Kumar Anil, Adhikary Amitava, Shamoun Lance, Sevilla Michael D
Department of Chemistry, Oakland University , Rochester, Michigan 48309, United States.
J Phys Chem B. 2016 Mar 10;120(9):2115-23. doi: 10.1021/acs.jpcb.5b11269. Epub 2016 Feb 23.
The solvated electron (e(aq)⁻) is a primary intermediate after an ionization event that produces reductive DNA damage. Accurate standard redox potentials (E(o)) of nucleobases and of e(aq)⁻ determine the extent of reaction of e(aq)⁻ with nucleobases. In this work, E(o) values of e(aq)⁻ and of nucleobases have been calculated employing the accurate ab initio Gaussian 4 theory including the polarizable continuum model (PCM). The Gaussian 4-calculated E(o) of e(aq)⁻ (-2.86 V) is in excellent agreement with the experimental one (-2.87 V). The Gaussian 4-calculated E(o) of nucleobases in dimethylformamide (DMF) lie in the range (-2.36 V to -2.86 V); they are in reasonable agreement with the experimental E(o) in DMF and have a mean unsigned error (MUE) = 0.22 V. However, inclusion of specific water molecules reduces this error significantly (MUE = 0.07). With the use of a model of e(aq)⁻ nucleobase complex with six water molecules, the reaction of e(aq)⁻ with the adjacent nucleobase is investigated using approximate ab initio molecular dynamics (MD) simulations including PCM. Our MD simulations show that e(aq)⁻ transfers to uracil, thymine, cytosine, and adenine, within 10 to 120 fs and e(aq)⁻ reacts with guanine only when a water molecule forms a hydrogen bond to O6 of guanine which stabilizes the anion radical.
溶剂化电子(e(aq)⁻)是电离事件后产生还原性DNA损伤的主要中间体。核碱基和e(aq)⁻的准确标准氧化还原电位(E(o))决定了e(aq)⁻与核碱基的反应程度。在这项工作中,采用包括极化连续介质模型(PCM)的精确从头算高斯4理论计算了e(aq)⁻和核碱基的E(o)值。高斯4计算得到的e(aq)⁻的E(o)(-2.86 V)与实验值(-2.87 V)非常吻合。在二甲基甲酰胺(DMF)中高斯4计算得到的核碱基的E(o)值在(-2.36 V至-2.86 V)范围内;它们与DMF中的实验E(o)值合理吻合,平均无符号误差(MUE)= 0.22 V。然而,包含特定的水分子会显著降低该误差(MUE = 0.07)。使用具有六个水分子的e(aq)⁻核碱基复合物模型,采用包括PCM的近似从头算分子动力学(MD)模拟研究了e(aq)⁻与相邻核碱基的反应。我们的MD模拟表明,e(aq)⁻在10至120飞秒内转移到尿嘧啶、胸腺嘧啶、胞嘧啶和腺嘌呤,并且只有当一个水分子与鸟嘌呤的O6形成氢键从而稳定阴离子自由基时,e(aq)⁻才会与鸟嘌呤反应。