Robert L. Robson

Carboxyl-terminal processing may be essential for production of active NiFe hydrogenase in Azotobacter vinelandii.

The NiFe hydrogenase from Azotobacter vinelandii is a membrane‐bound αβ heterodimer that can oxidize H2 to protons and electrons and thereby provide energy. Genes encoding the α and β subunits, hoxG and hoxK respectively, followed by thirteen contiguous accessory genes potentially involved in H2 oxidation, have been previously sequenced. Mutations in some of these accessory genes give rise to inactive enzyme containing an α subunit with decreased electrophoretic mobility. Mass spectral analysis of the subunits demonstrated that the α subunit had a molecular weight 1,663 Da less than that predicted from hoxG. Since the N‐terminal sequence of the purified α subunit matches the sequence predicted from hoxG we suggest this difference is due to removal of the C‐terminus of the α subunit which may be an important step linked to metal insertion, localization, and formation of active hydrogenase.

Carboxy-terminal processing of the large subunit of [NiFe] hydrogenases

Two electrophoretic forms of the large subunit of the soluble periplasmic [NiFe] hydrogenase from Desulfovibrio gigas have been detected by Western analysis. The faster moving form co‐migrates with the large subunit from purified, active enzyme. Amino acid sequence and composition of the C‐terminal tryptic peptide of the large subunit from purified hydrogenase revealed that it is 15 amino acids shorter than that predicted by the nucleotide sequence. Processing of the nascent large subunit occurs by C‐terminal cleavage between His536 and Val537, residues which are highly conserved among [NiFe] hydrogenases. Mutagenesis of the analogous residues, His582 and Val583, in the E. coli hydrogenase‐1 (HYD1) large subunit resulted in significant decrease in processing and HYD1 activity.

Cloning, sequencing and characterization of the [NiFe]hydrogenase-encoding structural genes (hoxK and hoxG) from Azotobacter vinelandii

The Azotobacter vinelandii [NiFe]hydrogenase-encoding structural genes were isolated from an A. vinelandii genomic cosmid library. Nucleotide (nt) sequence analysis showed that the two genes, hoxK and hoxG, which encode the small and large subunits of the enzyme, respectively, form part of an operon that contains at least one other gene. The hoxK gene encodes a polypeptide of 358 amino acids (aa) (39,209 Da). The deduced aa sequence encodes a possible 45-aa N-terminus extension, not present in the purified A. vinelandii hydrogenase small subunit, which could be a cellular targeting sequence. The hoxG gene is downstream form, and overlaps hoxK by 4 nt and encodes a 602-aa polypeptide of 66,803 Da. The hoxK and hoxG gene products display homology to aa sequences of hydrogenase small and large subunits, respectively, from other organisms. The hoxG gene lies 16 nt upstream from a third open reading frame which could encode a 27,729-Da (240-aa) hydrophobic polypeptide containing 53% nonpolar and 11% aromatic aa. The significance of this possible third gene is not known at present.

The nifH gene encoding the Fe protein component of the molybdenum nitrogenase from Azotobacter chroococcum

The nucleotide sequence spanning the nifH gene and part of the nifD gene encoding the molybdenum nitrogenase from Azotobacter chroococcum was determined. The transcription start point of the nifH promoter was mapped, and a potential transcriptional attenuator was located between the nifH and nifD genes.