Mechanisms and energetics of benzophenone photosensitized thymine damage and repair from Paternò-Büchi cycloaddition.

Here, we report the detailed mechanisms of benzophenone (BZP) photosensitized thymine damage and repair by Paternò-Büchi (PB) cycloaddition. It was found that the head-to-head and head-to-tail PB cycloadditions lead to the formation of the C-O bonds in the (nπ*) state and the (ππ*) state, respectively. The conical intersection occurs before the head-to-tail C-O bonding. Then, the C-C bonds are formed intersystem crossing (ISC). The C-O bonding is the rate-determining step of PB cycloaddition. For the cycloreversion reactions, the ring-opening processes completely occur in the singlet excited states of oxetanes. The head-to-head oxetane goes through a conical intersection before cycloreversion with a little energy barrier of 1.8 kcal mol. The head-to-tail oxetane splits without a barrier. Then, the ISC processes take place to restore thymine. Throughout the ring-closing and ring-opening processes, ISC plays an important role. These findings are in good agreement with the available experimental findings. We hope that this comprehensive work can provide a deeper understanding of photosensitive DNA damage and repair.