Literature DB >> 18685111

Experimental approaches to kinetics of gas diffusion in hydrogenase.

Fanny Leroux1, Sébastien Dementin, Bénédicte Burlat, Laurent Cournac, Anne Volbeda, Stéphanie Champ, Lydie Martin, Bruno Guigliarelli, Patrick Bertrand, Juan Fontecilla-Camps, Marc Rousset, Christophe Léger.   

Abstract

Hydrogenases, which catalyze H(2) to H(+) conversion as part of the bioenergetic metabolism of many microorganisms, are among the metalloenzymes for which a gas-substrate tunnel has been described by using crystallography and molecular dynamics. However, the correlation between protein structure and gas-diffusion kinetics is unexplored. Here, we introduce two quantitative methods for probing the rates of diffusion within hydrogenases. One uses protein film voltammetry to resolve the kinetics of binding and release of the competitive inhibitor CO; the other is based on interpreting the yield in the isotope exchange assay. We study structurally characterized mutants of a NiFe hydrogenase, and we show that two mutations, which significantly narrow the tunnel near the entrance of the catalytic center, decrease the rates of diffusion of CO and H(2) toward and from the active site by up to 2 orders of magnitude. This proves the existence of a functional channel, which matches the hydrophobic cavity found in the crystal. However, the changes in diffusion rates do not fully correlate with the obstruction induced by the mutation and deduced from the x-ray structures. Our results demonstrate the necessity of measuring diffusion rates and emphasize the role of side-chain dynamics in determining these.

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Year:  2008        PMID: 18685111      PMCID: PMC2516266          DOI: 10.1073/pnas.0803689105

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


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  30 in total

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