Improvement of carbon monoxide-dependent hydrogen production activity in Citrobacter amalonaticus Y19 by over-expressing the CO-sensing transcriptional activator, CooA

• Recombinant Citrobacter amalonaticus was constructed by cooA over-expression.
• cooA over-expression improved CO-dependent H2 production activity by 3.4-fold.
• Improved activity was attributed to enhanced activity of both CODH & CO-Hyd.
• Recombinant C. amalonaticus Y19 was stable during repeated exposure to CO.

Citrobacter amalonaticus Y19 (Y19) can produce hydrogen (H2) from oxidation of carbon monoxide (CO) via the water-gas shift reaction. The reaction is catalyzed by two enzymes, carbon monoxide dehydrogenase (CODH) and carbon monoxide-dependent hydrogenase (CO-Hyd). The contig genome sequencing of Y19 exhibited the presence of unique CO oxidizing gene clusters encoding CODH (cooFS), CO-Hyd (cooMKLXUH) and a putative CO-responsive transcriptional activator (cooA). To improve CO-dependent H2 production activity, we developed recombinant Y19 by homologously over-expressing cooA. The over-expression of cooA improved the whole-cell CO-dependent H2 production activity (3.4-fold), and enzyme activities of CODH (5.3-fold) and CO-Hyd (1.2-fold). Furthermore, quantitative PCR analysis revealed a significant increase in the transcription of the genes located in CODH and CO-Hyd operons of recombinant Y19. The high CO-dependent H2 production activity of the recombinant C. amalonaticus was stably maintained during repeated exposure to CO.