Abstract
BackgroundBisulfite addition is an important H2 photoproduction strategy that removes O2 and activates hydrogenase. The pH values of cell cultures can change the ratio of bisulfite to sulfite, which may affect H2 photoproduction. However, little is known regarding the pH effect of bisulfite addition on H2 photoproduction and relevant underlying mechanism.ResultsHere, changes in H2 photoproduction with different initial extracellular pH values showed a parabolic distribution and a pH of 8.0 is an optimal value for H2 photoproduction in Chlamydomonas reinhardtii cells treated with bisulfite. Compared to the growth pH (pH 7.3), increased photoproduction of H2 at this optimal pH was primarily caused by a relatively high residual activity of photosystem II (PSII), which provides a relatively plentiful source of electrons for H2 photoproduction. Such increased H2 photoproduction was most likely a result of decreased the ratio of bisulfite to sulfite, consistent with the result that the toxicity of bisulfite on PSII was much more than that of sulfite. This possibility was corroborated by the result that treatment with a combination of 7 mM bisulfite and 6 mM sulfite further enhanced H2 photoproduction compared with 13 mM bisulfite alone.ConclusionsCollectively, our findings provide novel mechanistic insights into pH-dependent H2 photoproduction in C. reinhardtii cells treated with bisulfite, and demonstrate that sulfite addition is another important strategy for H2 photoproduction, just like bisulfite addition.
Highlights
Bisulfite addition is an important H2 photoproduction strategy that removes O2 and activates hydrogenase
This finding indicates that H2 photoproduction is enhanced at moderate pH levels, and that a pH of 8.0 is an optimal value to result in maximum H2 photoproduction in NaHSO3-treated cells of C. reinhardtii
In this study, we have demonstrated that the yield of H2 photoproduction is increased by an optimal pH in C. reinhardtii cells treated with bisulfite
Summary
Bisulfite addition is an important H2 photoproduction strategy that removes O2 and activates hydrogenase. Chlamydomonas reinhardtii, a unicellular green alga, has been recognized as an ideal candidate among eukaryotes for photobiological H2 production because its [Fe–Fe]hydrogenase (H2ase) exhibits a higher specific activity than exhibited by [Ni–Fe]-H2ases in some other microorganisms [5, 6]. C. reinhardtii only produces H 2 under anaerobic conditions because its [Fe–Fe]-H2ase is extremely sensitive to oxygen (O2) [7]. Numerous strategies are developed to activate [Fe–Fe]-H2ase in C. reinhardtii for efficient and sustainable H2 photoproduction (for recent reviews, see [8,9,10]), including (1) developing the. O2-tolerant [Fe–Fe]-H2ase [11, 12]; and (2) decreasing the O2 content around [Fe–Fe]-H2ase [13,14,15,16,17,18,19].
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