2016
DOI: 10.1002/anie.201511950
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Characterization of the Intermediate in and Identification of the Repair Mechanism of (64) Photolesions by Photolyases

Abstract: Quantum mechanics/molecular mechanics calculations are employed to assign previously recorded experimental spectroscopic signatures of the intermediates occurring during the photo-induced repair of (6-4) photolesions by photolyases to specific molecular structures. Based on this close comparison of experiment and theory it is demonstrated that the acting repair mechanism involves proton transfer from the protonated His365 to the N3′ nitrogen of the lesion, which proceeds simultaneously with intramolecular OH t… Show more

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Cited by 20 publications
(21 citation statements)
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“…In addition, by means of pulsed electron‐nuclear double‐resonance spectroscopy, researcher characterized selected proton hyperfine couplings and illustrated that the repair activity is decreased when deuterium oxide is used as a solvent. Thus, the majority of researchers seem to agree that the mechanisms invoking proton transfer from the nearby histidines are crucial and open up an alternative pathway for repair .…”
Section: Photoinduced Electron‐coupled Proton Transfermentioning
confidence: 99%
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“…In addition, by means of pulsed electron‐nuclear double‐resonance spectroscopy, researcher characterized selected proton hyperfine couplings and illustrated that the repair activity is decreased when deuterium oxide is used as a solvent. Thus, the majority of researchers seem to agree that the mechanisms invoking proton transfer from the nearby histidines are crucial and open up an alternative pathway for repair .…”
Section: Photoinduced Electron‐coupled Proton Transfermentioning
confidence: 99%
“…3. The proton transfer‐steered mechanism in which PT from the protonated His365 to the N3′ nitrogen of the 3′‐T proceeds synchronically with formation of an oxetane‐like transition state involving intermediates IIIa and IIIb (Fig. ).…”
Section: Electron‐induced Splitting Mechanismsmentioning
confidence: 99%
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“…3 , 4 Despite the existence of repairing machinery, DNA photolesions are a common cause of skin cancer 1 , 5 7 and the mechanistic details of their formation and repair have been attracting significant attention involving both experimental and theoretical studies. 8 17 …”
Section: Introductionmentioning
confidence: 99%