Phylogenetic discovery bias in Bacillus anthracis using single-nucleotide polymorphisms from whole-genome sequencing. - Wikidata - awgldk - TriplyDB

Phylogenetic discovery bias in Bacillus anthracis using single-nucleotide polymorphisms from whole-genome sequencing.

Phylogenetic discovery bias in Bacillus anthracis using single-nucleotide polymorphisms from whole-genome sequencing.

http://www.wikidata.org/entity/Q37533727

about

Origin, spread and demography of the Mycobacterium tuberculosis complex High functional diversity in Mycobacterium tuberculosis driven by genetic drift and human demography Identifying experimental surrogates for Bacillus anthracis spores: a review Pathogenomic Sequence Analysis of Bacillus cereus and Bacillus thuringiensis Isolates Closely Related to Bacillus anthracis Microevolution and history of the plague bacillus, Yersinia pestis Complete genome sequence of Bacillus anthracis H9401, an isolate from a Korean patient with anthrax Combined high-resolution genotyping and geospatial analysis reveals modes of endemic urban typhoid fever transmission The genome and variation of Bacillus anthracis Bacillus anthracis comparative genome analysis in support of the Amerithrax investigation Gain and loss of multiple genes during the evolution of Helicobacter pylori Biocrimes, microbial forensics, and the physician.Single nucleotide polymorphisms in Mycobacterium tuberculosis and the need for a curated database Genetic diversity in Treponema pallidum: implications for pathogenesis, evolution and molecular diagnostics of syphilis and yaws Gamma irradiation can be used to inactivate Bacillus anthracis spores without compromising the sensitivity of diagnostic assays A Bacillus anthracis Genome Sequence from the Sverdlovsk 1979 Autopsy Specimens Whole-Genome Sequencing for Routine Pathogen Surveillance in Public Health: a Population Snapshot of Invasive Staphylococcus aureus in Europe Two new rapid SNP-typing methods for classifying Mycobacterium tuberculosis complex into the main phylogenetic lineages Distribution and molecular evolution of bacillus anthracis genotypes in Namibia SNP-based typing: a useful tool to study Bordetella pertussis populations Analysis of the genome-wide variations among multiple strains of the plant pathogenic bacterium Xylella fastidiosa Optical Screening for Rapid Antimicrobial Susceptibility Testing and for Observation of Phenotypic Diversity among Strains of the Genetically Clonal Species Bacillus anthracis Evolution of seventh cholera pandemic and origin of 1991 epidemic, Latin America.A decade of plague in Mahajanga, Madagascar: insights into the global maritime spread of pandemic plague.High-throughput sequencing of Bacillus anthracis in France: investigating genome diversity and population structure using whole-genome SNP discovery Genotyping of genetically monomorphic bacteria: DNA sequencing in Mycobacterium tuberculosis highlights the limitations of current methodologies.Phylogeographic reconstruction of a bacterial species with high levels of lateral gene transfer.Two-step source tracing strategy of Yersinia pestis and its historical epidemiology in a specific region.Application of SNPs for assessing biodiversity and phylogeny among yeast strains.Genotyping of Bacillus anthracis strains based on automated capillary 25-loci multiple locus variable-number tandem repeats analysis.Genome sequence alterations detected upon passage of Burkholderia mallei ATCC 23344 in culture and in mammalian hosts.The bacterial species definition in the genomic era.Anthrax, but not Bacillus anthracis?A North American Yersinia pestis draft genome sequence: SNPs and phylogenetic analysis.Global genetic population structure of Bacillus anthracis Genetic diversity of the obligate intracellular bacterium Chlamydophila pneumoniae by genome-wide analysis of single nucleotide polymorphisms: evidence for highly clonal population structure.Variation in virulence among clades of Escherichia coli O157:H7 associated with disease outbreaks Conservation in the face of diversity: multistrain analysis of an intracellular bacterium Recombinational landscape and population genomics of Caenorhabditis elegans.Pre-Columbian origins for North American anthrax Bacillus anthracis in China and its relationship to worldwide lineages.

P2860

Q21131591-11A8EE46-7B91-42DC-9DCB-7C20622C4D98 Q21563563-8AE82762-BC1D-4ABA-967B-7C62BDB06C4B Q22001243-32ECB226-2740-4562-BD30-E7C5C5969B69 Q22065441-9B5ECA50-4E5A-42AF-B79E-51C56F174962 Q24558763-117B9E3F-B1DA-4822-ADA6-56A1D508D3E0 Q24619614-C69A66AF-4AC9-44EC-B904-C5261E73A387 Q24621347-05FE2224-6635-4CFF-A9FC-750BBBB31EE7 Q24630333-11E8CB0C-F63B-4019-8410-403526CAE0AB Q24632034-B0525FDB-8E50-4F99-88EF-C50CF714018A Q24814896-B3A254AF-D162-41E6-BF97-05CA76D6607C Q24816144-9DFDEA82-4779-4679-AEA1-610968E7E24B Q26858911-652505C9-FC53-48E1-ADB4-AE20F96C786E Q27024345-CF62E52E-D78C-4FCA-B03D-B12373E633E2 Q28385071-30D7501E-C818-4E23-9589-1FF37B02A887 Q28390855-B5C4731D-F82E-4A4A-8D16-C32CDEE8AE0D Q28595903-399A7680-FBBC-472D-9619-9F3294FE14FE Q28728992-65463638-44AB-47B3-AFE0-1CF23557201F Q28731477-094762C7-BF0B-4E50-9F59-443E509A3847 Q28744176-627EE308-490F-45DF-81AC-ACB0F8F99959 Q28767438-3EC6B316-EBD1-4BB0-8EAE-29D96F2E704B Q29248800-D2E52118-B5C4-4244-82D9-2306406C26FD Q30390859-495675BD-5359-4A37-A635-4B4BAC33BB08 Q30427150-2B8B38A6-08DF-4777-988C-13A4EBB4E0DC Q30578286-454E1CE1-3834-493B-850E-63B8213AC66D Q30885956-98BF8CE8-D8E9-4960-B7A6-A4FEF6FD2B31 Q30891438-ED379D2C-4B79-4414-9963-686E8FB1DC4B Q31148145-76457EDC-A367-4C98-947A-9FE3177FEB94 Q33223669-2B2C6648-8612-4C75-BCAA-8C8A231AF5CC Q33239138-9817E797-DF77-455F-AA35-EBE10EADA059 Q33256435-F561F95C-78FF-47A0-94BC-6667FAC7B641 Q33261434-2342DCE6-CDAF-4D9E-B623-651F637F4BAE Q33264406-39E0CEAC-B7AF-4588-A6D6-1908DA042C8F Q33274659-6AE27D0C-6169-4FC8-8859-7A903F9F54E8 Q33285475-4BCE4BA8-218F-4845-8C95-0A3FABB17992 Q33301584-766908E6-5A7D-41B1-9EC5-CEFB160CF986 Q33378926-F6452C74-D695-423A-9B9B-0BA6ACCD1FB9 Q33398844-B8527E16-303E-460F-87B2-D78D93B1A049 Q33417666-77A6A795-D1A6-4DF6-B6D6-3148EC52D9ED Q33417677-E0CE5552-C80B-4D96-A4E9-44C0E58F0133 Q33430523-5091EB5C-D6B5-45F9-B091-0E6003F7D72C

P2860

Phylogenetic discovery bias in Bacillus anthracis using single-nucleotide polymorphisms from whole-genome sequencing.

http://www.wikidata.org/entity/Q37533727

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 03 September 2004

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@en

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@nl

type

label

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@en

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@nl

prefLabel

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@en

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@nl

P1433

Q37533727-DDF0A4D9-B592-4E9B-94A9-F48F494EFDD7

P1476

Q37533727-6FE7505F-C823-4A74-80DF-7D73C39D5028

P2093

Q37533727-7CDC29F2-A413-4F03-B3F6-689F8B941CA3

Q37533727-7E2AAAE9-E2FC-4292-992B-04F51CE60B0A

Q37533727-855CF52A-4159-4F32-977B-6E41F612141D

Q37533727-8F0C766F-7E00-4E75-B0ED-B36A1A47B3C6

Q37533727-93821F37-CBA8-459C-95CE-C46028A47194

Q37533727-9D9AAF63-6D9B-4B49-ABAB-7DFFC135A85A

Q37533727-A4CCDBCD-9E22-4D68-9660-D033D624B6AB

Q37533727-B874C193-D8CF-4B69-9A44-390A33DCBF4E

Q37533727-C6442A82-1B0B-49A2-893D-F9C6B39894A5

Q37533727-D1C51A35-4A1C-4DF1-AD0F-3DD1A87FF414

P2860

Q37533727-164F4A3E-A921-4242-9789-1EC2BDEB1B2D

Q37533727-1EC31FA3-61F8-45F4-A206-F380481C84B1

Q37533727-43E57A59-9BFF-4347-A419-AF73D6BAD02E

Q37533727-68668FE0-7449-450B-90A8-49851F65B95B

Q37533727-A3DB47F3-14D6-4D03-94D8-49E0FD7D6FB5

Q37533727-AB41A033-F791-414A-8E52-1D166DF12466

Q37533727-B634441E-36D2-4DDE-BD93-15C0ED704F9D

Q37533727-DAA19F51-92F7-4E8E-8688-B950A69D8E9A

Q37533727-E2A5D87F-0D58-4250-AEC2-29F3A116637C

Q37533727-FEF978FF-4837-4157-BBF3-4E496FA73C0E

P304

Q37533727-475ACEEB-3C56-47BA-B6D9-354D01BD5048

P31

Q37533727-CB8EB46C-5034-492D-B6D4-8A1F75836402

P356

Q37533727-070BFBE9-6CD7-4E53-8D77-8BBFDDC6B777

P407

Q37533727-978DE57B-F4C4-4ECD-9095-F4137FFE1C68

P433

Q37533727-4CDE71EA-DFD7-48E8-9F4A-B8624DFE64A8

P478

Q37533727-E8EC863E-430A-463F-9039-32A3AF3060B1

P50

Q37533727-3CF9794B-50F4-4643-9315-76F450F2A5A7

Q37533727-D8F89C1E-212B-4A12-96F8-CA6459E10486

Q37533727-EF5E048B-6068-459C-80FF-660AD11BFD32

P577

Q37533727-3B3A1D69-5C9D-4BB6-AD6C-3686F92DCF7A

P5875

Q37533727-730D3002-04D2-4BAC-87E6-5357DFCEAAAC

P698

Q37533727-FE4E8C36-644C-4A11-845E-7DA20E514281

P921

Q37533727-64323751-7797-4A65-80E4-5AF8F9902778

Q37533727-A917CD7E-8B80-4FDF-B0CC-D0268A1F3DFD

Q37533727-DF436E70-E787-44FC-8BDE-BBDF59D052E4

P932

Q37533727-DA116029-7083-437C-B263-C50CBBFC7CF6

P356

PNAS.0403844101

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Phylogenetic discovery bias in ...... from whole-genome sequencing.

@en

P2093

Jana M U'Ren

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

Joseph D Busch

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

Lynn Y Huynh

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

Matthew N Van Ert

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

Michelle L Cardon

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

Paul Keim

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

Rebecca R Leadem

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

Sergey M Kachur

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

Shane D Rhoton

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

Tatum S Simonson

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

P2860

Comparative genome sequencing for discovery of novel polymorphisms in Bacillus anthracis

Multiple-locus variable-number tandem repeat analysis reveals genetic relationships within Bacillus anthracis.

Bacillus anthracis diversity in Kruger National Park.

Genome-wide analysis of synonymous single nucleotide polymorphisms in Mycobacterium tuberculosis complex organisms: resolution of genetic relationships among closely related microbial strains.

Diversity among French Bacillus anthracis isolates.

Modeling bacterial evolution with comparative-genome-based marker systems: application to Mycobacterium tuberculosis evolution and pathogenesis.

Molecular evolution and diversity in Bacillus anthracis as detected by amplified fragment length polymorphism markers

Anthrax molecular epidemiology and forensics: using the appropriate marker for different evolutionary scales.

Fluorescent amplified fragment length polymorphism analysis of Bacillus anthracis, Bacillus cereus, and Bacillus thuringiensis isolates.

Genetic variability of Bacillus anthracis and related species

P304

13536-13541

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

P31

scholarly article

P356

10.1073/PNAS.0403844101

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

P407

P433

37

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

P478

101

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

P50

Claire M. Fraser

P577

2004-09-03T00:00:00Z

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

P5875

8365179

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

P698

15347815

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

P921

single-nucleotide polymorphism

P932

518758

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