1987
DOI: 10.1016/s0021-9258(18)61456-5
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Purification and characterization of carbon monoxide dehydrogenase, a nickel, zinc, iron-sulfur protein, from Rhodospirillum rubrum.

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Cited by 138 publications
(72 citation statements)
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“…The Coo hydrogenase cluster has been identified in 30 bacterial representatives, at particularly high frequency in Deltaproteobacteria (many sulfate reducers, e.g., Desulfovibrio vulgaris), Alpha-(e.g., Rhodospirillum rubrum) and Campylobacteria (Nautilia profundicola), Firmicutes (e.g., Carboxydothermus hydrogenoformans), Betaproteobacteria and Gammaproteobacteria (Schoelmerich and Müller, 2019). Phylogenetic analysis based on the large subunit CooH indicated that this hydrogenase was clustered together with those of R. rubrum, D. vulgaris and C. hydrogenoformans (Figure 6), which have been experimentally demonstrated to oxidize CO, producing carbon dioxide and hydrogen as products, through CooMKLXUHF complexes (Bonam and Ludden, 1987;Wu et al, 2005;Caffrey et al, 2007). Further, protein domain analyses by DELTA-BLAST and PSI-BLAST in NCBI showed that CooH contains three functional domains: two respiratory-chain NADH dehydrogenases and one nickel-dependent hydrogenase.…”
Section: Environmental Adaptations Of Sulfurimonas Revealed By Comparmentioning
confidence: 95%
“…The Coo hydrogenase cluster has been identified in 30 bacterial representatives, at particularly high frequency in Deltaproteobacteria (many sulfate reducers, e.g., Desulfovibrio vulgaris), Alpha-(e.g., Rhodospirillum rubrum) and Campylobacteria (Nautilia profundicola), Firmicutes (e.g., Carboxydothermus hydrogenoformans), Betaproteobacteria and Gammaproteobacteria (Schoelmerich and Müller, 2019). Phylogenetic analysis based on the large subunit CooH indicated that this hydrogenase was clustered together with those of R. rubrum, D. vulgaris and C. hydrogenoformans (Figure 6), which have been experimentally demonstrated to oxidize CO, producing carbon dioxide and hydrogen as products, through CooMKLXUHF complexes (Bonam and Ludden, 1987;Wu et al, 2005;Caffrey et al, 2007). Further, protein domain analyses by DELTA-BLAST and PSI-BLAST in NCBI showed that CooH contains three functional domains: two respiratory-chain NADH dehydrogenases and one nickel-dependent hydrogenase.…”
Section: Environmental Adaptations Of Sulfurimonas Revealed By Comparmentioning
confidence: 95%
“…The amino acid sequences of CodhAB were also homologous to the CooFS proteins (41.7% and 50.3% identity, respectively) in Rhodospirillum rubrum . CooF mediates electron transfer from the CODH catalytic subunit CooS to hydrogenase and interacts directly with CooS 34 , 35 ; hence, spontaneous enzyme complex formation of CodhA and CodhB is easily predictable. Accordingly, Fdh3C-CodhA and Fdh3B-CodhA were designed and constructed.…”
Section: Resultsmentioning
confidence: 99%
“…However, in term of performances for potential future applications, the catalytic efficiencies of these thermophilic enzymes are limited under ambient conditions. On the other hand, CODH from the mesophile bacterium R. rubrum has been largely characterized since the late 80s, 20,21,22,23 although studies have been limited in the last decade. R. rubrum possesses a single monofunctional CODH (homologue to ChCODH-I), involved in the water gas shift reaction (CO + H2O  CO2 + H2), enabling the bacterium to use CO as sole energy source.…”
Section: Efficient Electrochemical Co 2 /Co Interconversion By An Engineered Carbon Monoxide Dehydrogenase On a Gas-diffusion Carbon Nanomentioning
confidence: 99%