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HYDROGEN PRODUCTION IN CHLAMYDOMONAS: PSII-DEPENDENT AND INDEPENDENT PATHWAYS DIFFER IN THEIR REQUIREMENT ON STARCH METABOLISM.
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Edité par CCSD ; Oxford University Press ; American Society of Plant Biologists -
International audience. Under sulfur deprivation conditions, the green alga Chlamydomonas reinhardtii produces hydrogen in the light in a sustainable manner thanks to the contribution of two pathways, direct and indirect. In the direct pathway, photosystem II supplies electrons to hydrogenase through the photosynthetic electron transport chain, while in the indirect pathway, hydrogen is produced in the absence of PSII through a photosystem I-dependent process. Starch metabolism has been proposed to contribute to both pathways, by feeding respiration and maintaining anoxia during the direct pathway, and by supplying reductants to the plastoquinone pool during the indirect pathway. At variance with this scheme, we report that a mutant lacking starch (defective for sta6) produces similar hydrogen amounts as the parental strain in conditions of sulfur deprivation. However, when PSII is inhibited by DCMU, conditions where hydrogen is produced by the indirect pathway, hydrogen production is strongly reduced in the starch deficient mutant. We conclude that starch breakdown contributes to the indirect pathway by feeding electrons to the plastoquinone pool, but is dispensable for operation of the direct pathway which prevails in the absence of DCMU. While hydrogenase induction was strongly impaired in the starch deficient mutant under dark anaerobic conditions, wild type-like induction was observed in the light. Because this light-driven hydrogenase induction is DCMU-insensitive and strongly inhibited by FCCP or DBMIB, we conclude that this process is regulated by the proton gradient generated by cyclic electron flow around PSI.
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