Reductive effect of H(2) uptake and poly-beta-hydroxybutyrate formation on nitrogenase-mediated H(2) accumulation of Rhodobacter sphaeroides according to light intensity.

Abstract

Nitrogenase-mediated H(2) accumulation of Rhodobacter sphaeroides under photoheterotrophic conditions is reduced directly by the hydrogenase activity catalyzing H(2) uptake and indirectly by energy-demanding metabolic processes such as poly-beta-hydroxybutyrate (PHB) formation. H(2) accumulation of R. sphaeroides was examined during cell growth under illumination of 15, 7, and 3 W/m(2). Mutations in either hupSL (H(2)-uptake hydrogenase) or phbC (PHB synthase) had no effect on nitrogenase activity. The nitrogenase activity of R. sphaeroides grown at 15 W/m(2), however, was 70% higher than that of cells grown at 3 W/m(2), while the H(2)-uptake hydrogenase activity was approximately 3-fold higher in the same comparison. Accordingly, H(2) uptake by hydrogenase, monitored by measuring the difference in H(2) accumulation between a hupSL-deletion mutant and the corresponding parental strain, appeared to reach a maximum level as illumination was increased to 15 W/m(2). On the other hand, the surplus energy due to lack of PHB formation led to a fixed increase in H(2) accumulation independent of light intensity, reflecting the fact that the cellular PHB content was not changed significantly depending on light intensity. Therefore, H(2) uptake by hydrogenase should be suppressed to achieve higher H(2) accumulation of R. sphaeroides, especially at 15 W/m(2).