能量景观理论、漏斗、特异性及生物分子结合的最优标准。

Energy landscape theory, funnels, specificity, and optimal criterion of biomolecular binding.

作者信息

Wang Jin, Verkhivker Gennady M

机构信息

State Key Laboratory of Electroanalytical Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, Jilin 130021, People's Republic of China.

出版信息

Phys Rev Lett. 2003 May 9;90(18):188101. doi: 10.1103/PhysRevLett.90.188101. Epub 2003 May 6.

DOI:10.1103/PhysRevLett.90.188101

PMID:12786043

Abstract

We study the nature of biomolecular binding. We found that in general there exists several thermodynamic phases: a native binding phase, a non-native phase, and a glass or local trapping phase. The quantitative optimal criterion for the binding specificity is found to be the maximization of the ratio of the binding transition temperature versus the trapping transition temperature, or equivalently the ratio of the energy gap of binding between the native state and the average non-native states versus the dispersion or variance of the non-native states. This leads to a funneled binding energy landscape.

摘要

我们研究生物分子结合的本质。我们发现，一般来说存在几个热力学相：天然结合相、非天然相以及玻璃态或局部捕获相。发现结合特异性的定量最优标准是结合转变温度与捕获转变温度之比的最大化，或者等效地，是天然态与平均非天然态之间结合能隙与非天然态的离散度或方差之比的最大化。这导致了一种漏斗状的结合能景观。

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能量景观理论、漏斗、特异性及生物分子结合的最优标准。

Energy landscape theory, funnels, specificity, and optimal criterion of biomolecular binding.

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能量景观理论、漏斗、特异性及生物分子结合的最优标准。

Energy landscape theory, funnels, specificity, and optimal criterion of biomolecular binding.

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出版信息

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