未折叠蛋白质中局部相互作用的粗粒度势

Coarse-Grained Potentials for Local Interactions in Unfolded Proteins.

作者信息

Ghavami Ali, van der Giessen Erik, Onck Patrick R

机构信息

Micromechanics of Materials, Zernike Institute for Advanced Materials, University of Groningen , 9747 AG Groningen, The Netherlands.

出版信息

J Chem Theory Comput. 2013 Jan 8;9(1):432-40. doi: 10.1021/ct300684j. Epub 2012 Nov 16.

DOI:10.1021/ct300684j

PMID:26589045

Abstract

Recent studies have revealed the key role of natively unfolded proteins in many important biological processes. In order to study the conformational changes of these proteins, a one-bead-per-amino-acid coarse grained (CG) model is developed, and a method is proposed to extract the potential functions for the local interactions between CG beads. Experimentally obtained Ramachandran data for the coil regions of proteins are converted into distributions of pseudo-bond and pseudo-dihedral angles between neighboring alpha-carbons in the polypeptide chain. These are then used to derive bending and torsion potentials, which are residue and sequence specific. The validity of the developed model is testified by studying the radius of gyration as well as the hydrodynamic properties of chemically denatured proteins.

摘要

最近的研究揭示了天然未折叠蛋白在许多重要生物过程中的关键作用。为了研究这些蛋白的构象变化，开发了一种每个氨基酸一个珠子的粗粒化（CG）模型，并提出了一种方法来提取CG珠子之间局部相互作用的势能函数。实验获得的蛋白质卷曲区域的拉马钱德兰数据被转换为多肽链中相邻α-碳原子之间的伪键和伪二面角分布。然后利用这些数据推导出弯曲和扭转势能，这些势能是残基和序列特异性的。通过研究化学变性蛋白的回转半径以及流体动力学性质，验证了所开发模型的有效性。

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未折叠蛋白质中局部相互作用的粗粒度势

Coarse-Grained Potentials for Local Interactions in Unfolded Proteins.

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