Ecological relationships between Vibrio cholerae and planktonic crustacean copepods. - Wikidata - awgldk - TriplyDB

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

http://www.wikidata.org/entity/Q36710008

about

Environmental reservoirs and mechanisms of persistence of Vibrio cholerae The complete genome sequence of Vibrio cholerae: a tale of two chromosomes and of two lifestyles Reduction of cholera in Bangladeshi villages by simple filtration The EAL domain protein VieA is a cyclic diguanylate phosphodiesterase Roles of cyclic diguanylate in the regulation of bacterial pathogenesis Vibrio cholerae infection of Drosophila melanogaster mimics the human disease cholera.Enzymatic modifications of exopolysaccharides enhance bacterial persistence The evolution of quorum sensing in bacterial biofilms Structural Basis for Biofilm Formation via the Vibrio cholerae Matrix Protein RbmA Biofilm Matrix Proteins Serogroup conversion of Vibrio cholerae in aquatic reservoirs The rise of pathogens: predation as a factor driving the evolution of human pathogens in the environment Identification and characterization of VpsR and VpsT binding sites in Vibrio cholerae.Integration of cyclic di-GMP and quorum sensing in the control of vpsT and aphA in Vibrio cholerae Simple Sari Cloth Filtration of Water Is Sustainable and Continues To Protect Villagers from Cholera in Matlab, Bangladesh Fish as Hosts of Vibrio cholerae.Evolutionary relationships of pathogenic clones of Vibrio cholerae by sequence analysis of four housekeeping genes Genomic characterization of non-O1, non-O139 Vibrio cholerae reveals genes for a type III secretion system.Effect of transport at ambient temperature on detection and isolation of Vibrio cholerae from environmental samples.Distinct sensory pathways in Vibrio cholerae El Tor and classical biotypes modulate cyclic dimeric GMP levels to control biofilm formation.Waterfowl: the missing link in epidemic and pandemic cholera dissemination?Non-toxigenic environmental Vibrio cholerae O1 strain from Haiti provides evidence of pre-pandemic cholera in Hispaniola Free-living and plankton-associated vibrios: assessment in ballast water, harbor areas, and coastal ecosystems in Brazil.Relationships between environmental factors and pathogenic Vibrios in the Northern Gulf of Mexico Effects of global climate on infectious disease: the cholera model.Predictability of Vibrio cholerae in Chesapeake Bay.Climate influence on Vibrio and associated human diseases during the past half-century in the coastal North Atlantic Seasonality of cholera from 1974 to 2005: a review of global patterns.Covariability of Vibrio cholerae microdiversity and environmental parameters Fish as reservoirs and vectors of Vibrio cholerae Comparative genomic analysis reveals evidence of two novel Vibrio species closely related to V. cholerae Mechanisms involved in governing adherence of Vibrio cholerae to granular starch.In silico analyses of primers used to detect the pathogenicity genes of Vibrio cholerae The Vibrio cholerae O139 O-antigen polysaccharide is essential for Ca2+-dependent biofilm development in sea water Predicting the distribution of Vibrio spp. in the Chesapeake Bay: a Vibrio cholerae case study.Bile acids and bicarbonate inversely regulate intracellular cyclic di-GMP in Vibrio cholerae.Critical factors influencing the occurrence of Vibrio cholerae in the environment of Bangladesh.Adhesion of Vibrio cholerae to granular starches.Vibrio cholerae utilizes direct sRNA regulation in expression of a biofilm matrix protein.Genotypes associated with virulence in environmental isolates of Vibrio cholerae

P2860

Q21131113-CAA98671-2DF8-42D8-9103-A3BC6671F320 Q21194901-88E20833-B0F8-43A8-9038-524F7D9E7BBA Q24598587-BF842FEE-0EE5-4E63-A004-25AAE08A11AF Q24656959-80A070F7-6715-4D83-A329-B9FAC9291001 Q24656979-D2EF46DD-14A3-46EF-883B-7E0771FC2E65 Q24817194-A8432805-9C81-48E2-B20D-9167E06A423D Q27009503-32DEB866-07B1-4B1D-8735-F27097845C58 Q27333799-86F288C1-FD9E-4742-B8AF-3E4C143444D0 Q27678190-35C93C3B-EC97-4374-85A4-C4E4B6E12EF2 Q28085056-322EBA20-13B1-40BC-998A-3A4862BB308F Q28469231-37104D18-4A66-4C6E-B866-50A76D71AE2E Q28707690-4D218DFB-CF04-4430-9894-E0F041EF26C9 Q29346615-82450F8A-0530-452B-A0AE-5DDBE28B9FF6 Q29346624-B97C1546-D6C4-4B88-9EEA-0978D43A6271 Q29398228-99E61E1A-C445-4786-B694-29FD32EBEC89 Q30235276-4CD2ABBD-35F8-4F4F-9F0C-F5D27185B947 Q30312630-89F44FCC-6D15-44A9-AE74-EFFEEF098E2D Q30350256-BC19FCA4-37AF-40DD-A556-B60275A42C79 Q30353238-A3F2EAAC-60E4-44B1-96A7-4D8A9182A1D6 Q30372949-464EB902-D689-4C4F-AD3A-5B4D7BC4424B Q30373076-49C6CC75-FD65-4250-9F14-0D9849BF3113 Q30394551-FFB5A87D-8941-4D27-853B-E764F9E3B035 Q30426144-D357557A-CB47-456E-9CEB-3C8F1A833FFC Q30497309-5487C5A5-32A4-4089-90E1-36A917AADD6A Q30736492-7BD6E3FD-9825-4FDB-8DA5-E2E4CEFE5F41 Q30791141-E13FDC84-7A85-4CCB-80A4-E063702EC338 Q31120466-C8332A30-676E-468A-8250-00913E2B5121 Q31160001-F5C8C765-F52E-4E1B-B3C6-C88E9796E0C4 Q33321828-0726038A-94BC-43EE-AE06-2CC2C57092C2 Q33523276-5D2073C7-2645-4478-92BE-97CA9DD712EE Q33589470-7906B0C9-1C06-48C8-A1F4-A09E164EE9BA Q33649078-60CAFDAA-2D29-410E-B24C-5258159FB897 Q33674951-89B4EEDD-C50F-4799-AA0D-D7466D2DD262 Q33717112-3AA09E86-EA05-4BD4-BC4B-311739D1CB5B Q33893671-09BACAAD-DED1-45CC-8906-7F462820FAE3 Q33899790-BA089B5A-8918-4B79-B95C-0C008398E2D5 Q33913215-E027CC70-B5AC-4EA7-97EF-78A738D78C5E Q33913414-AF22198F-1023-4E1E-81DB-780F35FA5D4A Q33939920-FB545CAC-C8F7-4FAC-A97F-7EA401D19AF3 Q33989564-B167201F-7ADC-4A16-95D9-788984499EAA

P2860

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

http://www.wikidata.org/entity/Q36710008

description

1983 nî lūn-bûn

@nan

1983年の論文

@ja

1983年論文

@yue

1983年論文

@zh-hant

1983年論文

@zh-hk

1983年論文

@zh-mo

1983年論文

@zh-tw

1983年论文

@wuu

1983年论文

@zh

1983年论文

@zh-cn

name

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

@ast

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

@en

type

label

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

@ast

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

@en

prefLabel

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

@ast

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

@en

P1433

Q36710008-1B9DA406-E538-4E0C-8FE3-828742E7B6F9

P1476

Q36710008-7CE49845-A039-4F9D-99D2-6696B9352406

P2093

Q36710008-B3043C05-4855-45A7-B3A0-D0EAB1717255

Q36710008-BD50DE6B-BA15-44C0-812F-40D3AD0FDD85

Q36710008-BE57288A-EED9-417D-AB51-291BFEBE7E2C

Q36710008-E63101A8-BA6F-4340-ADA7-E2D20230732E

Q36710008-EB74663F-F00C-47D3-AB88-04172F61754E

P2860

Q36710008-1329EBEF-D33A-43ED-846E-DCF611D95098

Q36710008-24C268B4-A0F4-4B65-A5A6-94773F310B82

Q36710008-2994C9BC-1841-4F37-B02A-A2F4C25E735B

Q36710008-2E5A7A7E-D50B-4B38-A0CE-61D2FDEF5064

Q36710008-4E163906-6BB7-4481-8D75-64439D6E754C

Q36710008-72E41CB8-0E27-4F47-90DF-CE2830E8C773

Q36710008-8CC44B06-5CB6-4B33-9B5B-4E386B7B570E

Q36710008-9572109F-F34A-4B66-9BBD-B5350AF283AE

Q36710008-9AD54F17-6A93-484C-B200-D780AA62EB42

Q36710008-BA02AA63-15EF-4674-8630-A33CA362D6AB

P304

Q36710008-EE9C0488-D7C4-4AE7-9C8A-4759BF528036

P31

Q36710008-BCA2C7AE-586F-492E-857D-A31A8A172CFA

P407

Q36710008-4B4A7AE4-DEBB-48D0-924F-1E3E2B3D7F85

P433

Q36710008-53E906F6-0FEC-41B7-92F8-9A5988616E6F

P478

Q36710008-C63B3F70-1175-4103-8CFB-FCABF600C1BB

P50

Q36710008-D504B80B-D85C-4020-816E-793893DC9D5B

P577

Q36710008-3932144B-2F42-44CE-9EB8-88A2A224BD9C

P698

Q36710008-CE3BC1D5-4F91-4F1B-B807-2667D1C8DFF5

P921

Q36710008-46EFD427-B2EF-4749-8CF4-62E2F50B8C3A

Q36710008-8F4312C0-F17A-4445-8E3F-5715FEFDB8E7

P932

Q36710008-E82A3BE3-B540-4893-964D-B8D358FE4767

P1433

Applied and Environmental Microbiology

P1476

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods

@en

P2093

A Huq

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

E B Small

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

M I Huq

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

P A West

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

R Rahman

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

P2860

Ecology, serology, and enterotoxin production of Vibrio cholerae in Chesapeake Bay

Response of man to infection with Vibrio cholerae. I. Clinical, serologic, and bacteriologic responses to a known inoculum.

Adsorption and growth of Vibrio cholerae on chitin.

A review of recent trends in cholera research and control. With an annex on the isolation and identification of cholera vibrios.

Taxonomy and description of Vibrio fluvialis sp. nov. (synonym group F vibrios, group EF6).

Adsorption of Vibrio parahaemolyticus onto chitin and copepods.

Effects of temperature and salinity on Vibrio cholerae growth.

Bacteria associated with the surface and gut of marine copepods.

Occurrence of Vibrio cholerae serotype O1 in Maryland and Louisiana estuaries

Effect of light on biomass and community structure of estuarine detrital microbiota

P304

275-283

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

P31

scholarly article

P407

P433

1

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

P478

45

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

P50

Rita R. Colwell

P577

1983-01-01T00:00:00Z

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

P698

6337551

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

P921

Vibrio cholerae

I-phytoplankton

P932

242265

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