Abstract
Anaerobic conditions were employed to study the relationship between membrane potential and chemotaxis in Spirochaeta aurantia. When cells were grown anaerobically and suspended in anaerobic potassium phosphate buffer (pH 5.5), membranes did not appear to be polarized. Nevertheless, motility was supported by a transmembrane pH gradient, and the anaerobic cells exhibited D-xylose taxis. Introduction of trace amounts of air into anaerobic cell suspensions resulted in a transient membrane polarization. The addition of valinomycin to cells suspended under anaerobic conditions did not alter the steady-state value of membrane potential appreciably but served to clamp membrane potential at the preset level. Although there was no detectable effect of valinomycin on the motility of anaerobic cells in potassium phosphate buffer, D-xylose taxis was completely inhibited by this treatment. These data indicate the the action of valinomycin as a voltage clamp serves to inhibit the chemotaxis of S. aurantia and provide evidence to support the suggestion that the mechanism of chemotaxis in this organism involves the transduction of sensory signals in the form of membrane potential fluctuations.
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