Regulation of lateral flagella gene transcription in Vibrio parahaemolyticus.

Two distinctly different organelles of locomotion are produced by Vibrio parahaemolyticus. The polar flagellum is responsible for motility in a liquid environment (swimming), and the lateral flagella enable the bacteria to move over surfaces (swarming). Synthesis of lateral flagella occurs when V. parahaemolyticus is grown on agar media but not when it is grown in liquid media. We used lux (luminescence gene) fusions to conveniently and sensitively analyze the factors which influence transcription of lateral flagella genes (laf). Transposon mini-Mu lux was used to mutagenize V. parahaemolyticus and to generate laf::lux transcriptional fusions. Mutants with insertions of mini-Mu lux in laf genes were defective in the swarming phenotype and produced light when the bacteria were propagated on agar media, but not when cells were grown in liquid media. Thus, surface-dependent expression of lateral flagella synthesis is controlled by regulation of transcription. Such fusion strains were also used to further define the environmental conditions which induce laf gene expression. Cultivation on media solidified by gelling agents other than agar also induced light production in fusion strains, as did growth on a variety of hydrophilic membrane filters suspended over liquid media. Growth at an air-surface interface was not necessary for expression since embedding the fusion strains in agar was also effective. Furthermore, induction of laf gene transcription could also be accomplished by increasing the viscosity of the liquid medium by the addition of a high-molecular-weight polymer such as polyvinylpyrrolidone. Increase in luminescence of the fusion strains was detected within 30 min of initiation of the inducing circumstance, and reversal of induction, e.g., by dilution of the viscous medium, resulted in a rapid decline in the rate of increase in luminescence. Conditions that induced luminescence in the fusion strains also induced the synthesis of lateral flagella in wild-type V. parahaemolyticus. The growth environment of the genes, and it appears that the signal that triggers laf expression is physical rather than chemical in nature. Possibilities for a sensing mechanism are discussed.