Inorganic carbon acquisition in two green marine Stichococcus species.

The mechanism of inorganic carbon (C(i)) uptake was examined in the marine green microalgae Stichococcus cylindricus and Stichococcus minor. External carbonic anhydrase (CA) activity was not detected in either species, by potentiometric assay or by mass spectrometry. Photosynthetic characteristics of C(i) uptake indicate that both species have high apparent affinity for CO(2) with a low K(1/2) (CO(2)) of about 10 µm. The O(2) evolution rates in light exceeded the spontaneous CO(2) formation rate by 2.5-fold in both species, which thus have active bicarbonate uptake. Mass spectrometric monitoring of CO(2) and O(2) fluxes showed that rates of O(2) evolution exceeded those of CO(2) depletion by about three- and twofold in S. minor and S. cylindricus, respectively, and also showed, in cells photosynthesizing at pH 8.2, a rapid depletion of CO(2) upon illumination to a CO(2) compensation concentration of 15.42 and 12.03 µm in S. minor and S. cylindricus, respectively. Both species also exhibit active CO(2) uptake: addition of bovine CA at CO(2) compensation concentration caused a rapid rise in CO(2) as the CO(2) -HCO(3) (-) equilibrium was restored. Accumulation of unfixed C(i) by cells at pH 8.2 was calculated to be 84.33 mm in S. cylindricus, and 30.37 mm in S. minor to give internal accumulations of 23- and 8-fold, respectively, compared to the external C(i) concentration.