Baños Jorge, Avilés Alejandro, Colmenares Fernando
Departamento de Física y Química Teórica, Facultad de Química, Universidad Nacional Autónoma de México, CDMX 04510, Mexico.
ACS Omega. 2024 Mar 8;9(11):13059-13066. doi: 10.1021/acsomega.3c09471. eCollection 2024 Mar 19.
The possible role of radical species in the formation of the long-lived triplet states observed for 2-thiocytosine upon UV irradiation was theoretically investigated. It is predicted that the radical fragments arising from the homolytic rupture of the NH group of the thiobase can be yielded upon ultraviolet-A radiation. Recombination of the radicals through the most favorable singlet channel yields the lowest-lying tautomer of the 2-thiocytosine (the amino-thiol form) through a barrierless pathway. The rebounding of the radical fragments along the triplet channels that emerge from the attack of the hydrogen to the nitrogen atoms next to the C-S bond leads to stable structures for the amino-thion-NH and amino-thion-NH tautomers. These results allow for the rationalization of the near-unity triplet yields observed when this pure light-atom organic molecule is exposed to UV irradiation, without invoking intersystem crossings between the electronic states of different spin-multiplicities. A similar study for cytosine showed that the energy required to induce the homolytic breaking of the N-H bond of the nucleobase is not attainable under UVA radiation. This result is consistent with the experimental fact that no triplet states are observed when this molecule is exposed to that light.
从理论上研究了自由基物种在紫外线照射下2-硫代胞嘧啶中观察到的长寿命三重态形成过程中可能发挥的作用。据预测,硫代碱基的NH基团发生均裂时产生的自由基片段可在紫外线-A辐射下生成。自由基通过最有利的单线态通道重组,通过无障碍途径产生2-硫代胞嘧啶的最低能量互变异构体(氨基硫醇形式)。自由基片段沿着由氢攻击C-S键旁边的氮原子而产生的三重态通道反弹,导致氨基硫酮-NH和氨基硫酮-NH互变异构体的稳定结构。这些结果使得在不涉及不同自旋多重性电子态之间的系间窜越的情况下,能够合理解释当这种纯轻原子有机分子暴露于紫外线照射时观察到的近乎单位的三重态产率。对胞嘧啶的类似研究表明,在UVA辐射下,诱导核碱基N-H键均裂所需的能量无法达到。这一结果与该分子暴露于该光时未观察到三重态的实验事实一致。
