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J Phys Chem A. 2010 Feb 4;114(4):2038-44. doi: 10.1021/jp911376p.
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Contribution of phenylalanine side chain intercalation to the TATA-box binding protein-DNA interaction: molecular dynamics and dispersion-corrected density functional theory studies.苯丙氨酸侧链嵌入对TATA盒结合蛋白与DNA相互作用的贡献:分子动力学和色散校正密度泛函理论研究
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Density Functionals for Noncovalent Interaction Energies of Biological Importance.具有生物学重要性的非共价相互作用能的密度泛函
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Design of Density Functionals by Combining the Method of Constraint Satisfaction with Parametrization for Thermochemistry, Thermochemical Kinetics, and Noncovalent Interactions.通过将约束满足方法与热化学、热化学动力学和非共价相互作用的参数化相结合来设计密度泛函
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Assessment of the Performance of the M05-2X and M06-2X Exchange-Correlation Functionals for Noncovalent Interactions in Biomolecules.评估 M05-2X 和 M06-2X 交换相关泛函在生物分子中非共价相互作用中的性能。
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Through-Space Effects of Substituents Dominate Molecular Electrostatic Potentials of Substituted Arenes.取代基的空间效应主导取代芳烃的分子静电势。
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苯并[a]芘二醇环氧化物与 DNA 碱基对的非共价相互作用:(+)-苯并[a]芘 DE-2 与 DNA 加合物形成的深入了解。

Noncovalent interactions of a benzo[a]pyrene diol epoxide with DNA base pairs: insight into the formation of adducts of (+)-BaP DE-2 with DNA.

机构信息

Center for Computational Quantum Chemistry, University of Georgia, Athens, Georgia 30602, USA.

出版信息

J Phys Chem A. 2010 Feb 4;114(4):2038-44. doi: 10.1021/jp911376p.

DOI:10.1021/jp911376p
PMID:20063873
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2826197/
Abstract

Noncovalent complexes of a tumorigenic benzo[a]pyrene diol epoxide with the guanine-cytosine (GC) and adenine-thymine (AT) base pairs have been examined computationally. (+)-BaP DE-2 forms covalent adducts with DNA via nucleophilic attack on the (+)-BaP DE-2 epoxide. Computational results predict five thermodynamically accessible complexes of AT with (+)-BaP DE-2 that are compatible with intact DNA. Among these, two are expected to lead to adenine adducts. In the lowest energy AT...(+)-BaP DE-2 complex, which has a gas-phase interaction energy of -20.9 kcal mol(-1), the exocyclic NH(2) of adenine is positioned for backside epoxide attack and formation of a trans adduct. The most energetically favorable complex leading to formation of a cis ring-opened adduct lies only 0.6 kcal mol(-1) higher in energy. For GC...(+)-BaP DE-2, there are only two thermodynamically accessible complexes. The higher-lying complex, bound in the gas phase by 24.4 kcal mol(-1) relative to separated GC and (+)-BaP DE-2, would lead to a trans ring-opened N(2)-guanine adduct. In the global minimum energy GC...(+)-BaP DE-2 complex, bound by 27.3 kcal mol(-1), the exocyclic NH(2) group of cytosine is positioned for cis epoxide addition. However, adducts of (+)-BaP DE-2 with cytosine are rarely observed experimentally. The paucity of cytosine adducts, despite the predicted thermodynamic stability of this GC...(+)-BaP DE-2 complex, is attributed to the electrostatic destabilization of the benzylic cation intermediate thought to precede cis addition.

摘要

已通过计算研究了致瘤性苯并[a]芘二醇环氧化物与鸟嘌呤-胞嘧啶(GC)和腺嘌呤-胸腺嘧啶(AT)碱基对的非共价复合物。(+)-BaP DE-2 通过对(+)-BaP DE-2 环氧化物的亲核攻击与 DNA 形成共价加合物。计算结果预测了与完整 DNA 兼容的 AT 与(+)-BaP DE-2 的五个热力学可及复合物。在这些复合物中,预计有两个会导致腺嘌呤加合物。在最低能量的 AT...(+)-BaP DE-2 复合物中,其气相相互作用能为-20.9 kcal mol(-1),腺嘌呤的外展 NH(2)被置于背面环氧化物攻击位置,并形成反式加合物。在能量上最有利的导致顺式开环加合物形成的复合物仅高出 0.6 kcal mol(-1)。对于 GC...(+)-BaP DE-2,只有两个热力学可及的复合物。位于气相中的较高复合物,相对于分离的 GC 和(+)-BaP DE-2,结合能为 24.4 kcal mol(-1),将导致反式开环 N(2)-鸟嘌呤加合物。在全局最低能量 GC...(+)-BaP DE-2 复合物中,结合能为 27.3 kcal mol(-1),胞嘧啶的外展 NH(2)基团被置于顺式环氧化加成位置。然而,实验中很少观察到(+)-BaP DE-2 与胞嘧啶的加合物。尽管预测 GC...(+)-BaP DE-2 复合物具有热力学稳定性,但很少观察到胞嘧啶加合物,这归因于被认为先于顺式加成的苄基阳离子中间体的静电去稳定化。