Carbonic Anhydrase and the Uptake of Inorganic Carbon by Synechococcus sp. (UTEX-2380)

Abstract

We report the changes in the concentrations and ¹⁸O contents of extracellular CO₂ and HCO₃⁻ in suspensions of Synechococcus sp. (UTEX 2380) using membrane inlet mass spectrometry. This marine cyanobacterium is known to have an active uptake mechanism for inorganic carbon. Measuring ¹⁸O exchange between CO₂ and water, we have found the intracellular carbonic anhydrase activity to be equivalent to 20 times the uncatalyzed CO₂ hydration rate in different samples of cells that were grown on bubbled air (low-CO₂ conditions). This activity was only weakly inhibited by ethoxzolamide with an I₅₀ near 7 to 10 micromolar in lysed cell suspensions. We have shown that even with CO₂-starved cells there is considerable generation of CO₂ from intracellular stores, a factor that can cause errors in measurement of net CO₂ uptake unless accounted for. It was demonstrated that use of ¹³C-labeled inorganic carbon outside the cell can correct for such errors in mass spectrometric measurement. Oxygen-18 depletion experiments show that in the light, CO₂ readily passes across the cell membrane to the sites of intracellular carbonic anhydrase. Although HCO₃⁻ was readily taken up by the cells, these experiments shown that there is no significant efflux of HCO₃⁻ from Synechococcus.