Methanococcus voltae harbors four gene clusters potentially encoding two [NiFe] and two [NiFeSe] hydrogenases, each of the cofactor F420-reducing or F420-non-reducing types

Abstract

Four gene clusters were identified in Methanococcus voltae which probably all encode hydrogenases of the [NiFe] type. One of these contains four genes, including those for the three subunits of the known [NiFeSe] hydrogenase capable of reducing the natural deazaflavin cofactor F420. In a second homologous cluster, the gene encoding the subunit corresponding to that which contains selenium in the known enzyme has a cysteine codon in the relevant position. In addition, two more gene clusters were detected which are very similar both in gene order and sequence to one which encodes a hydrogenase that reduces viologens in Methanobacterium thermoautotrophicum, but whose natural electron acceptor is as yet unknown. Again, in one of these clusters, one of the structural genes, which codes for a hydrogenase subunit containing the putative Ni-binding site, contains a selenocysteine codon. The homologous gene in the other clusters again shows a cysteine codon in the corresponding location. The four gene clusters are closely linked. Those encoding the two selenium-free enzymes are arranged in opposite polarities with a relatively short intergenic region. This arrangement is discussed in terms of a possible joint transcriptional regulation.