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Full-Text Articles in Life Sciences
Blue-Light Induced Accumulation Of Reactive Oxygen Species Is A Consequence Of The Drosophila Cryptochrome Photocycle, Louis David Arthaut, Margaret Ahmad, Nathalie Jourdan, Ali Mteyrek, Maria Procopio, Mohamed A. El-Esawi, Alain D'Harlingue, Pierre Etienne Bouchet, Jacques Witczak, Carlos F. Martino
Blue-Light Induced Accumulation Of Reactive Oxygen Species Is A Consequence Of The Drosophila Cryptochrome Photocycle, Louis David Arthaut, Margaret Ahmad, Nathalie Jourdan, Ali Mteyrek, Maria Procopio, Mohamed A. El-Esawi, Alain D'Harlingue, Pierre Etienne Bouchet, Jacques Witczak, Carlos F. Martino
Biomedical Engineering and Sciences Faculty Publications
Cryptochromes are evolutionarily conserved blue-light absorbing flavoproteins which participate in many important cellular processes including in entrainment of the circadian clock in plants, Drosophila and humans. Drosophila melanogaster cryptochrome (DmCry) absorbs light through a flavin (FAD) cofactor that undergoes photoreduction to the anionic radical (FAD) redox state both in vitro and in vivo. However, recent efforts to link this photoconversion to the initiation of a biological response have remained controversial. Here, we show by kinetic modeling of the DmCry photocycle that the fluence dependence, quantum yield, and half-life of flavin redox state interconversion are consistent with the anionic radical (FAD∗-) …