Patent ID: 6989252

Claim:
A reversible physiological process for temporal separation of oxygen evolution to avoid deactivation of hydrogenase in the presence of oxygen and sustain photosynthetic hydrogen production in cells of an algae microorganism, comprising: (a) growing a culture of cells of algae microorganism photoheterotrophically in a Tris-acetate-phoshate medium under white fluorescence illumination conditions to accumulate an endogenous substrate; (b) depleting a nutrient selected from the group consisting of sulfur, iron, and/or manganese from the medium in the presence of DCMU by suspending said culture of cells in the absence of said nutrient and sealing the culture of cells of algae microorganism from atmospheric oxygen until conditions become anaerobic; (c) measuring the rate of cellular oxidative respiration in m mol O 2 (mol Chl) −1 s −1 of a sample of cells of said suspended algae microorganism from step (b) in the dark until it is constant or about 13 m mol O 2 (mol chl) −1 s −1 ; (d) measuring the rate of O 2 evolution of a sample of the algae microorganism from step (c) under light of saturating intensity of yellow actinic excitation at about 1,300 μm photons m −2 s −2 ; (e) inducing reversible hydrogenase through photosynthesis by controlling the light saturated rate of oxygen production from the culture of cells of algae microorganism of step (b) so that it is equal to or less than the constant or 13 μmol O 2 (mol Chl)- 1 s −1 rate of cellular oxidative respiration using saturating blue actinic excitation at 250 μmol photons m −2 s −1 at 700 nm to generate an evolved gas that includes hydrogen.