The NADP-reducing hydrogenase of Desulfovibrio fructosovorans: evidence for a native complex with hydrogen-dependent methyl-viologen-reducing activity.

The NADP-reducing hydrogenase of Desulfovibrio fructosovorans represents a novel class of [Fe] hydrogenases which is encoded by the well-characterized hndABCD operon containing the genes hndA, hndB, hndC, and hndD. Expression of this operon, monitored by measuring the NADP-reducing activity, was found to be maximum during the exponential phase of growth on fructose and then decreased when the concentration of the carbon and energy source became limiting. The optimum pH for the H2-driven NADP reduction was 8, and the apparent K(m) and Vmax were determined to be 0.09 mM and 13 x 10(-3) u/mg, respectively. Heterologous expression of the hnd genes in Escherichia coli was carried out to raise antisera against the different subunits of the NADP-reducing hydrogenase. The antisera were used to detect the four subunits in cell extract of D. fructosovorans after separation by SDS- and native PAGE. The four subunits of the NADP-reducing hydrogenase were demonstrated to be associated in a complex which exhibited H2-driven methyl viologen reduction. Furthermore, on native gel, a form lacking HndD, with no hydrogen-dependent methyl viologen reductase activity was also shown to be present in D. fructosovorans.