变构调节
化学
二聚体
分子动力学
对接(动物)
过氧化物还原蛋白
半胱氨酸
同源建模
立体化学
配体(生物化学)
结合位点
氢键
蛋白质结构
单体
生物物理学
生物化学
计算化学
分子
受体
酶
生物
有机化学
过氧化物酶
聚合物
护理部
医学
作者
Minsup Kim,Keun Woo Lee,Art E. Cho
摘要
We used molecular dynamics (MD) simulations and protein docking to elucidate the mechanism of allosteric inhibition of the human form of peroxiredoxin (Prx), 2-Cys proliferation associated gene (PAG). Beginning by using the rat form of Prx, 2-Cys heme-binding protein as a template, we used homology modeling to find the structure of human 2-Cys PAG, which is in dimeric form. Molecular dynamics simulations showed that the structure of the reduced form of the 2-Cys PAG dimer fluctuates as the two monomers drift away and approach each other. We then used SiteMap to search for binding sites on the surface of this dimer. A binding site between the two monomers was found, and virtual screening with docking was performed to identify a ligand binding to this site. Subsequent MD simulation revealed that with this ligand in the binding site, the dimer structure of 2-Cys PAG becomes stabilized such that two cysteine residues from two monomers, which are partners of a disulfide bond of the oxidized form, remain separated. This mechanism can be used as an allosteric inhibition of Prx as a hydrogen peroxide reducer, the role of which has been studied as an anticancer drug target.
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