Vibrio natriegens

About: Vibrio natriegens is a research topic. Over the lifetime, 173 publications have been published within this topic receiving 3646 citations.

Marine Bacterial Isolates Display Diverse Responses to UV-B Radiation

Abstract: The molecular and biological consequences of UV-B radiation were investigated by studying five species of marine bacteria and one enteric bacterium. Laboratory cultures were exposed to an artificial UV-B source and subjected to various post-UV irradiation treatments. Significant differences in survival subsequent to UV-B radiation were observed among the isolates, as measured by culturable counts. UV-B-induced DNA photodamage was investigated by using a highly specific radioimmunoassay to measure cyclobutane pyrimidine dimers (CPDs). The CPDs determined following UV-B exposure were comparable for all of the organisms except Sphingomonas sp. strain RB2256, a facultatively oligotrophic ultramicrobacterium. This organism exhibited little DNA damage and a high level of UV-B resistance. Physiological conditioning by growth phase and starvation did not change the UV-B sensitivity of marine bacteria. The rates of photoreactivation following exposure to UV-B were investigated by using different light sources (UV-A and cool white light). The rates of photoreactivation were greatest during UV-A exposure, although diverse responses were observed. The differences in sensitivity to UV-B radiation between strains were reduced after photoreactivation. The survival and CPD data obtained for Vibrio natriegens when we used two UV-B exposure periods interrupted by a repair period (photoreactivation plus dark repair) suggested that photoadaptation could occur. Our results revealed that there are wide variations in marine bacteria in their responses to UV radiation and subsequent repair strategies, suggesting that UV-B radiation may affect the microbial community structure in surface water.

Vibrio natriegens as a fast-growing host for molecular biology

Abstract: A rapidly growing bacterial host would be desirable for a range of routine applications in molecular biology and biotechnology. The bacterium Vibrio natriegens has the fastest growth rate of any known organism, with a reported doubling time of <10 min. We report the development of genetic tools and methods to engineer V. natriegens and demonstrate the advantages of using these engineered strains in common biotech processes.

Pseudomonas natriegens, a marine bacterium with a generation time of less than 10 minutes

Abstract: Eagon, R. G. (University of Georgia, Athens). Pseudomonas natriegens, a marine bacterium with a generation time of less than 10 minutes. J. Bacteriol. 83:736–737. 1962.—Pseudomonas natriegens, a marine microorganism, was demonstrated to have a generation time of 9.8 min. This is the shortest generation time reported to date. Optimal growth occurred at 37 C in brain heart infusion broth supplemented with 1.5% sea salt.

Fluorescently Labeled Virus Probes Show that Natural Virus Populations Can Control the Structure of Marine Microbial Communities

Abstract: Fluorescently stained viruses were used as probes to label, identify, and enumerate specific strains of bacteria and cyanobacteria in mixed microbial assemblages. Several marine virus isolates were fluorescently stained with YOYO-1 or POPO-1 (Molecular Probes, Inc.) and added to seawater samples that contained natural microbial communities. Cells to which the stained viruses adsorbed were easily distinguished from nonhost cells; typically, there was undetectable binding of stained viruses to natural microbial assemblages containing >10(sup6) bacteria ml(sup-1) but to which host cells were not added. Host cells that were added to natural seawater were quantified with 99% (plusmn) 2% (mean (plusmn) range) efficiency with fluorescently labeled virus probes (FLVPs). A marine bacterial isolate (strain PWH3a), tentatively identified as Vibrio natriegens, was introduced into natural microbial communities that were either supplemented with nutrients or untreated, and changes in the abundance of the isolate were monitored with FLVPs. Simultaneously, the concentrations of viruses that infected strain PWH3a were monitored by plaque assay. Following the addition of PWH3a, the concentration of viruses infecting this strain increased from undetectable levels (<1 ml(sup-1)) to 2.9 x 10(sup7) and 8.3 x 10(sup8) ml(sup-1) for the untreated and nutrient-enriched samples, respectively. The increase in viruses was associated with a collapse in populations of strain PWH3a from ca. 30 to 2% and 43 to 0.01% of the microbial communities in untreated and nutrient-enriched samples, respectively. These results clearly demonstrate that FLVPs can be used to identify and quantify specific groups of bacteria in mixed microbial communities. The data show as well that viruses which are present at low abundances in natural aquatic viral communities can control microbial community structure.

Towards a phylogeny of the genus Vibrio based on 16S rRNA sequences.

Abstract: The inter- and intrageneric relationships of the genus Vibrio were investigated by performing a comparative analysis of the 16S rRNAs of 10 species, including four pathogenic representatives. The results of immunological and 5S rRNA studies were confirmed in that the genus is a neighboring taxon of the family Enterobacteriaceae. With regard to the intrageneric structure, Vibrio alginolyticus, Vibrio campbellii, Vibrio natriegens, Vibrio harveyi, Vibrio proteolyticus, Vibrio parahaemolyticus, and Vibrio vulnificus form the core of the genus, while Vibrio (Listonella) anguillarum, Vibrio diazotrophicus, and Vibrio hollisae are placed on the outskirts of the genus. Variable regions around positions 80, 180, and 450 could be used as target sites for genus- and species-specific oligonucleotide probes and polymerase chain reaction primers to be used in molecular identification.