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9-氨基吖啶插入d(CGCGCGC)×d(GCGCGCG)双链的分子力学模拟:邻位排斥原理的物理基础分析

Molecular mechanical simulations on double intercalation of 9-amino acridine into d(CGCGCGC) X d(GCGCGCG): analysis of the physical basis for the neighbor-exclusion principle.

作者信息

Rao S N, Kollman P A

出版信息

Proc Natl Acad Sci U S A. 1987 Aug;84(16):5735-9. doi: 10.1073/pnas.84.16.5735.

DOI:10.1073/pnas.84.16.5735
PMID:3475700
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC298937/
Abstract

The neighbor-exclusion principle is one of the most general and interesting rules describing intercalative DNA binding by small molecules. It suggests that such binding can only occur at every other base-pair site, reflecting a very large negative cooperativity in the binding process. We have carried out molecular mechanics and molecular dynamics simulations to study intercalation complexes between 9-amino acridine and the base-paired heptanucleotide d(CGCGCGC) X d(GCGCGCG), in which the neighbor-exclusion principle was both obeyed and violated. Our studies find no stereochemical preference that favors the neighbor-exclusion-obeying structures over the neighbor-exclusion-violating structures. Alternative explanations for the existence of the neighbor-exclusion principle are vibrational entropy effects that we calculate to favor the more flexible neighbor-exclusion models over the more rigid neighbor-exclusion-violating models and polyelectrolyte (counterion release) effects.

摘要

邻位排斥原理是描述小分子嵌入DNA结合的最普遍且有趣的规则之一。它表明这种结合只能在每隔一个碱基对的位点发生,这反映出结合过程中存在非常大的负协同性。我们进行了分子力学和分子动力学模拟,以研究9-氨基吖啶与碱基配对的七核苷酸d(CGCGCGC)×d(GCGCGCG)之间的嵌入复合物,其中邻位排斥原理既得到了遵循,也被违反。我们的研究发现,不存在立体化学偏好使得遵循邻位排斥的结构优于违反邻位排斥的结构。对于邻位排斥原理存在的其他解释是振动熵效应,我们计算得出该效应有利于更灵活的遵循邻位排斥的模型,而非更刚性的违反邻位排斥的模型,以及聚电解质(抗衡离子释放)效应。