Transmembrane electrical potential in Rickettsia prowazekii and its relationship to lysine transport.

The transmembrane electrical potential (delta psi) generated by Rickettsia prowazekii metabolizing glutamic acid or ATP was determined by flow dialysis with the lipophilic cation tetraphenylphosphonium and with lysine. At pH 7.0, the rickettsiae generated a delta psi as measured by tetraphenylphosphonium distribution of 90 mV. Under similar conditions, cells of R.prowazekii concentrated lysine to a gradient indicating a delta psi of 90 mV. Energy-starved cells of R. prowazekii were able to utilize exogenously supplied ATP as well as glutamic acid to generate a delta psi of 110 mV at pH 8.0. Lysine transport was markedly affected by environmental pH, the optimum pH ranging from 8.0 to 8.5. delta psi as measured with tetraphenyl-phosphonium was similarly affected in this system, with values ranging from 70 mV at pH 6.0 to 100 mV at pH 8.0. Respiration rates were also affected by the external pH, with a maximum rate of 28 nmol of O2 consumed per min per mg of rickettsial protein occurring at pH 8.0. The pH effects were readily reversible and with a rapid onset.