Literature DB >> 6337551

Ecological relationships between Vibrio cholerae and planktonic crustacean copepods.

A Huq, E B Small, P A West, M I Huq, R Rahman, R R Colwell.   

Abstract

Strains of Vibrio cholerae, both O1 and non-O1 serovars, were found to attach to the surfaces of live copepods maintained in natural water samples collected from the Chesapeake Bay and Bangladesh environs. The specificity of attachment of V. cholerae to live copepods was confirmed by scanning electron microscopy, which revealed that the oral region and egg sac were the most heavily colonized areas of the copepods. In addition, survival of V. cholerae in water was extended in the presence of live copepods. Attachment of viable V. cholerae cells to copepods killed by exposure to -60 degrees C was not observed. Furthermore, survival of V. cholerae was not as long in the presence of dead copepods as in the live copepod system. A strain of Vibrio parahaemolyticus was also seen to attach to copepod surfaces without effect on survival of the organism in water. The attachment of vibrios to copepods was concluded to be significant since strains of other bacteria, including Pseudomonas sp. and Escherichia coli, did not adhere to live or dead copepods. Attachment of V. cholerae to live copepods is suggested to be an important factor of the ecology of this species in the aquatic environment, as well as in the epidemiology of cholera, for which V. cholerae serovar O1 is the causative agent.

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Year:  1983        PMID: 6337551      PMCID: PMC242265          DOI: 10.1128/aem.45.1.275-283.1983

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  19 in total

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3.  A case of cholera in Texas, 1973.

Authors:  J B Weissman; W E DeWitt; J Thompson; C N Muchnick; B L Portnoy; J C Feeley; E J Gangarosa
Journal:  Am J Epidemiol       Date:  1974-12       Impact factor: 4.897

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

Authors:  R A Cash; S I Music; J P Libonati; M J Snyder; R P Wenzel; R B Hornick
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5.  Bacterial flora of phyto- and zoo-plankton in the inshore water of Japan.

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

Authors:  J V Lee; P Shread; A L Furniss; T N Bryant
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7.  The incidence of Vibrio cholerae in water, animals and birds in Kent, England.

Authors:  J V Lee; D J Bashford; T J Donovan; A L Furniss; P A West
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8.  Occurrence of Vibrio cholerae serotype O1 in Maryland and Louisiana estuaries.

Authors:  R R Colwell; R J Seidler; J Kaper; S W Joseph; S Garges; H Lockman; D Maneval; H Bradford; N Roberts; E Remmers; I Huq; A Huq
Journal:  Appl Environ Microbiol       Date:  1981-02       Impact factor: 4.792

9.  Adsorption and growth of Vibrio cholerae on chitin.

Authors:  D R Nalin; V Daya; A Reid; M M Levine; L Cisneros
Journal:  Infect Immun       Date:  1979-08       Impact factor: 3.441

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

Authors:  J Kaper; H Lockman; R R Colwell; S W Joseph
Journal:  Appl Environ Microbiol       Date:  1979-01       Impact factor: 4.792
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Review 3.  New-generation vaccines against cholera.

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4.  Crustaceans from bitumen clast in Carboniferous glacial diamictite extend fossil record of copepods.

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7.  Chironomid egg masses as a natural reservoir of Vibrio cholerae non-O1 and non-O139 in freshwater habitats.

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8.  Incidence of Vibrio cholerae and related vibrios in a coastal lagoon and seawater influenced by lake discharges along an annual cycle.

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Journal:  Appl Environ Microbiol       Date:  1985-08       Impact factor: 4.792

9.  Colonization of the gut of the blue crab (Callinectes sapidus) by Vibrio cholerae.

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10.  Influence of Chemotaxis and Swimming Patterns on the Virulence of the Coral Pathogen Vibrio coralliilyticus.

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