Photosynthesis and the intracellular inorganic carbon pool in the bluegreen alga Anabaena variabilis: Response to external CO2 concentration

Abstract

The apparent photosynthetic affinity of A. variabilis to CO₂ is greatly affected by the CO₂ concentration in the medium during growth. Halfmaximal rate of photosynthetic O₂ evolution is achieved at 10 μM and 100 μM inorganic carbon (C_inorg) in cells grown at low-CO₂ (air) and high CO₂ (5% v/v CO₂ in air), respectively, whilst the maximum rate of photosynthesis is similar in both cases. Both high- and low-CO₂-grown Anabaena accumulate C_inorg within the cell; however, the rate of accumulation and the steady-state internal C_inorg concentration reached is much higher in low as compared with high-CO₂-grown cells. It is suggested that Anabaena cells actively accumulate C_inorg. Measurements of the kinetics of C_inorg transport indicate that the affinity of the transport mechanism for C_inorg is similar (K_m(C_inorg(≃150 μM) in both high- and low-CO₂-grown cells. However, V _max is 10-fold higher in the latter case. It is suggested that this higher V _max for transport is the basis of the superior capability to accumulate C_inorg and the higher apparent photosynthetic affinity for external C_inorg in low-CO₂-grown Anabaena. Carbonic anhydrase activity was not detectable in Anabaena, yet both photosynthetic affinity to C_inorg in the medium (but not V _max) and the rate of accumulation of C_inorg were inhibited by the carbonic-anhydrase inhibitor ethoxyzolamide.