Light-dependent bicarbonate uptake and CO2 efflux in the marine microalga Nannochloropsis gaditana |
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Authors: | I. Emma Huertas George S. Espie Brian Colman Luis M. Lubian |
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Affiliation: | (1) Instituto de Ciencias Marinas de Andalucia (CSIC), Poligono Rio San Pedro s/n, 11510 Puerto Real (Cádiz), Spain, ES;(2) Department of Botany, Erindale College, University of Toronto at Mississauga, Mississauga, Ontario L5L 1C6, Canada, CA;(3) Department of Biology, York University, 4700 Keele Street, Toronto, Ontario M3J 1P3, Canada, CA |
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Abstract: | Inorganic carbon (Ci) uptake and efflux has been investigated in the marine microalga Nannochloropsis gaditana Lubian by monitoring CO2 fluxes in cell suspensions using mass spectrometry. Addition of H13CO3 − to cell suspensions in the dark caused a transient increase in the CO2 concentration in the medium far in excess of the equilibrium CO2 concentration. The magnitude of this release was dependent on the length of time the cells had been kept in the dark. Once equilibrium between the Ci species had been achieved, a CO2 efflux was observed after saturating light intensity was applied to the cells. External carbonic anhydrase (CA) was not detected nor does this species demonstrate a capacity to take up CO2 by active transport. Photosynthetic O2 evolution and the release CO2 in the dark depend on HCO3 − uptake since both were inhibited by the anion exchange inhibitor, 4,4′-diisothiocyanatostilbene-2,2′-disulfonic acid (DIDS). The bicarbonate uptake mechanism requires light but can also continue for short periods in the dark. Ethoxyzolamide, a CA inhibitor, markedly inhibited CO2 efflux in the dark, indicating that CO2 efflux was dependent upon the intracellular dehydration of HCO3 −. These results indicate that Nannochloropsis possesses a bicarbonate uptake system which causes the accumulation of high intracellular Ci levels and an internal CA which maintains the equilibrium between CO2 and HCO3 − and thus causes a subsequent release of CO2 to the external medium. Received: 20 September 1999 / Accepted: 25 October 1999 |
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Keywords: | : Bicarbonate transport – Carbonic anhydrase – CO2 efflux – Eustigmatophyceae – Inhibitor (DIDS) – Nannochloropsis– (HCO− 3 uptake) |
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