Unusual bending patterns of spermidine3+ bound to DNA double helix

Pub Date : 2024-03-26 DOI:10.1063/10.0024969
Sergiy Perepelytsya, Tudor Vasiliu, Aatto Laaksonen, Leon De Villiers Engelbrecht, Francesca Mocci
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Abstract

Natural polyamines play a fundamental role in the cell cycle. Despite being recognized as the most abundant organic counterions of DNA in the cell nucleus, their interactions with DNA have not been fully characterized. In a recent work [S. Perepelytsya, T. Vasiliu, A. Laaksonen, L. Engelbrecht, G. Brancato, and F. Mocci, J. Molec. Liq.389, 122828 (2023)], we have shown how the interactions between spermidine3+ and the DNA double helix induce significant conformational variations in the polyamine molecule. Specifically, we found that DNA induces conformations that are not observed in solution. Following that study, we present here a detailed investigation of the most compact conformation of the polyamine, analyzing its connection to the interaction with the DNA duplex. The analysis reveals that anomalous bent conformations of the spermidine3+ molecule result from the interaction of all three amino groups of the polyamine with the DNA phosphate groups on the minor groove side of the double helix. The changes in dihedral angles of the bent spermidine3+ molecule can be explained in terms of conformational transformations of six- and seven-membered rings, analogous to cyclohexane and cycloheptane. The analysis of the position of spermidine3+ molecule along the DNA surface reveals a sequence specificity of this binding mode with a marked preference for the narrow minor groove of A-tracts. The formation of the anomalous bent conformations of spermidine3+ in the complex with the DNA double helix is expected to be of paramount importance in understanding the mechanisms underlying DNA’s biological function.
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与 DNA 双螺旋结合的亚精胺 3+ 的异常弯曲模式
天然多胺在细胞周期中发挥着重要作用。尽管多胺被认为是细胞核中最丰富的 DNA 有机反离子,但它们与 DNA 的相互作用尚未得到充分表征。在最近的一项研究中 [S. Perepelytsya, T.Perepelytsya, T. Vasiliu, A. Laaksonen, L. Engelbrecht, G. Brancato, and F. Mocci, J. Molec.Liq.389,122828 (2023)],我们展示了亚精胺 3+ 与 DNA 双螺旋之间的相互作用如何诱导多胺分子发生显著的构象变化。具体来说,我们发现 DNA 诱导的构象在溶液中无法观察到。继这项研究之后,我们在此详细研究了多胺最紧密的构象,分析了它与 DNA 双链相互作用的联系。分析结果表明,精胺 3+ 分子的异常弯曲构象是多胺的所有三个氨基与双螺旋小沟侧 DNA 磷酸基相互作用的结果。弯曲的亚精胺 3+ 分子二面角的变化可以用六元环和七元环的构象转变来解释,类似于环己烷和环庚烷。对亚精胺 3+ 分子沿 DNA 表面位置的分析表明,这种结合模式具有序列特异性,明显偏爱 A-痕量的狭窄小沟。在与 DNA 双螺旋的复合物中,亚精胺 3+ 形成了反常的弯曲构象,这对于了解 DNA 的生物功能机制具有极其重要的意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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