Monte Carlo simulation study of thermal fluctuations and conformational energy surface of a small protein, basic pancreatic trypsin inhibitor

Tosiyuki Noguti , Nobuhiro Gō , Tatsuo Ool , Ken Nishikawa
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引用次数: 10

Abstract

The conformational energy surface of a small protein, basic pancreatic trypsin inhibitor, is studied to characterize small-amplitude thermal fluctuations in the protein molecule. In order to see the shape of the conformational energy surface near the energy minimum point, the thermal equilibrium of the molecule is simulated by the Monte Carlo method of Metropolis et al. From the sample of the equilibrium population, which reflects the shape of the energy surface, orthogonal directions are generated in the conformational space, and the conformational energy is actually calculated along these directions. All energy profiles along these directions are found to be approximately a parabola within the range of thermal fluctuations, which suggests the possibility of harmonic approximation to the conformational energy surface of the globular protein.

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一种碱性胰蛋白酶抑制剂小蛋白表面热波动和构象能的蒙特卡罗模拟研究
研究了碱性胰蛋白酶抑制剂小蛋白的构象能面,以表征蛋白质分子中的小幅度热波动。为了看到能量最小点附近的构象能面形状,采用Metropolis等人的蒙特卡罗方法模拟了分子的热平衡。从反映能量面形状的平衡居群样本中,在构象空间中生成正交方向,并实际沿这些方向计算构象能。在热波动范围内,沿这些方向的所有能量分布都近似为抛物线,这表明球形蛋白质的构象能面可能存在谐波近似。
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