Unrestricted Hartree-Fock based on the fragment molecular orbital method: Energy and its analytic gradient

Hiroya Nakata; Dmitri G. Fedorov; Takeshi Nagata; Satoshi Yokojima; Koji Ogata; Kazuo Kitaura; Shinichiro Nakamura

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Unrestricted Hartree-Fock based on the fragment molecular orbital method: Energy and its analytic gradient

机译：基于碎片分子轨道方法的无限制Hartree-Fock：能量及其解析梯度

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A consideration of the surrounding environment is necessary for a meaningful analysis of the reaction activity in large molecular systems. We propose an approach to perform unrestricted Hartree-Fock (UHF) calculations within the framework of the fragment molecular orbital (FMO) method (FMOUHF) to study large systems with unpaired electrons. Prior to an energy analysis one has to optimize geometry, which requires an accurate analytic energy gradient. We derive the FMO-UHF energy and its analytic gradient and implement them into GAMESS. The performance of FMO-UHF is evaluated for a solvated organic molecule and a solvated metal complex, as well as for the active part of a protein, in terms of energy, gradient, and geometry optimization.

机译：要对大分子系统中的反应活性进行有意义的分析，必须考虑周围的环境。我们提出一种在片段分子轨道（FMO）方法（FMOUHF）的框架内执行不受限制的Hartree-Fock（UHF）计算的方法，以研究具有不成对电子的大型系统。在进行能量分析之前，必须先优化几何形状，这需要精确的分析能量梯度。我们推导出FMO-UHF能量及其解析梯度，并将其实现到GAMESS中。 FMO-UHF的性能在能量，梯度和几何优化方面针对溶剂化的有机分子和溶剂化的金属络合物以及蛋白质的活性部分进行了评估。

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《The Journal of Chemical Physics》 |2012年第4期|共13页
作者
Hiroya Nakata; Dmitri G. Fedorov; Takeshi Nagata; Satoshi Yokojima; Koji Ogata; Kazuo Kitaura; Shinichiro Nakamura;
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1. Unrestricted Hartree-Fock based on the fragment molecular orbital method: Energy and its analytic gradient [J] . Hiroya Nakata, Dmitri G. Fedorov, Takeshi Nagata, The Journal of Chemical Physics . 2012,第4期

机译：基于碎片分子轨道方法的无限制Hartree-Fock：能量及其解析梯度
2. Efficient vibrational analysis for unrestricted Hartree-Fock based on the fragment molecular orbital method [J] . Hiroya Nakata, Dmitri G. Fedorov, Satoshi Yokojima, Chemical Physics Letters . 2014,第Null期

机译：基于碎片分子轨道法的无限制Hartree-Fock振动分析
3. Analytic energy gradient for second-order M?ller-Plesset perturbation theory based on the fragment molecular orbital method [J] . Nagata T., Fedorov D.G., Ishimura K., The Journal of Chemical Physics . 2011,第4期

机译：基于碎片分子轨道方法的二阶M？ller-Plesset微扰理论的解析能量梯度
4. New Fragmentation of Fragment Molecular Orbital Method Applicable to Fragment Based Drug Design [C] . Chiduru Watanabe, Kaori Fukuzawa, Yoshio Okiyama, International Conference on Simulation Technology . 2015

机译：适用于碎片的药物设计片段分子轨道法的新碎片
5. A needed response: Fragment molecular orbital analytic gradients. [D] . Brorsen, Kurt Ryan. 2014

机译：所需的响应：片段分子轨道分析梯度。
6. An Efficient Method to Evaluate Intermolecular Interaction Energies in Large Systems Using Overlapping Multicenter ONIOM and the Fragment Molecular Orbital Method [O] . Naoya Asada, Dmitri G. Fedorov, Kazuo Kitaura, -1

机译：利用重叠多中心oniom和片段分子轨道法评估大型系统中分子间相互作用能的有效方法及分子分子轨道法
7. Fully Analytic Energy Gradient in the Fragment Molecular Orbital Method [O] . Nagata, Takeshi, Brorsen, Kurt Ryan, Fedorov, Dmitri G., 2011

机译：碎片分子轨道方法中的完全解析能梯度
8. Computation of the Structures of the Phenyl and Benzyl Radicals with the UHF (Unrestricted Hartree-Fock) Method [R] . Hameka, H. F. 1987

机译：用UHF（Unrestricted Hartree-Fock）方法计算苯基和苄基自由基的结构

Unrestricted Hartree-Fock based on the fragment molecular orbital method: Energy and its analytic gradient

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