2009
DOI: 10.1128/aem.00632-08
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Secondary Metabolites Produced by the Marine Bacterium Halobacillus salinus That Inhibit Quorum Sensing-Controlled Phenotypes in Gram-Negative Bacteria

Abstract: Certain bacteria use cell-to-cell chemical communication to coordinate community-wide phenotypic expression, including swarming motility, antibiotic biosynthesis, and biofilm production. Here we present a marine gram-positive bacterium that secretes secondary metabolites capable of quenching quorum sensing-controlled behaviors in several gram-negative reporter strains. Isolate C42, a Halobacillus salinus strain obtained from a sea grass sample, inhibits bioluminescence production by Vibrio harveyi in cocultiva… Show more

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Cited by 171 publications
(122 citation statements)
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“…With respect to enormous biodiversity in the marine environment so that in the case of microorganisms, sea water is composed of 78 million microscopic cell per ounce or the bottom, which mimic the soil, contain more than 1 billion cells in the volume of an ordinary cube of sugar this environment as a rich resource can be exploited for developing new natural pharmaceutical products especially antibiotics . Furthermore, existence of a given the intense microbial competition for resources such as space and nutrients between marine bacteria especially those that inhabited in sediment introduce a powerful selection pressure that can cause excretion of metabolites by these microorganisms for help mediate microbe-microbe interaction that occur on the order of micrometers, it is likely that many of these metabolites were structurally unique and bioactive secondary metabolites (Teasdale et al, 2009;Balcazar et al, 2010). Rosnfeld and Zobell, in 1947, were reported the first document of antibiotic producing marine bacterium (McCarthy et al, 1994).…”
Section: Discussionmentioning
confidence: 99%
“…With respect to enormous biodiversity in the marine environment so that in the case of microorganisms, sea water is composed of 78 million microscopic cell per ounce or the bottom, which mimic the soil, contain more than 1 billion cells in the volume of an ordinary cube of sugar this environment as a rich resource can be exploited for developing new natural pharmaceutical products especially antibiotics . Furthermore, existence of a given the intense microbial competition for resources such as space and nutrients between marine bacteria especially those that inhabited in sediment introduce a powerful selection pressure that can cause excretion of metabolites by these microorganisms for help mediate microbe-microbe interaction that occur on the order of micrometers, it is likely that many of these metabolites were structurally unique and bioactive secondary metabolites (Teasdale et al, 2009;Balcazar et al, 2010). Rosnfeld and Zobell, in 1947, were reported the first document of antibiotic producing marine bacterium (McCarthy et al, 1994).…”
Section: Discussionmentioning
confidence: 99%
“…Numerous reports are emerging that provide empirical data demonstrating QSI activity from various marine sources that include sponges (290), microalgae (291), bryozoa (292), and alga-and coral-associated bacteria (293,294). Low-micromolar concentrations of phenethylamide compounds from the marine bacterium Halobacillus salinus were found to inhibit V. harveyi luminescence and C. violaceum pigment production without inhibiting growth (295). Secondary metabolites isolated and purified from sponges (290) and Gram-negative cyanobacteria (296) also exemplify successes where low-micromolar concentrations of purified compounds could inhibit QS reporters.…”
Section: Natural-product Qs Inhibitorsmentioning
confidence: 99%
“…The ability of marine prokaryotes and eukaryotes to excrete compounds that stimulate or inhibit QS reporters is now well documented (Pasmore and Costerton, 2003;Wagner-Dobler et al, 2005;Skindersoe et al, 2008;Teasdale et al, 2009;Kwan et al, 2010); however, ecological roles of these compounds and of the bacteria that produce them are less understood. Therefore, our subsequent experiments focused on testing the behaviors of the isolates in the dual-species microbial consortia consisting of the coral pathogen S. marcescens PDL100 and the isolate of interest.…”
Section: Effect On Swarming In Serratia Marcescensmentioning
confidence: 99%