Thietanes were used in the past as mimics for an unstable oxetane intermediate formed during the repair of mutagenic (6-4) lesions. The thietane derivatives were found to be not repaired, raising the question of how well thietanes are cleaved by single electron donation compared to oxetanes. We have prepared two flavin-containing oxetane and thietane model compounds for the (6-4) photolyase catalyzed repair process and we show that both are efficiently cleaved by a reduced and deprotonated flavin. Thietanes are therefore excellent models. The lack of their repair can be attributed to lack of binding.
PNA:DNA strands were prepared containing a flavin electron donor and a thymine dimer acceptor, which gives a strand break upon single electron reduction. With these constructs, it was confirmed that an excess electron transfer through the base stack can be efficient in an interstrand fashion. The effect of an increased distance, a changed sequence, and stacking was explored.
Photolyase‐catalyzed repair of pyrimidine (6‐4) photoadducts was modeled with synthetic, covalently linked flavin–oxetane 1. The repair reaction (oxetane splitting) requires the reduced flavin in its deprotonated form. The key step of the repair reaction involves an electron transfer from the flavin to the oxetane.
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