微过氧化物酶水溶液的ABEEM/MM动力学模拟

应用原子-键电负性均衡浮动电荷分子力场(ABEEM/MM), 对微过氧化物酶水溶液进行了分子动力学模拟. 研究了水溶液对微过氧化物酶的结构, 血红素的皱裂构象以及轴配体咪唑基的取向的影响. 结果表明, 在水溶液中微过氧化物酶的骨架氨基酸是稳定的, 而血红素的皱裂构象在水分子的作用下趋于平面. 与血红素轴配体咪唑基键连的组氨酸决定着咪唑基的空间取向, 而咪唑基与血红素侧链的丙酸基的静电作用对其取向仅起次要作用.     

应用ABEEM/MM蛋白质力场模型研究半胱氨酸二肽构象的性质

ABEEM/MM蛋白质力场模型是应用于蛋白质体系的原子-键电负性均衡方法(ABEEM)与力场(MM)相结合的浮动电荷模型.该模型能够准确地描述分子在环境变化时的静电极化,并能快速计算气态和溶液多肽的结构和能量.首次应用ABEEM/MM蛋白质力场模型研究半胱氨酸二肽构象的性质,如构象能、氢键等.此外,应用从头计算HF/6-31G**方法对其性质进行计算.ABEEM/MM蛋白质力场模型可以快速准确地得到半胱氨酸二肽分子不同稳定构象的性质,其结果可以和从头计算相媲美.以上研究有助于加深对半胱氨酸二肽构象性质的了解,从而也为进一步验证ABEEM/MM蛋白质力场模型的正确性以及参数的合理性提供可靠的依据.     

环多肽晶体的浮动电荷极化力场模拟

利用原子键电负性均衡结合分子力场方法(ABEEM/MM)对五种环多肽晶体进行了研究. 与传统力场相比, 该方法中的静电势包含了分子内和分子间的静电极化作用, 以及分子内电荷转移影响, 同时加入了化学键等非原子中心电荷位点, 合理地体现了分子中的电荷分布. 相对其他极化力场模型, 具有计算量较小的特点. 该模型下计算得到的环多肽分子单元相对实验测得的结构的原子位置、氢键长度和二面角的均方根偏差分别为0.009 nm、0.013 nm和5.16°, 能够很好地重复实验结果. 总体上, 其结果优于或相当于其他力场模型, 适用于对实际蛋白质体系的模拟和研究.     

Sr2+和Ba2+水分子体系结构和结合能的从头算和ABEEM/MM研究

应用从头算方法和ABEEM/MM浮动电荷分子力场, 研究了水合碱土离子团簇Sr²⁺/Ba²⁺(H₂O)_n (n=1-6), 构建了离子-水相互作用的ABEEM/MM势能函数, 获得了水合离子团簇的稳定结构, 计算了结合能. 计算结果表明, ABEEM/MM方法的结果和从头算方法的结果有很好的一致性. 进一步应用ABEEM/MM对Sr²⁺和Ba²⁺水溶液进行了分子动力学模拟. 对Sr²⁺水溶液, 得到的Sr²⁺-水中氧原子的径向分布函数的第一和第二最高峰分别位于0.257和0.464 nm处, 第一和第二水合层的配位水分子数分别为9.2和11.4; 对Ba²⁺水溶液, 得到的Ba²⁺与水中氧原子的径向分布函数的第一和第二最高峰分别位于0.269和0.467 nm处, 第一和第二水合层的配位水分子数分别为9.9和12.4. 这与实验值或其它理论模拟结果有较好的一致性. 对比外层的水分子, 金属离子的极化作用使得溶液中第一水合层中水分子的O―H键长增长, HOH键角减小.     

NH4+( (H2O)n(n＝1～9)的量子化学和ABEEM/MM的理论研究

运用量子化学和ABEEM/MM浮动电荷分子力场, 构建描述铵离子-水体系相互作用的精密势能函数, 对 - (H₂O)_n (n＝1～9)簇合物的结构和稳定性等性质进行了研究. 对团簇的结合能和电荷布居分析发现, 当n≤4时, 随着水分子数目的增加, 与水分子间尽可能多地形成线型氢键, 直至水分子在 周围形成完整的第一水合层|当n≥5时, 簇合物以 为中心, 通过氢键网络形成的环状和笼状结构为最稳定. 与第一水合层水分子的相互作用强于水分子之间的相互作用. 结果表明, ABEEM/MM方法的结果与量子化学方法得到的结果有很好的一致性.     

应用ABEEMσπ/MM模型对重组人纤溶酶原Kringle 1结构域与配体分子的对接计算

应用原子-键电负性均衡方法的浮动电荷分子力场(ABEEMσπ/MM),对重组人纤溶酶原Kringle1结构域(K1Pg)与配体ε-Aminocaproic acid(EACA),trans-4-(Aminomethyl)cyclohexane-1-carboxylic acid(AMCHA),L-Lysine(Lys),7-Aminoheptanoic acid(7-AHA)和Benzylamine进行了半柔性对接计算.用ABEEMσπ/MM模型优化得到的复合物K1Pg/EACA和K1Pg/AMCHA的结构很接近实验晶体结构.此外通过对5种配体与K1Pg结合能的计算,得出5种配体与K1Pg结合能的大小顺序为AMCHAEACA7-AHALysBenzy-lamine,与实验中测得5种配体与K1pg的平衡结合常数K值大小顺序相一致.     

应用ABEEMσπ极化力场对Zn2+水溶液配位微结构和水交换反应进行分子动力学模拟研究

应用ABEEMσπ极化力场,对Zn²⁺水溶液体系进行分子动力学模拟,探讨Zn²⁺的配位微结构和配体水交换反应。水分子模型采用ABEEM-7P精细水模型。模拟后对体系结构、电荷及动力学性质进行细致分析。结构分析表明,平衡体系中Zn²⁺的第一层配位数为6,这与实验值是一致的。水交换反应过程中,溶剂水由O-Zn-O角分线斜上（下）方进攻Zn²⁺,配位水由O-Zn-O角分线斜下（上）方逐渐远离。极化力场模拟时Zn²⁺与交换水间的距离变化波动较大,而固定电荷力场的波动较小。模拟发现,极化力场的径向分布函数能精细地展示第二、三层配体的配位微结构,第二配位层存在靠近Zn²⁺的亚壳层,能与第一水合层发生水交换反应,充分体现了Zn²⁺的极化效应。本文阐明了水交换反应中,Zn²⁺位点电荷与交换水中氧原子孤对电子位点电荷的规律性变化,从电荷的角度解释了水交换反应的合理性。ABEEMσπ极化力场模拟Zn²⁺水溶液获得第一水合层的平均配位驻留时间为2.0×10^-9 s,在实验值范围内,说明ABEEMσπ极化力场可以合理地模拟Zn²⁺水溶液体系。     

利用浮动电荷力场对N-甲基乙酰胺水溶液的分子动力学模拟

利用原子键电负性均衡结合分子力场方法(ABEEM/MM)对N-甲基乙酰胺(NMA)分子的水溶液体系进行了分子动力学模拟. 与经典的力场模型相比, 该方法中的静电势包含了分子内和分子间的静电极化作用, 以及分子内电荷转移影响, 同时加入了化学键等非原子中心电荷位点, 合理体现了分子中的电荷分布. 相对其它极化力场模型, 该模型具有计算量较小的特点. 在该模型下对NMA纯溶液和其水溶液体系进行了分子动力学模拟, 得到的径向分布函数、汽化热和偶极矩等物理量与实验值和其它极化力场方法符合很好, 合理描述了溶质与溶剂之间的静电极化和分子内的电荷转移.     

管子模型在高分子纽结体系中的构建和应用

纽结是链状物中的常见现象,既存在于耳机线等宏观物体,也存在于微观链状分子,包括DNA和蛋白质.近年来,实验观察到高分子纽结能显著改变力学、流变、催化、生物功能等性质,但是对高分子纽结的理论认识和解析推导较少,导致对纽结现象机理理解不足.理论研究的难点在于,纽结构象空间复杂,难以用统计物理理论进行严格解析推导.为解决该问题,我们发展纽结管子模型对纽结体系进行理论简化,将纽结问题转化成管子限制问题,使理论推导变得可行.基于该管子模型,结合蒙特卡洛模拟、分子动力学模拟、链生长法以及特定管子生成算法,我们将理论模型中的管子实物化、可视化和定量化,并得到管子形状和直径等参数.我们发现纽结管子是优美协调的心形.另外,基于该管子模型,结合受限链的标度行为,我们推导各种条件下高分子纽结的自由能、概率、纽结大小分布等性质,与模拟和实验结果吻合.在本专题论述中,我们将介绍本课题组近几年得到的高分子纽结研究结果.     

Development and applications of the ABEEM fluctuating charge molecular force field in the ion-containing systems

The microscopic mechanisms of ion hydration and ion selectivity in biomolecular systems are long-standing research topics,in which the difficulty is how to reasonably and accurately describe the ion-water and ion-biomolecule interactions.This paper summarizes the development and applications of the atom-bond electronegativity equalization fluctuating charge force field model,ABEEM/MM,in the investigations of ion hydration,metalloproteins and ion-DNA bases systems.Based on high-level quantum chemistry calculations,the parameters were optimized and the molecular potential functions were constructed and applied to studies of structures,activities,energetics,and thermodynamic and kinetic properties of these ion-containing systems.The results show that the performance of ABEEM/MM is generally better than that of the common force fields,and its accuracy can reach or approach that of the high-level ab initio MP2 method.These studies provide a solid basis for further investigations of ion selectivity in biomolecular systems,the structures and properties of metalloproteins and other related ion-containing systems.     

Study of peptide conformation in terms of the ABEEM/MM method

The ABEEM/MM model (atom-bond electronegativity equalization method fused into molecular mechanics) is applied to study of the polypeptide conformations. The Lennard-Jones and torsional parameters were optimized to be consistent with the ABEEM/MM fluctuating charge electrostatic potential. The hydrogen bond was specially treated with an electrostatic fitting function. Molecular dipole moments, dimerization energies, and hydrogen bond lengths of complexes are reasonably achieved by our model, compared to ab initio results. The ABEEM/MM fluctuating charge model reproduces both the peptide conformational energies and structures with satisfactory accuracy with low computer cost. The transferability is tested by applying the parameters of our model to the tetrapeptide of alanine and another four dipeptides. The overall RMS deviations in conformational energies and key dihedral angles for four di- or tetrapeptide, is 0.39 kcal/mol and 7.7 degrees . The current results agree well with those by the accurate ab initio method, and are comparable to those from the best existing force fields. The results make us believe that our fluctuating charge model can obtain more promising results in protein and macromolecular modeling with good accuracy but less computer cost.     

Molecular dynamics simulations of LiCl association and NaCl association in water by means of ABEEM/MM

Constrained molecular dynamics simulations have been used to investigate the LiCl and NaCl ionic association in water in terms of atom-bond electronegativity equalization method fused into molecular mechanics (ABEEM/MM). The simulations make use of the seven-site fluctuating charge and flexible ABEEM-7P water model, based on which an ion-water interaction potential has been constructed. The mean force and the potential of mean force for LiCl and NaCl in water, the charge distributions, as well as the structural and dynamical properties of contact ion pair dissociation have been investigated. The results are reasonable and informative. For LiCl ion pair in water, the solvent-separated ion pair configurations are more stable than contact ion pair configurations. The calculated PMF for NaCl in water indicates that contact ion pair and solvent-separated ion pair configurations are of comparable stability.     

Application of the ABEEM/MM model in studying the properties of the water clusters(H_2O)_n(n=7-10)

ABEEM/MM model has been applied to compute the various properties characterizing water clusters(H2O) n(n = 7-10) ,such as optimized geometries,the hydrogen bonds number,cluster interaction en-ergies,stabilities,ABEEM charge distributions,dipole moments,structural parameters,and so on,and to describe the transition reflected by the hexamer region from two-dimensional(from dimer to pen-tamer) to three-dimensional structures(for clusters larger than the hexamer) .     

Application of the ABEEM/MM model in studying the properties of the water clusters (H2O)n (n= 7- 1O)

ABEEM/MM model has been applied to compute the various properties characterizing water clusters (H2O)n(n = 7-10), such as optimized geometries, the hydrogen bonds number, cluster interaction energies, stabilities, ABEEM charge distributions, dipole moments, structural parameters, and so on, and to describe the transition reflected by the hexamer region from two-dimensional (from dimer to pentamer) to three-dimensional structures (for clusters larger than the hexamer).     

Application of the ABEEM/MM model in studying the properties of the water clusters (H2O) n ( n =7?10)

ABEEM/MM model has been applied to compute the various properties characterizing water clusters (H₂O) _n (n = 7−10), such as optimized geometries, the hydrogen bonds number, cluster interaction energies, stabilities, ABEEM charge distributions, dipole moments, structural parameters, and so on, and to describe the transition reflected by the hexamer region from two-dimensional (from dimer to pentamer) to three-dimensional structures (for clusters larger than the hexamer). Supported by the National Natural Science Foundation of China (Grant No. 20373021)     

Importance of explicit smeared lone‐pairs in anisotropic polarizable molecular mechanics. Torture track angular tests for exchange‐repulsion and charge transfer contributions

A correct representation of the short‐range contributions such as exchange‐repulsion (E _rep) and charge‐transfer (E _ct) is essential for the soundness of separable, anisotropic polarizable molecular mechanics potentials. Within the context of the SIBFA procedure, this is aimed at by explicit representations of lone pairs in their expressions. It is necessary to account for their anisotropic behaviors upon performing not only in‐plane, but also out‐of‐plane, variations of a probe molecule or cation interacting with a target molecule or molecular fragment. Thus, E _rep and E _ct have to reproduce satisfactorily the corresponding anisotropies of their quantum chemical (QC) counterparts. A significant improvement of the out‐of‐plane dependencies was enabled when the sp² and sp localized lone‐pairs are, even though to a limited extent, delocalized on both sides of the plane, above and below the atom bearer but at the closely similar angles as the in‐plane lone pair. We report calibration and validation tests on a series of monoligated complexes of a probe Zn(II) cation with several biochemically relevant ligands. Validations are then performed on several polyligated Zn(II) complexes found in the recognition sites of Zn‐metalloproteins. Such calibrations and validations are extended to representative monoligated and polyligated complexes of Mg(II) and Ca(II). It is emphasized that the calibration of all three cations was for each ΔE contribution done on a small training set bearing on a limited number of representative N , O , and S monoligated complexes. Owing to the separable nature of ΔE , a secure transferability is enabled to a diversity of polyligated complexes. For these the relative errors with respect to the target ΔE (QC) values are generally < 3%. Overall, the article proposes a full set of benchmarks that could be useful for force field developers. © 2017 Wiley Periodicals, Inc.