Molecular dynamics simulations of helix bundle proteins using unres force field and all-atom force field

Gao K.; Yang M.

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Molecular dynamics simulations of helix bundle proteins using unres force field and all-atom force field

机译：使用unres力场和全原子力场的螺旋束蛋白的分子动力学模拟

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摘要

We have investigated the folding of two helix-bundle proteins, 36-residue Villin headpiece and 56-residue E-domain of Staphylococcal protein A, by combining molecular dynamics (MD) simulations with Coarse-Grained United-Residue (UNRES) Force Field and all-atom force field. Starting from extended structures, each of the proteins was folded to a stable structure within a short time frame using the UNRES model. However, the secondary structures of helices were not well formed. Further refinement using MD simulations with the all-atom force field was able to fold the protein structure into the native-like state with the smallest main-chain root-mean-square deviation of around 3 ?. Detailed analysis of the folding trajectories was presented and the performance of GPU-based MD simulations was also discussed.

机译：我们通过结合分子动力学（MD）模拟与粗粒联合残基（UNRES）力场和分子动力学研究了两种螺旋束蛋白质，葡萄球菌蛋白A的36个残基Villin头域和56个残基E域的折叠。全原子力场。从扩展的结构开始，使用UNRES模型在短时间内将每种蛋白质折叠成稳定的结构。但是，螺旋的二级结构没有很好地形成。使用全原子力场的MD模拟进行进一步精炼，可以使蛋白质结构折叠成天然状态，主链的均方根最小偏差约为3？。给出了折叠轨迹的详细分析，还讨论了基于GPU的MD仿真的性能。

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《Journal of theoretical & computational chemistry》 |2012年第6期|共15页
作者
Gao K.; Yang M.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
coarse-graining; GPU; Protein folding; UNRES force field;

机译：粗粒度GPU蛋白质折叠UNRES力场;

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专利

1. MOLECULAR DYNAMICS SIMULATIONS OF HELIX BUNDLE PROTEINS USING UNRES FORCE FIELD AND ALL-ATOM FORCE FIELD [J] . KAIFU GAO, MINGHUI YANG Journal of Theoretical and Computational Chemistry . 2012,第6期

机译：螺旋束蛋白分子动力学的无力场和全原子力场模拟
2. Implementation of Molecular Dynamics and Its Extensions with the Coarse-Grained UNRES Force Field on Massively Parallel Systems: Toward Millisecond-Scale Simulations of Protein Structure, Dynamics, and Thermodynamics [J] . Adam Liwo, Stanistaw Otdziej, Cezary Czaplewski Journal of chemical theory and computation: JCTC . 2010,第3期

机译：大规模并行系统上粗粒度UNRES力场的分子动力学及其扩展的实现：蛋白质结构，动力学和热力学的毫秒级模拟
3. Parametrization of Backbone Flexibility in a Coarse-Grained Force Field for Proteins (COFFDROP) Derived from All-Atom Explicit-Solvent Molecular Dynamics Simulations of All Possible Two-Residue Peptides [J] . Frembgen-Kesner Tamara, Andrews Casey T., Li Shuxiang, Journal of chemical theory and computation: JCTC . 2015,第5期

机译：来自所有可能的两个残基肽的全原子显式溶剂分子动力学模拟的粗粒力场中蛋白质（COFFDROP）的主干柔韧性参数化
4. Low Energy Conformations of a Three-Helix Peptide in an All-Atom Biomolecular Forcefield [C] . Nanotechnology conference and trade show . 2003

机译：在全原子生物分子力场中的三螺旋肽的低能量构象
5. Molecular dynamics simulation studies of DNA and proteins: Force field parameter development for small ligands and convergence analysis for simulations of biomolecules. [D] . Loccisano, Anne Elizabeth. 2007

机译：DNA和蛋白质的分子动力学模拟研究：用于小配体的力场参数开发和用于生物分子模拟的收敛性分析。
6. Implementation of molecular dynamics and its extensions with the coarse-grained UNRES force field on massively parallel systems; towards millisecond-scale simulations of protein structure dynamics and thermodynamics [O] . Adam Liwo, Stanisław Ołdziej, Cezary Czaplewski, -1

机译：在大规模平行系统上与粗粒云强力场的实施分子动力学及其延伸;朝向毫秒模拟蛋白质结构动力学和热力学模拟
7. Implementation of Molecular Dynamics and Its Extensions with the Coarse-Grained UNRES Force Field on Massively Parallel Systems: Toward Millisecond-Scale Simulations of Protein Structure, Dynamics, and Thermodynamics [O] . Adam Liwo, Stanisław Ołdziej, Cezary Czaplewski, 2010

机译：在大规模平行系统上实现分子动力学及其与粗粒性云强力场的延伸：朝向毫秒模拟蛋白质结构，动力学和热力学模拟

Molecular dynamics simulations of helix bundle proteins using unres force field and all-atom force field

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