Mburu Elizabeth, Matsika Spiridoula
Department of Chemistry, Temple University, Philadelphia, Pennsylvania 19122, USA.
J Phys Chem A. 2008 Dec 4;112(48):12485-91. doi: 10.1021/jp807145c.
Several excited singlet electronic states of purine nucleobases and related derivatives have been calculated using high-level multireference perturbation theory methods. Purine derivatives with one or two amino or carbonyl groups substituted at positions C(2) and/or C(6) of the purine ring have been included in the study. The effect of the substituents on excited-state energies and wave functions is examined. Some trends have been observed, such as the fact that substitution at the C(2) position decreases the energy of the first pi --> pi* state considerably. Although basic qualitative features of the effects can be explained with the simple frontier molecular orbital theory, ab initio calculations are required to describe the effects quantitatively.
已使用高级多参考微扰理论方法计算了嘌呤核碱基及其相关衍生物的几个激发单重态电子态。嘌呤环的C(2)和/或C(6)位被一个或两个氨基或羰基取代的嘌呤衍生物已纳入研究。研究了取代基对激发态能量和波函数的影响。观察到了一些趋势,例如在C(2)位进行取代会显著降低第一π→π*态的能量。尽管效应的一些基本定性特征可用简单的前沿分子轨道理论来解释,但需要从头计算来定量描述这些效应。