RT Journal Article SR Electronic(1) A1 Nakamura, Tatsunosuke A1 Kawasaki, Satoko A1 Unemoto, TsutomuYR 1992 T1 Roles of K+ and Na+ in pH homeostasis and growth of the marine bacterium Vibrio alginolyticus JF Microbiology, VO 138 IS 6 SP 1271 OP 1276 DO https://doi.org/10.1099/00221287-138-6-1271 PB Microbiology Society, SN 1465-2080, AB The marine bacterium Vibrio alginolyticus, containing 470 mM-K+ and 70 mM-Na+ inside its cells, was able to regulate the cytoplasmic pH (pHin) in the narrow range 7.6–7.8 over the external pH (pHout) range 6.0–9.0 in the presence of 400 mM-Na+ and 10 mM-K+. In the absence of external K+, however, pHin was regulated only at alkaline pHout values above 7.6. When the cells were incubated in the presence of unusually high K+ (400 mM) and 4 mM Na+, the pHin was regulated only at acidic pHout values below 7.6. These results could be explained by postulating a K+/H+ antiporter as the regulator of pHin over the pHout range 6.0–9.0. When Na+-loaded/K+-depleted cells were incubated in 400 mM-Na+ in the absence of K+, an inside acidic ΔpH was generated at pHout values above 7.0. After addition of diethanolamine the inside acidic ΔpH collapsed transiently and then returned to the original value concomitant with the extrusion of Na+, suggesting the participation of a Na+/H+ antiporter for the generation of an inside acidic ΔpH. In the presence of 400 mM-K+, at least 5 mM-Na+ was required to support cell growth at pHout below 7.5. An increase in Na+ concentration allowed the cells to grow at a more alkaline pHout. Furthermore, cells containing more Na+ inside could more easily adapt to grow at alkaline pHout. These results indicated the importance of Na+ in acidification of the cell interior via a Na+/H+ antiporter in order to support cell growth at alkaline pHout under conditions where the activity of a K+/H+ antiporter is marginal., UL https://www.microbiologyresearch.org/content/journal/micro/10.1099/00221287-138-6-1271