Nickel is a component of hydrogenase in Rhizobium japonicum.

The derepression of H2-oxidizing activity in free-living Rhizobium japonicum does not require the addition of exogenous metal to the derepression media. However, the addition of EDTA (6 microM) inhibited derepression of H2 uptake activity by 80%. The addition of 5 microM nickel to the derepression medium overcame the EDTA inhibition. The addition of 5 microM Cu or Zn also relieved EDTA inhibition, but to a much lesser extent; 5 microM Fe, Co, Mg, or Mn did not. The kinetics of induction and magnitude of H2 uptake activity in the presence of EDTA plus Ni were similar to those of normally derepressed cells. Nickel also relieved EDTA inhibition of methylene blue-dependent Hup activity, suggesting that nickel is involved directly with the H2-activating hydrogenase enzyme. Adding nickel or EDTA to either whole cells or crude extracts after derepression did not affect the hydrogenase activity. Cells were grown in 63Ni and the hydrogenase was subsequently purified by gel electrophoresis. 63Ni comigrated with the H2-dependent methylene blue reducing activity on native polyacrylamide gels and native isoelectric focusing gels. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of the nickel-containing hydrogenase band revealed a single polypeptide with a molecular weight of ca. 67,000. We conclude that the hydrogenase enzyme in R. japonicum is a nickel-containing metalloprotein.