화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.133, No.37, 14504-14506, 2011
Energetic Preference of 8-oxoG Eversion Pathways in a DNA Glycosylase
Base eversion is a fundamental process in the biochemistry of nucleic acids, allowing proteins engaged in DNA repair and epigenetic modifications to access target bases in DNA. Crystal structures reveal end points of these processes, but not the pathways involved in the dynamic process of base recognition. To elucidate the pathway taken by 8-oxoguanine during base excision repair by Fpg, we calculated free energy surfaces during eversion of the damaged base through the major and minor grooves. The minor groove pathway and free energy barrier (6-7 kcal/mol) are consistent with previously reported results (Qi, Y.; Spong, M. C.; Nam, K.; Banerjee, A.; Jiralerspong, S.; Karplus, M.; Verdine, G. L. Nature 2009, 462, 762.) However, eversion of 8-oxoG through the major groove encounters a significantly lower barrier (3-4 kcal/mol) more consistent with experimentally determined rates of enzymatic sliding during lesion search (Blainey, P. C.; van Oijent, A. M.; Banerjee, A.; Verdine, G. L.; Xie, X. S. Proc. Natl. Acad. Sci. U.S.A. 2006, 103, 5752.). Major groove eversion has been suggested for other glycosylases, suggesting that in addition to function, dynamics of base eversion may also be conserved.