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通过有限蛋白酶解和分子动力学模拟检测单体铜锌超氧化物歧化酶的灵活性

Flexibility in monomeric Cu,Zn superoxide dismutase detected by limited proteolysis and molecular dynamics simulation.

作者信息

Falconi M, Parrilli L, Battistoni A, Desideri A

机构信息

INFM and Department of Biology, University of Rome "Tor Vergata," Rome, Italy.

出版信息

Proteins. 2002 Jun 1;47(4):513-20. doi: 10.1002/prot.10094.

Abstract

Limited proteolysis by trypsin of monomeric Cu,Zn superoxide dismutase from Escherichia coli induces a specific cleavage of the polypeptide chain at the level of Lys60 located in the S-S subloop of loop 6,5 where, when compared to the eukaryotic enzyme, a seven-residues insertion, completely exposed to the solvent, is observed. This result suggests that this subloop is disordered and flexible, thus enabling binding and adaptation to the active site of the proteolytic enzyme. Indeed, molecular dynamics simulation indicates that the S-S subloop undergoes high fluctuations and that its high flexibility coupled to an high solvent accessibility can explain the specific bond selection of the protease. As a matter of fact, of the possible 14 solvent accessible proteolytic sites only the Lys60 flexible site is cleaved. High flexibility and solvent exposure are confirmed by the short water residence time for the residues corresponding to the cleavage site evaluated by molecular dynamics simulation. These experiments demonstrate that molecular dynamics simulation and limited proteolysis are complementary and unambiguous tools to identify flexible sites in proteins.

摘要

用胰蛋白酶对来自大肠杆菌的单体铜锌超氧化物歧化酶进行有限的蛋白水解,会导致多肽链在位于6,5环的S-S子环中的Lys60水平处发生特异性切割,与真核酶相比,在此处观察到一个完全暴露于溶剂的七肽插入。该结果表明该子环无序且灵活,从而能够结合并适应蛋白水解酶的活性位点。实际上,分子动力学模拟表明S-S子环经历了高波动,并且其高灵活性与高溶剂可及性相结合,可以解释蛋白酶的特异性键选择。事实上,在14个可能的溶剂可及蛋白水解位点中,只有Lys60这个灵活位点被切割。通过分子动力学模拟评估,对应于切割位点的残基的短水停留时间证实了高灵活性和溶剂暴露。这些实验表明,分子动力学模拟和有限的蛋白水解是识别蛋白质中灵活位点的互补且明确的工具。

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