Monte Carlo backbone sampling for polypeptides with variable bond angles and dihedral angles using concerted rotations and a Gaussian bias

Jakob P.Ulmschneider; William L.Jorgensen

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Monte Carlo backbone sampling for polypeptides with variable bond angles and dihedral angles using concerted rotations and a Gaussian bias

机译：使用协同旋转和高斯偏差对具有可变键角和二面角的多肽进行蒙特卡洛主链采样

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An efficient concerted rotation algorithm for use in Monte Carlo statistical mechanics simulations of polypeptides is reported that includes flexible bond and dihedral angles. A Gaussian bias is applied with driver bonda nd dihedral angles to optimize the sampling efficiency. Jacobian weighting is required in the Metropolis test to correct for imbalances in resultant transition probabilities. Testing of the methodology includes Monte Carlo simulations for polyalanines with 8-14 residues and a 36-residue proten as well as a search to find the lowest-energy conformer of the pentapeptide Met-enkephalin. The results demonstrate the formal correctness and efficiency of the method.

机译：报道了一种有效的协调旋转算法，用于多肽的蒙特卡洛统计力学模拟，其中包括柔性键和二面角。高斯偏差与驱动器键和二面角一起应用，以优化采样效率。在Metropolis测试中，需要用Jacobian加权来校正最终过渡概率的不平衡。该方法的测试包括对具有8-14个残基和36个残基的蛋白质的聚丙氨酸的Monte Carlo模拟，以及寻找五肽Met-脑啡肽最低能量构象物的搜索。结果证明了该方法的形式正确性和有效性。

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《The Journal of Chemical Physics》 |2003年第9期|共11页
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Jakob P.Ulmschneider; William L.Jorgensen;
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1. Monte Carlo backbone sampling for polypeptides with variable bond angles and dihedral angles using concerted rotations and a Gaussian bias [J] . Jakob P.Ulmschneider, William L.Jorgensen The Journal of Chemical Physics . 2003,第9期

机译：使用协同旋转和高斯偏差对具有可变键角和二面角的多肽进行蒙特卡洛主链采样
2. Determination of Polypeptide Backbone Dihedral Angles in Solid State NMR by Double Quantum ~(13)C Chemical Shift Anisotropy Measurements [J] . Francisco J. Blanco, Robert Tycko Journal of magnetic resonance . 2001,第1期

机译：双量子〜（13）C化学位移各向异性测量法测定固态NMR中的多肽骨架二面角
3. Determination of Polypeptide Backbone Dihedral Angles in Solid State NMR by Double Quantum ~(13)C Chemical Shift Anisotropy Measurements [J] . Francisco J. Blanco, Robert Tycko JOM . 2001,第1期

机译：双量子〜（13）C化学位移各向异性测量法测定固态NMR中的多肽骨架二面角
4. RaptorX-Angle: real-value prediction ofprotein backbone dihedral angles through a hybrid method of clustering and deep learning [C] . Asia-Pacific Bioinformatics Conference . 2018

机译：Raptorx-Angle：通过混合和深度学习的杂交方法蛋白质骨干骨干角度的实际值预测
5. Refinement of simulated polymer-fullerene photovoltaic devices through small angle scattering and dynamic Monte Carlo. [D] . Olds, Daniel P. 2013

机译：通过小角度散射和动态蒙特卡洛改进模拟聚合物-富勒烯光伏器件。
6. Optimization of the additive CHARMM all-atom protein force field targeting improved sampling of the backbone φ ψ and side-chain χ1 and χ2 dihedral angles [O] . Robert B. Best, Xiao Zhu, Jihyun Shim, -1

机译：优化添加剂曲米全原子蛋白力场的靶向φ∞和侧链χ1和χ2二面角的改进的采样
7. Polypeptides Folding: Rules for the Calculation of the Backbone Dihedral Angles φ starting from the Amino Acid Sequence [O] . Michele Larocca 2020

机译：多肽折叠：从氨基酸序列开始计算骨干二面角角度的规则

Monte Carlo backbone sampling for polypeptides with variable bond angles and dihedral angles using concerted rotations and a Gaussian bias

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