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1. Sensory Cross-Talk Between Chemotaxis Behavior and the Regulation of Swarmer Cell Differentiation of Vibrio Parahaemolyticus

Author

MARYLAND UNIV BALTIMORE, Belas, M. R., MARYLAND UNIV BALTIMORE, and Belas, M. R.

Abstract

Vibrio parahaemolyticus is a major causative agent in the process known as marine biofouling, or the attachment of living organisms to submerged surfaces. V. parahaemolyticus accomplishes this attachment by the production of a differentiated hyperflagellated swarmer cell. It has been observed that mutants of V. parahaemolyticus defective in chemotaxis behavior show aberrant expression of the swarmer cell. Although chemotaxis behavior and swarmer cell differentiation are considered to be separate sensory transduction systems, such Che mutants must have a genetic defect in a protein integral to the regulation of swarmer cell differentiation, thus linking the two signal pathways together. It is the goal of this work to identify this link. We have constructed a set of Che mutants in V. parahaemolyticus and have characterized them for defects in swimming behavior. The che DNA from 3 of 10 total Che mutants was cloned into E. coli and physically characterized. Mutations in each respective cloned che gene were constructed so that allelic exchange mutagenesis could be conducted on a V. parahaemolyticus strain harboring a laf::lux transcriptional fusion.... Vibrio parahaemolyticus, Swarmer cell differentiation, Chemotaxis flagella.

Published
1992

2. Scanning electron microscope observation of the swarming phenomenon of Vibrio parahaemolyticus

Author

Belas, M R and Colwell, R R

Abstract

Scanning electron microscopy was used to study the production of lateral flagella and the swarming phenomenon in Vibrio parahaemolyticus. Differences in the size and diameter of the sheathed, polar flagellum and lateral flagella were apparent in these preparations. Swarming of V. parahaemolyticus was found to be similar to the swarming of Proteus spp. in that swarm cells which are heavily flagellated and elongated are formed.

Published
1982
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3. Adsorption kinetics of laterally and polarly flagellated Vibrio

Author

Belas, M R and Colwell, R R

Abstract

The adsorption of laterally and polarly flagellated bacteria to chitin was measured, and from the data obtained, a modified Langmuir adsorption isotherm was derived. Results indicated that the adsorption of laterally flagellated Vibrio parahaemolyticus follows the Langmuir adsorption isotherm, a type of adsorption referred to as surface saturation kinetics, when conditions are favorable for the production of lateral flagella. When conditions were not favorable for the production of lateral flagella, bacterial adsorption did not follow the Langmuir adsorption isotherm; instead, proportional adsorption kinetics were observed. The adsorption of some polarly flagellated bacteria exhibited surface saturation kinetics. However, the binding index (the product of the number of binding sites and bacterial affinity to the surface) of polarly flagellated bacteria differed significantly from that of laterally flagellated bacteria, suggesting that polarly flagellated bacteria adsorb to chitin by a different mechanism from that used by the laterally flagellated bacteria. From the results of dual-label adsorption competition experiments, in which polarly flagellated V. cholerae competed with increasing concentrations of laterally flagellated V. parahaemolyticus, it was observed that laterally flagellated bacteria inhibited the adsorption of polarly flagellated bacteria. In contrast, polarly flagellated bacteria enhanced the adsorption of V. cholerae. In competition experiments, where V. parahaemolyticus competed against increasing concentrations of other bacteria, polarly flagellated bacteria enhanced V. parahaemolyticus adsorption significantly, whereas laterally flagellated bacteria only slightly enhanced the process. The direct correlation observed between surface saturation kinetics, the production of lateral flagella, and the ability of laterally flagellated bacteria to inhibit the adsorption of polarly flagellated bacteria suggests that lateral flagella represent a component of bacterial structure that is important in the adsorption of laterally flagellated bacteria to surfaces. A model for adsorption events of laterally flagellated bacteria is proposed, based on the evidence presented.

Published
1982
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