The photoproduction of H2 and NH4 fixed from N2 by a derepressed mutant of Rhodospirillum rubrum.

A mutant of Rhodospirillum rubrum has been isolated, after mutagenesis with nitrosoguanidine, which is characterized by its inability to grow in the light on malate-minimal media with exogenous ammonia or alanine, poor growth on glutamine and vigorous growth on glutamate. This mutant produces low levels of a key NH+4 assimilation enzyme, glutamate synthase (NADPH-dependent). It also exhibits significant derepression of nitrogenase biosynthesis in the presence of ammonia or alanine, being 15% derepressed for the former and about 70% derepressed for the latter. Some of this mutant's fixed N2 is excreted into the medium as NH+4 (1 mumol NH+4 per mg cell protein in 50 h). Nitrogenase-mediated H2 production by this strain is considerable (42 mumol H2 per mg cell protein in 50 h), approximately twice that of the wild type assayed under similar conditions. These results demonstrate that genetic alteration of the photosynthetic N2-fixer's NH+4 assimilation system disrupts the tight coupling of N2 fixation and NH+4 assimilation normally observed in these organisms, enabling photochemical conversion steps to be utilized for the photoproduction of NH+4 and H2.