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Uncovering the underlying physical mechanisms of biological systems via quantification of landscape and flux 下载免费PDF全文
In this review, we explore the physical mechanisms of biological processes such as protein folding and recognition,ligand binding, and systems biology, including cell cycle, stem cell, cancer, evolution, ecology, and neural networks. Our approach is based on the landscape and flux theory for nonequilibrium dynamical systems. This theory provides a unifying principle and foundation for investigating the underlying mechanisms and physical quantification of biological systems. 相似文献
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在HIV-1整合酶(IN)和5CITEP复合物晶体结构的基础上, 用分子对接程序(Affinity)将含有单Mg2+和双Mg2+ 的HIV-1 IN核心区与抑制剂5CITEP进行对接, 获得了能形成复合物结构的理论模型. 通过配体与受体之间的相互作用能和结构分析给出此种抑制剂的结合模式, 并与晶体结构进行比较, 揭示出引入的第二个Mg2+原子在整合过程中所起的重要作用. 前后相互作用能的变化趋势很明显, 配体和受体的作用模式比单Mg2+体系更加清晰. 由单Mg2+体系的4种作用方式改变到双Mg2+体系的两种作用方式, 相互作用能提高了将近40 kJ/mol. 为基于整合酶结构的药物设计提供了参考信息. 相似文献
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