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一种具有各向异性氢键的粗粒度α-碳蛋白质模型。

A coarse-grained alpha-carbon protein model with anisotropic hydrogen-bonding.

作者信息

Yap Eng-Hui, Fawzi Nicolas Lux, Head-Gordon Teresa

机构信息

UCSF/UCB Joint Graduate Group in Bioengineering, Berkeley, California 94720, USA.

出版信息

Proteins. 2008 Feb 15;70(3):626-38. doi: 10.1002/prot.21515.

DOI:10.1002/prot.21515
PMID:17879350
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3474853/
Abstract

We develop a sequence based alpha-carbon model to incorporate a mean field estimate of the orientation dependence of the polypeptide chain that gives rise to specific hydrogen bond pairing to stabilize alpha-helices and beta-sheets. We illustrate the success of the new protein model in capturing thermodynamic measures and folding mechanism of proteins L and G. Compared to our previous coarse-grained model, the new model shows greater folding cooperativity and improvements in designability of protein sequences, as well as predicting correct trends for kinetic rates and mechanism for proteins L and G. We believe the model is broadly applicable to other protein folding and protein-protein co-assembly processes, and does not require experimental input beyond the topology description of the native state. Even without tertiary topology information, it can also serve as a mid-resolution protein model for more exhaustive conformational search strategies that can bridge back down to atomic descriptions of the polypeptide chain.

摘要

我们开发了一种基于序列的α-碳模型,以纳入多肽链取向依赖性的平均场估计,这种取向依赖性会产生特定的氢键配对,从而稳定α-螺旋和β-折叠。我们展示了新蛋白质模型在捕捉蛋白质L和G的热力学测量值和折叠机制方面的成功。与我们之前的粗粒度模型相比,新模型显示出更大的折叠协同性,蛋白质序列的可设计性也有所提高,同时还能预测蛋白质L和G的动力学速率和机制的正确趋势。我们相信该模型广泛适用于其他蛋白质折叠和蛋白质-蛋白质共组装过程,并且除了天然状态的拓扑描述之外不需要实验输入。即使没有三级拓扑信息,它也可以作为一种中等分辨率的蛋白质模型,用于更详尽的构象搜索策略,这些策略可以回溯到多肽链的原子描述。

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