Abstract
The spread of the absorbance of the stable FADH(•) radical (300-700 nm) allows CPD photolyase to highly efficiently form FADH(-), making it functional for DNA repair. In this study, FTIR spectroscopy detected a strong hydrogen bond, from FAD N5-H to the carbonyl group of the Asn378 side chain, that is modulated by the redox state of FAD. The observed characteristic frequency shifts were reproduced in quantum-mechanical models of the flavin binding site, which were then employed to elucidate redox tuning governed by Asn378. We demonstrate that enhanced hydrogen bonding of the Asn378 side chain with the FADH(•) radical increases thermodynamic stabilization of the radical state, and further ensures kinetic stabilization and accumulation of the fully reduced FADH(-) state.
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