Characterization of htrB and msbB Mutants of the Light Organ Symbiont Vibrio fischeri

Characterization of htrB and msbB Mutants of the Light Organ Symbiont Vibrio fischeri

Bacterial lipid A is an important mediator of bacterium-host interactions, and secondary acylations added by HtrB and MsbB can be critical for colonization and virulence in pathogenic infections. In contrast, Vibrio fischeri lipid A stimulates normal developmental processes in this bacterium's...

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Bibliographic Details
Published in:Applied and Environmental Microbiology Vol. 74; no. 3; pp. 633 - 644
Main Authors: Adin, Dawn M, Phillips, Nancy J, Gibson, Bradford W, Apicella, Michael A, Ruby, Edward G, McFall-Ngai, Margaret J, Hall, Daniel B, Stabb, Eric V
Format: Journal Article
Language:English
Published: Washington, DC American Society for Microbiology 01-02-2008
American Society for Microbiology (ASM)
Subjects:
Acyltransferases - genetics
Acyltransferases - metabolism
Aliivibrio fischeri - enzymology
Aliivibrio fischeri - genetics
Aliivibrio fischeri - growth & development
Aliivibrio fischeri - physiology
Animal Structures - microbiology
Animals
Bacteria
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Bacteriology
Biological and medical sciences
Chromosomes
Chromosomes, Bacterial - genetics
Decapodiformes - anatomy & histology
Decapodiformes - microbiology
Euprymna scolopes
Fundamental and applied biological sciences. Psychology
Genes
Genotype & phenotype
Invertebrate Microbiology
Light
Lipid A - metabolism
Lipids
Microbiology
Mutation
Symbiosis
Vibrio
Vibrio fischeri
Characterization
Light organ
Vibrio fischeri
Bacteria
Vibrionaceae
Mutation
Symbiont
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Summary:Bacterial lipid A is an important mediator of bacterium-host interactions, and secondary acylations added by HtrB and MsbB can be critical for colonization and virulence in pathogenic infections. In contrast, Vibrio fischeri lipid A stimulates normal developmental processes in this bacterium's mutualistic host, Euprymna scolopes, although the importance of lipid A structure in this symbiosis is unknown. To further examine V. fischeri lipid A and its symbiotic function, we identified two paralogs of htrB (designated htrB1 and htrB2) and an msbB gene in V. fischeri ES114 and demonstrated that these genes encode lipid A secondary acyltransferases. htrB2 and msbB are found on the Vibrio "housekeeping" chromosome 1 and are conserved in other Vibrio species. Mutations in htrB2 and msbB did not impair symbiotic colonization but resulted in phenotypic alterations in culture, including reduced motility and increased luminescence. These mutations also affected sensitivity to sodium dodecyl sulfate, kanamycin, and polymyxin, consistent with changes in membrane permeability. Conversely, htrB1 is located on the smaller, more variable vibrio chromosome 2, and an htrB1 mutant was wild-type-like in culture but appeared attenuated in initiating the symbiosis and was outcompeted 2.7-fold during colonization when mixed with the parent. These data suggest that htrB2 and msbB play conserved general roles in vibrio biology, whereas htrB1 plays a more symbiosis-specific role in V. fischeri.
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Corresponding author. Mailing address: University of Georgia, Department of Microbiology, 1000 Cedar Street, Athens, GA 30602. Phone: (706) 542-2414. Fax: (706) 542-2674. E-mail: estabb@uga.edu
ISSN:0099-2240
1098-5336
DOI:10.1128/AEM.02138-07