A Universal Scaffold for Synthesis of the Fe(CN)2(CO) Moiety of [NiFe] Hydrogenase |
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| Authors: | Ingmar Bürstel Elisabeth Siebert Gordon Winter Philipp Hummel Ingo Zebger B?rbel Friedrich Oliver Lenz |
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| Affiliation: | From ‡the Institut für Biologie/Mikrobiologie, Humboldt-Universität zu Berlin, Chausseestrasse 117,10115 Berlin and ;§the Max-Volmer-Laboratorium, Technische Universität Berlin, Strasse des 17 Juni 135, 10623 Berlin, Germany |
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| Abstract: | Hydrogen-cycling [NiFe] hydrogenases harbor a dinuclear catalytic center composed of nickel and iron ions, which are coordinated by four cysteine residues. Three unusual diatomic ligands in the form of two cyanides (CN−) and one carbon monoxide (CO) are bound to the iron and apparently account for the complexity of the cofactor assembly process, which involves the function of at least six auxiliary proteins, designated HypA, -B, -C, -D, -E, and -F. It has been demonstrated previously that the HypC, -D, -E, and -F proteins participate in cyanide synthesis and transfer. Here, we show by infrared spectroscopic analysis that the purified HypCD complexes from Ralstonia eutropha and Escherichia coli carry in addition to both cyanides the CO ligand. We present experimental evidence that in vivo the attachment of the CN− ligands is a prerequisite for subsequent CO binding. With the aid of genetic engineering and subsequent mutant analysis, the functional role of conserved cysteine residues in HypD from R. eutropha was investigated. Our results demonstrate that the HypCD complex serves as a scaffold for the assembly of the Fe(CN)2(CO) entity of [NiFe] hydrogenase. |
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| Keywords: | Carbon Monoxide Energy Metabolism Enzyme Catalysis Metalloenzymes Molecular Biology Mutagenesis Site-specific Spectroscopy Enzyme Maturation Hydrogenase Infrared Spectroscopy |
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