Light-Induced Proton Release by the Cyanobacterium Anabaena variabilis1: Dependence on CO2 and Na+

AUTOR(ES)

Scherer, Siegfried

RESUMO

Light-induced acidification by the cyanobacterium Anabaena variabilis is biphasic (a fast phase I and slow phase II) and shown to be sodium-dependent with an optimum concentration of 40 to 60 millimolar Na+. Cells grown under low CO2 concentrations at pH 9 (i.e. mainly HCO3− present in the medium) exhibited the slow phase II of proton efflux only, while cells grown under low CO2 concentrations at pH 6.3 (i.e. CO2 and HCO3− present) exhibited both phases. Light-induced proton release of phase I was dependent on inorganic carbon available in the bathing medium with an apparent Km for CO2 of 20 to 70 micromolar. As was concluded from the CO2 dependence of acidification measured at different pH of the bathing medium, bicarbonate inhibited phase-I acidification noncompetetively. Acidification was inhibited by acetazolamide, an inhibitor of carbonic anhydrase. Apparently, acidification of phase I is due to a light-dependent uptake of CO2 being converted to HCO3− by a carbonic anhydrase-like function of the HCO3−-transport system (M Volokita, D Zenvirth, A Kaplan, L Reinhold 1984 Plant Physiol 76: 599-602) before or during entering the cell, thus releasing one proton per CO2 converted to HCO3−.

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