The plant pathogenPectobacterium atrosepticumcontains a functional formate hydrogenlyase-2 complex

Abstract

SummaryPectobacterium atrosepticumSCRI1043 is a phytopathogenic gram-negative enterobacterium. Genomic analysis has identified that genes required for both respiration and fermentation are expressed under anaerobic conditions. One set of anaerobically expressed genes is predicted to encode an important but poorly-understood membrane-bound enzyme termed formate hydrogenlyase-2 (FHL-2), which has fascinating evolutionary links to the mitochondrial NADH dehydrogenase (Complex I). In this work, molecular genetic and biochemical approaches were taken to establish that FHL-2 is fully functional inP. atrosepticumand is the major source of molecular hydrogen gas generated by this bacterium. The FHL-2 complex was shown to comprise a rare example of an active [NiFe]-hydrogenase-4 (Hyd-4) isoenzyme, itself linked to an unusual selenium-free formate dehydrogenase in the final complex. In addition, further genetic dissection of the genes encoding the predicted membrane domain of FHL-2 established surprisingly that the majority of genes encoding this domain are not required for physiological hydrogen production activity. Overall, this study presentsP. atrosepticumas a new model bacterial system for understanding anaerobic formate and hydrogen metabolism in general, and FHL-2 function and structure in particular.Significance StatementPectobacterium atrospecticumcontains the genes for the formate hydrogenlyase-2 enzyme, considered the ancient progenitor of mitochondrial respiratory Complex I. In this study, the harnessing ofP. atrosepticumas a new model system for understanding bacterial hydrogen metabolism has accelerated new knowledge in FHL-2 and its component parts. Importantly, those component parts include an unusual selenium-free formate dehydrogenase and a complicated [NiFe]-hydrogenase-4 with a large membrane domain. FHL-2 is established as the major source of molecular hydrogen produced under anaerobic conditions byP. atrospectium, however surprisingly some components of the membrane domain were not essential for this activity.