Literature DB >> 27654913

The architecture of respiratory supercomplexes.

James A Letts1, Karol Fiedorczuk1,2, Leonid A Sazanov1.   

Abstract

Mitochondrial electron transport chain complexes are organized into supercomplexes responsible for carrying out cellular respiration. Here we present three architectures of mammalian (ovine) supercomplexes determined by cryo-electron microscopy. We identify two distinct arrangements of supercomplex CICIII2CIV (the respirasome)-a major 'tight' form and a minor 'loose' form (resolved at the resolution of 5.8 Å and 6.7 Å, respectively), which may represent different stages in supercomplex assembly or disassembly. We have also determined an architecture of supercomplex CICIII2 at 7.8 Å resolution. All observed density can be attributed to the known 80 subunits of the individual complexes, including 132 transmembrane helices. The individual complexes form tight interactions that vary between the architectures, with complex IV subunit COX7a switching contact from complex III to complex I. The arrangement of active sites within the supercomplex may help control reactive oxygen species production. To our knowledge, these are the first complete architectures of the dominant, physiologically relevant state of the electron transport chain.

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Year:  2016        PMID: 27654913     DOI: 10.1038/nature19774

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  66 in total

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Authors:  B Chazotte; C R Hackenbrock
Journal:  J Biol Chem       Date:  1988-10-05       Impact factor: 5.157

Review 7.  Structural analysis of cytochrome bc1 complexes: implications to the mechanism of function.

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  171 in total

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Review 4.  Membrane protein structural biology in the era of single particle cryo-EM.

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Review 8.  A cell is more than the sum of its (dilute) parts: A brief history of quinary structure.

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9.  Structural basis of mitochondrial dysfunction in response to cytochrome c phosphorylation at tyrosine 48.

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Review 10.  Molecular and Supramolecular Structure of the Mitochondrial Oxidative Phosphorylation System: Implications for Pathology.

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