In Methanococcus voltae, one of the two [NiFeSe] hydrogenases is unusual in that the large subunit is split into two subunits, each contributing two ligands to the [NiFe] center that catalyzes the heterolytic cleavage of the dihydrogen molecule. We have engineered a fusion of these two subunits. The resulting new enzyme showed no significant difference in hydrogen uptake activity or in the Ni-C or Ni-L EPR spectra compared to the the wild-type enzyme, but exhibited a tenfold increase in both the Km for hydrogen and the Ki for the competitive inhibitor carbon monoxide.