The selective production of acetone and butanol is highly desirable from the viewpoint of biofuel production. We have manipulated the activity level of a hydrogenase for this purpose because hydrogen and solvent production are closely correlated with each other. First, we cloned the hydrogenase gene cluster from Clostridium saccharoperbutylacetonicum strain N1-4 and downregulated its expression using an antisense RNA strategy. The cloned hydrogenase gene cluster contained three adjacent open reading frames, designated hupC, hupB, and hupA. Sequence analysis revealed that HupA could accommodate an H-cluster, which is the catalytic domain of the Fe-hydrogenase. HupB and HupC contained no H-cluster but could accommodate several Fe-S clusters. The hupCBA genes were co-transcribed, and the level of the transcript was maximized in the solventogenic phase. When the antisense RNA of the hupC upstream region (180 bp) was expressed under the bdh (encoding butanol dehydrogenase) promoter, significant reduction of hupC translation was observed, indicating that this antisense RNA is effective in strain N1-4. Production of hydrogen in the antisense transformant increased 3.1-fold. Hydrogen-evolving activity was comparable in both the control and antisense strains, but hydrogen uptake activity significantly decreased in the antisense strain (13% remaining). These results indicate that the HupCBA proteins are involved in hydrogen uptake. Importantly, the level of acetone in the antisense transformant increased 1.6-fold, and butanol production decreased to 75.6% compared to the control strain. Thus, we successfully altered solvent productivity by controlling electron flow in an acetone/butanol-producing Clostridium species.
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