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Literature DB >> 12906825

Structure of fully reduced bovine copper zinc superoxide dismutase at 1.15 A.

Abstract

Copper zinc superoxide dismutase (CuZnSOD) forms a crucial component of the cellular response to oxidative stress by catalyzing the dismutation of the superoxide radical to hydrogen peroxide and water. Mutations in human CuZnSOD are associated with the development of familial amyotrophic lateral sclerosis (motor neuron disease). We have determined the structure of fully reduced bovine CuZnSOD to 1.15 A, the only atomic resolution structure for an intact CuZnSOD and one of only a small number for metalloproteins. For the first time, both subunits have been captured with the three coordinate Cu(I) ligation required by the generally accepted catalytic mechanism, where dismutation of the superoxide radical occurs via reduction of Cu. Furthermore, the improved resolution compared to previous studies (to 1.65 A) has allowed a more detailed examination of the metal center environment and its associated water network in the active site channel, facilitating the analysis of potential proton transfer routes.

Entities: Chemical Disease Gene Species

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Year: 2003 PMID： 12906825 DOI： 10.1016/s0969-2126(03)00155-2

Source DB: PubMed Journal: Structure ISSN： 0969-2126 Impact factor: 5.006

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Cited

14 in total

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Authors: J J P Perry; D S Shin; E D Getzoff; J A Tainer
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Review 5. Activation of dioxygen by copper metalloproteins and insights from model complexes.

Authors: David A Quist; Daniel E Diaz; Jeffrey J Liu; Kenneth D Karlin
Journal: J Biol Inorg Chem Date: 2016-12-05 Impact factor: 3.358

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8. Infrared spectroscopic characterization of copper-polyhistidine from 1,800 to 50 cm(-1): model systems for copper coordination.

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9. Superoxide dismutase from the eukaryotic thermophile Alvinella pompejana: structures, stability, mechanism, and insights into amyotrophic lateral sclerosis.

Authors: David S Shin; Michael Didonato; David P Barondeau; Greg L Hura; Chiharu Hitomi; J Andrew Berglund; Elizabeth D Getzoff; S Craig Cary; John A Tainer
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10. Loss of metal ions, disulfide reduction and mutations related to familial ALS promote formation of amyloid-like aggregates from superoxide dismutase.

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Journal: PLoS One Date: 2009-03-27 Impact factor: 3.240