Carbonic Anhydrase Activity in Isolated Chloroplasts of Wild-Type and High-CO2-Dependent Mutants of Chlamydomonas reinhardtii as Studied by a New Assay

doi:10.1104/pp.105.4.1197

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METABOLISM AND ENZYMOLOGY

Carbonic Anhydrase Activity in Isolated Chloroplasts of Wild-Type and High-CO2-Dependent Mutants of Chlamydomonas reinhardtii as Studied by a New Assay

G. L. Katzman, S. J. Carlson, Y. Marcus, J. V. Moroney and R. K. Togasaki
Department of Biology, Indiana University, Bloomington, Indiana 47405 (G.L.K., S.J.C., R.K.T.)

In an assay of carbonic anhydrase (CA), NAH14CO3 soltution at the bottom of a sealed vessel releases 14CO2, which diffuses to the top of the vessel to be assimilated by photosynthesizing Chlamydomonas reinhardtii cells that have been adapted to a low-CO2 environment. The assay is initiated by illuminating the cells and is stopped by turning the light off and killing the cells with acid. Enzyme activity was estimated from acid-stable radioactivity. With bovine CA, 1.5 Wilbur-Anderson units (WAU) was consistently measured at 5- to 6-fold above background. Sonicated whole cells of air-adapted wild-type C. reinhardtii had 740 [plus or minus] 12.4 WAU/mg chlorophyll (Chl). Sonicated chloroplasts from a mixotrophically grown wall-less strain, cw-15, had 35.5 [plus or minus] 2.6 WAU/mg Chl, whereas chloroplasts from wall-less external CA mutant strain cia5/cw-15 had 33.8 [plus or minus] 1.9 WAU/mg Chl. Sonicated chloroplasts from the wall-less mutant strain cia-3/cw-15, believed to lack an internal CA, had 2.8 [plus or minus] 3.2 WAU/mg Chl. Sonicated whole cells from cia3/cw-15 had 2.8 [plus or minus] 7.8 WAU/mg Chl. Acetazolamide, ethoxyzolamide, and p-aminomethylbenzene sulfonamide (Mafenide) at 100 [mu]M inhibited CA in sonicated chloroplasts from cia-5/cw-15. Treatment at 80[deg]C for 10 min inhibited this CA activity by 90.8 [plus or minus] 3.6%. Thus, a sensitive 14C assay has confirmed the presence of a CA in cw-15 and cia-5/cw-15 chloroplasts and the lack of a CA in cia-3/cw-15 chloroplasts. Our results indicate that HCO3- is the inorganic carbon species that is accumulated by chloroplasts of Chlamydomonas and that chloroplastic CA is responsible for the majority of internal CA activity.

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