Counterions play a significant role in DNA structure and function, and molecular dynamics (MD) simulations offer the prospect of detailed description of the dynamical structure of ions at the molecular level. However, the motions of mobile counterions are notably slow to converge in MD on DNA. Obtaining accurate and reliable MD simulations requires knowing just how much sampling is required for convergence of each of the properties of interest. To address this issue, MD on a d(CGCGAATTCGCG) duplex in a dilute aqueous solution of water and 22 Na+ counterions was performed until convergence was achieved. The calculated first shell ion occupancies and DNA–Na+ radial distribution functions were computed as a function of time to assess convergence, and compared with relaxation times of the DNA internal parameters shift, slide, rise, tilt, roll, and twist. The sequence dependence of fractional occupancies of ions in the major and minor grooves of the DNA is examined, and the possibility of correlation between ion proximity and DNA minor groove widths is investigated.
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机译:抗衡离子在DNA结构和功能中起着重要作用,分子动力学(MD)模拟提供了在分子水平上详细描述离子动力学结构的前景。但是,可移动抗衡离子的运动在DNA上的MD中收敛非常慢。要获得准确和可靠的MD模拟,需要知道要收敛每个目标特性需要多少采样。为解决此问题,在稀有水和22 Na +抗衡离子的水溶液中的d(CGCGAATTCGCG)双链体上进行MD直至达到收敛。计算得出的第一壳离子占有率和DNA–Na +径向分布函数是时间的函数,以评估收敛性,并与DNA内部参数的松弛时间(位移,滑动,上升,倾斜,滚动和扭曲)进行比较。考察了DNA主槽和副槽中离子的小部分占据率的序列依赖性,并研究了离子接近度与DNA小槽宽度之间相关性的可能性。
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