Absence of light-induced proton extrusion in a cotA-less mutant of Synechocystis sp. strain PCC6803

Abstract

CotA of Synechocystis sp. strain PCC6803 was isolated as a gene that complemented a mutant defective in CO2 transport and is homologous to cemA that encodes a chloroplast envelope membrane protein (A. Katoh, K.S. Lee, H. Fukuzawa, K. Ohyama, and T. Ogawa, Proc. Natl. Acad. Sci. USA 93:4006-4010, 1996). A mutant (M29) constructed by replacing cotA in the wild-type (WT) Synechocystis strain with the omega fragment was unable to grow in BG11 medium (approximately 17 mM Na+) at pH 6.4 or at any pH in a low-sodium medium (100 microM Na+) under aeration with 3% (vol/vol) CO2 in air. The WT cells grew well in the pH range between 6.4 and 8.5 in BG11 medium but only at alkaline pH in the low-sodium medium. Illumination of the WT cells resulted in an extrusion followed by an uptake of protons. In contrast, only proton uptake was observed for the M29 mutant in the light without proton extrusion. There was no difference in sodium uptake activity between the WT and mutant. The mutant still possessed 51% of the WT CO2 transport activity in the presence of 15 mM NaCl. On the basis of these results we concluded that cotA has a role in light-induced proton extrusion and that the inhibition of CO2 transport in the M29 mutant is a secondary effect of the inhibition of proton extrusion.