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Molecular cloning of the isoquinoline 1-oxidoreductase genes from Pseudomonas diminuta 7, structural analysis of iorA and iorB, and sequence comparisons with other molybdenum-containing hydroxylases.
The iorA and iorB genes from the isoquinoline-degrading bacterium Pseudomonas diminuta 7, encoding the heterodimeric molybdo-iron-sulfur-protein isoquinoline 1-oxidoreductase, were cloned and sequenced. The deduced amino acid sequences IorA and IorB showed homologies (i) to the small (gamma) and large (alpha) subunits of complex molybdenum-containing hydroxylases (alpha beta gamma/alpha 2 beta 2 gamma 2) possessing a pterin molybdenum cofactor with a monooxo-monosulfido-type molybdenum center, (ii) to the N- and C-terminal regions of aldehyde oxidoreductase from Desulfovibrio gigas, and (iii) to the N- and C-terminal domains of eucaryotic xanthine dehydrogenases, respectively. The closest similarity to IorB was shown by aldehyde dehydrogenase (Adh) from the acetic acid bacterium Acetobacter polyoxogenes. Five conserved domains of IorB were identified by multiple sequence alignments. Whereas IorB and Adh showed an identical sequential arrangement of these conserved domains, in all other molybdenum-containing hydroxylases the relative position of "domain A" differed. IorA contained eight conserved cysteine residues. The amino acid pattern harboring the four cysteine residues proposed to ligate the Fe/S I cluster was homologous to the consensus binding site of bacterial and chloroplast-type [2Fe-2S] ferredoxins, whereas the pattern including the four cysteines assumed to ligate the Fe/S II center showed no similarities to any described [2Fe-2S] binding motif. The N-terminal region of IorB comprised a putative signal peptide similar to typical leader peptides, indicating that isoquinoline 1-oxidoreductase is associated with the cell membrane.[1]References
- Molecular cloning of the isoquinoline 1-oxidoreductase genes from Pseudomonas diminuta 7, structural analysis of iorA and iorB, and sequence comparisons with other molybdenum-containing hydroxylases. Lehmann, M., Tshisuaka, B., Fetzner, S., Lingens, F. J. Biol. Chem. (1995) [Pubmed]
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