用于马提尼粗粒度蛋白质力场的改进参数

Improved Parameters for the Martini Coarse-Grained Protein Force Field.

作者信息

de Jong Djurre H, Singh Gurpreet, Bennett W F Drew, Arnarez Clement, Wassenaar Tsjerk A, Schäfer Lars V, Periole Xavier, Tieleman D Peter, Marrink Siewert J

机构信息

Groningen Biomolecular Sciences and Biotechnology Institute and Zernike Institute for Advanced Materials, University of Groningen, Nijenborgh 7, 9747 AG Groningen, The Netherlands.

Department of Biological Sciences and Institute for Biocomplexity and Informatics, University of Calgary, 2500 University Dr. NW, Calgary, AB, Canada, T2N 1N4.

出版信息

J Chem Theory Comput. 2013 Jan 8;9(1):687-97. doi: 10.1021/ct300646g. Epub 2012 Nov 28.

DOI:10.1021/ct300646g

PMID:26589065

Abstract

The Martini coarse-grained force field has been successfully used for simulating a wide range of (bio)molecular systems. Recent progress in our ability to test the model against fully atomistic force fields, however, has revealed some shortcomings. Most notable, phenylalanine and proline were too hydrophobic, and dimers formed by polar residues in apolar solvents did not bind strongly enough. Here, we reparametrize these residues either through reassignment of particle types or by introducing embedded charges. The new parameters are tested with respect to partitioning across a lipid bilayer, membrane binding of Wimley-White peptides, and dimerization free energy in solvents of different polarity. In addition, we improve some of the bonded terms in the Martini protein force field that lead to a more realistic length of α-helices and to improved numerical stability for polyalanine and glycine repeats. The new parameter set is denoted Martini version 2.2.

摘要

Martini粗粒化力场已成功用于模拟各种（生物）分子系统。然而，我们在根据全原子力场测试该模型方面的最新进展揭示了一些不足之处。最显著的是，苯丙氨酸和脯氨酸的疏水性过强，并且在非极性溶剂中由极性残基形成的二聚体结合不够紧密。在此，我们通过重新分配粒子类型或引入嵌入电荷对这些残基进行重新参数化。针对跨脂质双层的分配、Wimley-White肽的膜结合以及在不同极性溶剂中的二聚自由能对新参数进行了测试。此外，我们改进了Martini蛋白质力场中的一些键合项，这些键合项使得α-螺旋的长度更符合实际，并提高了聚丙氨酸和甘氨酸重复序列的数值稳定性。新的参数集被称为Martini 2.2版。

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用于马提尼粗粒度蛋白质力场的改进参数

Improved Parameters for the Martini Coarse-Grained Protein Force Field.

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