Molecular Modeling Laboratory, Department of Chemistry, Indian Institute of Technology, Kharagpur 721302, India.
J Chem Phys. 2013 Aug 21;139(7):075103. doi: 10.1063/1.4818537.
The DNA metabolic processes often involve single-stranded DNA (ss-DNA) molecules as important intermediates. In the absence of base complementarity, ss-DNAs are more flexible and interact strongly with water in aqueous media. Ss-DNA-water interactions are expected to control the conformational flexibility of the DNA strand, which in turn should influence the properties of the surrounding water molecules. We have performed room temperature molecular dynamics simulation of an aqueous solution containing the ss-DNA dodecamer, 5'-CGCGAATTCGCG-3'. The conformational flexibility of the DNA strand and the microscopic structure and ordering of water molecules around it have been explored. The simulation reveals transformation of the initial base-stacked form of the ss-DNA to a fluctuating collapsed coil-like conformation with the formation of a few non-sequentially stacked base pairs. A preliminary analysis shows further collapse of the DNA conformation in presence of additional salt (NaCl) due to screening of negative charges along the backbone by excess cations. Additionally, higher packing of water molecules within a short distance from the DNA strand is found to be associated with realignment of water molecules by breaking their regular tetrahedral ordering.
DNA 的代谢过程通常涉及单链 DNA(ss-DNA)分子作为重要的中间体。在没有碱基互补的情况下,ss-DNAs 更加灵活,并在水介质中与水强烈相互作用。ss-DNA-水相互作用预计会控制 DNA 链的构象灵活性,这反过来又应该影响周围水分子的性质。我们已经对含有 ss-DNA 十二聚体 5'-CGCGAATTCGCG-3'的水溶液进行了室温分子动力学模拟。探索了 DNA 链的构象灵活性以及周围水分子的微观结构和有序性。模拟揭示了 ss-DNA 初始碱基堆积形式向波动折叠卷曲构象的转变,同时形成了几个非连续堆积的碱基对。初步分析表明,由于多余阳离子沿骨架屏蔽负电荷,在存在额外盐(NaCl)的情况下,DNA 构象进一步坍塌。此外,还发现与 DNA 链距离较短的水分子的更高堆积与通过破坏其规则四面体有序性来重新排列水分子有关。
