Air-grown Synechococcus R-2 (PCC 7942) cultures grown in BC-11 medium are very alkaline (outside pH is 10.0) and use HC0,-as their inorganic carbon source. The cells showed a dependente on Na+ for photosynthesis, but low Na+ conditions (1 mo1 m-3) were sufficient to support saturating photosynthesis. The intracellular dissolved inorganic carbon in the light was greater than 20 mo1 m-3 in both low-Na+ conditions and in BC-11 medium containing the usual [Na+] (24 mo1 m-,, designated high-Na+ conditions). l h e electrochemical potential for HC0,-in the light was in excess of 25 kJ mol-', even in high-Na+ conditions. The Na+-motive force was greater than -12 kJ mol-' under both Na+ conditions. On thermodynamic grounds, an Na+-driven co-port process would need to have a stoichiometry of 2 or greater (22Na+i,,/HC03-'i,), but we show that Nat or K+ fluxes cannot be linked to HC0,-transport. Na+ and K+ fluxes were unaffected by the presence or absence of dissolved inorganic carbon. In low-Na+ conditions, Na+ fluxes are too low to support the observed net C-carbon fixation rate. Active transport of HC0,-hyperpolarizes (not depolarizes) the membrane potential. 14
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