Literature DB >> 26330610

Redox-induced activation of the proton pump in the respiratory complex I.

Vivek Sharma1, Galina Belevich2, Ana P Gamiz-Hernandez3, Tomasz Róg1, Ilpo Vattulainen4, Marina L Verkhovskaya2, Mårten Wikström2, Gerhard Hummer5, Ville R I Kaila6.   

Abstract

Complex I functions as a redox-linked proton pump in the respiratory chains of mitochondria and bacteria, driven by the reduction of quinone (Q) by NADH. Remarkably, the distance between the Q reduction site and the most distant proton channels extends nearly 200 Å. To elucidate the molecular origin of this long-range coupling, we apply a combination of large-scale molecular simulations and a site-directed mutagenesis experiment of a key residue. In hybrid quantum mechanics/molecular mechanics simulations, we observe that reduction of Q is coupled to its local protonation by the His-38/Asp-139 ion pair and Tyr-87 of subunit Nqo4. Atomistic classical molecular dynamics simulations further suggest that formation of quinol (QH2) triggers rapid dissociation of the anionic Asp-139 toward the membrane domain that couples to conformational changes in a network of conserved charged residues. Site-directed mutagenesis data confirm the importance of Asp-139; upon mutation to asparagine the Q reductase activity is inhibited by 75%. The current results, together with earlier biochemical data, suggest that the proton pumping in complex I is activated by a unique combination of electrostatic and conformational transitions.

Entities:  

Keywords:  NADH-quinone oxidoreductase; QM/MM simulations; cell respiration; electron transfer; molecular dynamics simulations

Mesh:

Substances:

Year:  2015        PMID: 26330610      PMCID: PMC4577180          DOI: 10.1073/pnas.1503761112

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


  52 in total

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Authors:  Leonid A Sazanov; Rozbeh Baradaran; Rouslan G Efremov; John M Berrisford; Gurdeep Minhas
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10.  Conserved amino acid residues of the NuoD segment important for structure and function of Escherichia coli NDH-1 (complex I).

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Journal:  Biochemistry       Date:  2015-01-13       Impact factor: 3.162
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  43 in total

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Review 3.  Architecture of bacterial respiratory chains.

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4.  Symmetry-related proton transfer pathways in respiratory complex I.

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6.  Insights into functions of the H channel of cytochrome c oxidase from atomistic molecular dynamics simulations.

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7.  Correlating kinetic and structural data on ubiquinone binding and reduction by respiratory complex I.

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10.  Mitochondrial complex I structure reveals ordered water molecules for catalysis and proton translocation.

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