Recovered from the Environmental Surveillance Samples During a Sporadic Case Investigation of Foodborne Illness.Diversity of O Antigens within the Genus Cronobacter: from Disorder to Order.Reevaluation of a Suspected Cronobacter sakazakii Outbreak in Mexico.Comparative Genotypic and Phenotypic Analysis of Cronobacter Species Cultured from Four Powdered Infant Formula Production Facilities: Indication of Pathoadaptation along the Food Chain.Diverse profiles of N-acyl-homoserine lactones in biofilm forming strains of Cronobacter sakazakii.Predominance of Cronobacter sakazakii sequence type 4 in neonatal infections.DNA-Sequence Based Typing of the Cronobacter Genus Using MLST, CRISPR-cas Array and Capsular Profiling
P2860
Q21142635-90523022-3648-4F5F-8DCA-24D2DC0F284AQ26770549-F95C69EE-BC57-4FDA-ADE8-7BF4E1AC2350Q26801850-E54D7A15-1C52-4654-B716-D683E7C05505Q26863452-D0B8CB6C-218F-4770-BE99-365B617BDDE5Q26866015-4EDDE5DD-C279-4445-9780-80D8A9C47969Q27024821-B10AB622-10E0-4943-8FDE-44433AD936B5Q28270829-BBEBE878-E481-46A0-BE85-A972B3F1E1F4Q28830602-5C890687-08AA-4EE0-B566-C0F3431E80EBQ29394561-D035E424-8827-4F94-B7AD-0F924C6CDCF7Q30485819-D2B51E60-E30A-4254-9382-863AE5D10FD0Q30487503-15DF9120-501B-48F0-9675-D549A06D405DQ33767145-D2E94E03-14C8-40D5-941B-13DA89A43049Q34018151-1DABAE43-D37F-40CB-95DD-FA018472689CQ34024590-DA25E2BE-78B9-417D-9DCC-6BAA9A1DD676Q34482364-D6052883-5AE3-4847-8655-04E0B16E50FDQ34532966-1BC25FBD-9673-4EDD-BB13-57A3C7E8DD15Q34889716-30957007-0D98-4BAB-9656-9A0F57450A65Q35137906-43F1BCA3-42CA-4BB9-BE35-B8AEB2870808Q35680179-9560954D-242B-4D87-A86C-C69F2DE64164Q35876505-D68A73C8-162D-4242-9643-FE8D09F88651Q35940853-DF71C5E0-8832-41D9-8FC5-83B2FDF2C1D4Q36048576-8ECA83FC-33D8-48F9-AADB-81461C7F1E15Q36358678-CF89C68D-4C36-4244-B330-01B3ED794F1DQ37992768-3A9F95C8-2861-45DC-8F6B-303515B6D28FQ38464400-950B01A1-9EB0-40BA-A2A1-0AEDB40BEF7CQ38646053-E88AE1F5-7C0F-4ACD-A23F-1716E7F476C0Q38796747-47F6DBF2-B909-4C52-B1A1-886720F93411Q39481587-F0871033-2D12-4A6F-9D1E-7F1E736994D6Q40206419-4551A94F-EA49-41CD-8675-5C7B48307D5EQ40323978-85DF0FFB-E05B-4207-B48C-2D0261780420Q40366367-08472C36-E491-4AF9-9DA9-D2CFCBA00E65Q40465329-CE0B8B86-7E4F-40A5-8D84-BC211BE7CB6FQ40491484-BB3FB120-D21A-4E6A-9240-AF9099EAA4A2Q40683649-4C7B7C5C-3BA9-4675-B6A8-C2544332C91FQ40839776-4E91AFE2-0289-4FBE-9444-0FC05D0AF5C2Q41188239-94A262FA-47D1-4768-80CA-1A2B522537E5Q41287346-9444BF13-A2FB-408A-BBF7-4C94AAB61C39Q41948142-6A4C78CA-468B-43A7-B1DD-462C4A3D0F90Q41968979-E1EECF3C-E64F-4E67-A057-D3CFC6B10B35Q42369782-A825AF61-5B6C-4B6A-B11B-3B1357DDDA22
P2860
Multilocus sequence typing of Cronobacter sakazakii and Cronobacter malonaticus reveals stable clonal structures with clinical significance which do not correlate with biotypes
description
2009 nî lūn-bûn
@nan
2009 թուականին հրատարակուած գիտական յօդուած
@hyw
2009 թվականին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Multilocus sequence typing of ...... do not correlate with biotypes
@ast
Multilocus sequence typing of ...... do not correlate with biotypes
@en
Multilocus sequence typing of ...... do not correlate with biotypes
@en-gb
Multilocus sequence typing of ...... do not correlate with biotypes
@nl
type
label
Multilocus sequence typing of ...... do not correlate with biotypes
@ast
Multilocus sequence typing of ...... do not correlate with biotypes
@en
Multilocus sequence typing of ...... do not correlate with biotypes
@en-gb
Multilocus sequence typing of ...... do not correlate with biotypes
@nl
prefLabel
Multilocus sequence typing of ...... do not correlate with biotypes
@ast
Multilocus sequence typing of ...... do not correlate with biotypes
@en
Multilocus sequence typing of ...... do not correlate with biotypes
@en-gb
Multilocus sequence typing of ...... do not correlate with biotypes
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
Multilocus sequence typing of ...... do not correlate with biotypes
@en
P2093
Adam Baldwin
Eva Kucerova
Juncal Caubilla-Barron
Michael Loughlin
P2860
P2888
P3181
P356
10.1186/1471-2180-9-223
P407
P577
2009-01-01T00:00:00Z
P5875
P6179
1040560468