是什么使蛋白质L的IgG结合域折叠到天然状态:与物理定向能量函数耦合到拓扑诱导项的模拟研究

Computational Systems Bioinformatics. CSB2003. Proceedings of the 2003 IEEE Bioinformatics Conference. CSB2003 Pub Date : 2003-08-11 DOI:10.1109/CSB.2003.1227370

Seung Yup Lee, Y. Fujitsuka, S. Takada, Do Hyun Kim

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引用次数: 0

摘要

用粗粒度链表示的过阻尼朗格万动力学模拟了由62个残基组成的蛋白L的IgG结合域的折叠途径和机制。物理导向的有效能量函数(EEFs)用于序列特异性相互作用以及拓扑诱导能量，使总能量偏向于原生盆地。在折叠过程中，我们观察到N端发夹的优先形成和结构对称性的破坏。在平衡抽样和直方图法计算的自由能剖面中，清晰地显示了具有过渡态(TS)的两态折叠场景。在TS体系中，N端发夹已经形成，而C端发夹和α螺旋尚未形成。预测结果与实验数据完全一致。此外，通过简化模型研究，我们发现许多物理相互作用中的疏水性和次级局部倾向显著地决定了整体折叠路径。

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What makes IgG binding domain of protein L fold up to native state: a simulation study with physical oriented energy functions coupled to topology induced terms

The folding pathways and mechanisms of IgG binding domain of protein L composed of 62 residues are simulated by an over-damped Langevin dynamics with a coarse-grained chain representation. Physical oriented effective energy functions (EEFs) are employed for sequence-specific interactions as well as topology induced energies to bias overall energies to native basin. We observed the preferential formation of N terminal hairpin and the break of structural symmetry during folding. In the free energy profile calculated from equilibrium sampling and histogram method, it clearly shows two state folding scenario with transition state (TS). In the TS regime, N terminal hairpin already forms whereas C terminal hairpin and alpha helix are not structured yet. The predicted results are fully consistent with experimental data. Moreover, we found that hydrophobicity and secondary local propensity among many physical interactions determine the overall folding routes significantly by reduced model studies.

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来源期刊

Computational Systems Bioinformatics. CSB2003. Proceedings of the 2003 IEEE Bioinformatics Conference. CSB2003

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