Abstract
The essential role of the small (HoxK) subunit of hydrogenase of Azotobacter vinelandii in H2 oxidation was established. This was achieved by modification of the two Cys-X2-Cys amino acid motifs at the N and C termini of the HoxK subunit (Cys-62, -65, -294, and -297). The Cys codons were individually mutated to Ser codons. Modifications in these two motifs resulted in loss of hydrogenase activity. At the N terminus, the mutations of the codons for the motif Cys-62-Thr-Cys-64-Cys-65 decreased the activity of hydrogenase to levels no higher than 30% of those of the parental strain. H2 oxidation with the alternate electron acceptors methylene blue and benzyl viologen was decreased. H2 evolution and exchange activities were also affected. Cys-64 possibly substitutes for either Cys-62 or Cys-65, allowing for partial activity. Mutation of the codons for Cys-294 and Cys-297 to Ser codons resulted in no hydrogenase activity. The results are consistent with alterations of the ligands of FeS clusters in the HoxK subunit of hydrogenase [corrected].
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