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3OMN

Catalytic core subunits (I and II) of cytochrome C oxidase from Rhodobacter sphaeroides with D132A mutation in the reduced state

Summary for 3OMN
Entry DOI10.2210/pdb3omn/pdb
Related2GSM 3FYE 3OM3 3OMA 3OMI
DescriptorCytochrome c oxidase, aa3 type, subunit I, CHLORIDE ION, (2S,3R)-heptane-1,2,3-triol, ... (13 entities in total)
Functional Keywordstransmembrane protein complex, oxidoreductase
Biological sourceRhodobacter sphaeroides 2.4.1
More
Cellular locationCell membrane ; Multi-pass membrane protein : Q3J5A7 Q3J5G0
Total number of polymer chains4
Total formula weight187819.55
Authors
Liu, J.,Qin, L.,Ferguson-Miller, S. (deposition date: 2010-08-27, release date: 2011-02-02, Last modification date: 2024-11-06)
Primary citationLiu, J.,Qin, L.,Ferguson-Miller, S.
Crystallographic and online spectral evidence for role of conformational change and conserved water in cytochrome oxidase proton pump.
Proc.Natl.Acad.Sci.USA, 108:1284-1289, 2011
Cited by
PubMed Abstract: Crystal structures in both oxidized and reduced forms are reported for two bacterial cytochrome c oxidase mutants that define the D and K proton paths, showing conformational change in response to reduction and the loss of strategic waters that can account for inhibition of proton transfer. In the oxidized state both mutants of the Rhodobacter sphaeroides enzyme, D132A and K362M, show overall structures similar to wild type, indicating no long-range effects of mutation. In the reduced state, the mutants show an altered conformation similar to that seen in reduced wild type, confirming this reproducible, reversible response to reduction. In the strongly inhibited D132A mutant, positions of residues and waters in the D pathway are unaffected except in the entry region close to the mutation, where a chloride ion replaces the missing carboxyl and a 2-Å shift in N207 results in loss of its associated water. In K362M, the methionine occupies the same position as the original lysine, but K362- and T359-associated waters in the wild-type structure are missing, likely accounting for the severe inhibition. Spectra of oxidized frozen crystals taken during X-ray radiation show metal center reduction, but indicate development of a strained configuration that only relaxes to a native form upon annealing. Resistance of the frozen crystal to structural change clarifies why the oxidized conformation is observable and supports the conclusion that the reduced conformation has functional significance. A mechanism is described that explains the conformational change and the incomplete response of the D-path mutant.
PubMed: 21205904
DOI: 10.1073/pnas.1012846108
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.15 Å)
Structure validation

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