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W4387245798 abstract "Adenine DNA glycosylase (MutY) is a monofunctional glycosylase, removing adenines (A) misinserted opposite 8-oxo-7,8-dihydroguanine (OG), a common product of oxidative damage to DNA. Through multiscale calculations, we decipher a detailed adenine excision mechanism of MutY that is consistent with all available experimental data, involving an initial protonation step and two nucleophilic displacement steps. During the first displacement step, N-glycosidic bond cleavage is accompanied by the attack of the carboxylate group of residue Asp144 at the anomeric carbon (C1′), forming a covalent glycosyl-enzyme intermediate to stabilize the fleeting oxocarbenium ion. After departure of the excised base, water nucleophiles can be recruited to displace Asp144, completing the catalytic cycle with retention of stereochemistry at the C1′ position. The two displacement reactions are found to mostly involve the movement of the oxocarbenium ion, occurring with large charge reorganization and thus sensitive to the internal electric field (IEF) exerted by the polar protein environment. Intriguingly, we find that the negatively charged carboxylate group is a good nucleophile for the oxocarbenium ion, yet an unactivated water molecule is not, and that the electric field catalysis strategy is used by the enzyme to enable its unique double-displacement reaction mechanism. A strong IEF, pointing toward 5′ direction of the substrate sugar ring, greatly facilitates the second displacement reaction at the expense of elevating the barrier of the first one, thereby allowing both reactions to occur. These findings not only increase our understanding of the strategies used by DNA glycosylases to repair DNA lesions, but also have important implications for how internal/external electric field can be applied to modulate chemical reactions." @default.
W4387245798 created "2023-10-03" @default.
W4387245798 creator A5010273326 @default.
W4387245798 creator A5010976973 @default.
W4387245798 creator A5011511803 @default.
W4387245798 creator A5023020453 @default.
W4387245798 creator A5091278358 @default.
W4387245798 date "2023-10-02" @default.
W4387245798 modified "2023-10-17" @default.
W4387245798 title "Preorganized Internal Electric Field Promotes a Double-Displacement Mechanism for the Adenine Excision Reaction by Adenine DNA Glycosylase" @default.
W4387245798 cites W1500302147 @default.
W4387245798 cites W1564335142 @default.
W4387245798 cites W1964609690 @default.
W4387245798 cites W1964704904 @default.
W4387245798 cites W1964758803 @default.
W4387245798 cites W1968755006 @default.
W4387245798 cites W1971452540 @default.
W4387245798 cites W1971575551 @default.
W4387245798 cites W1976161355 @default.
W4387245798 cites W1976499671 @default.
W4387245798 cites W1980179156 @default.
W4387245798 cites W1982952953 @default.
W4387245798 cites W1985035771 @default.
W4387245798 cites W1985323804 @default.
W4387245798 cites W1986546432 @default.
W4387245798 cites W1989060947 @default.
W4387245798 cites W1991921102 @default.
W4387245798 cites W1993177346 @default.
W4387245798 cites W1997785740 @default.
W4387245798 cites W2000211554 @default.
W4387245798 cites W2000770615 @default.
W4387245798 cites W2004822259 @default.
W4387245798 cites W2014166972 @default.
W4387245798 cites W2023271753 @default.
W4387245798 cites W2024872256 @default.
W4387245798 cites W2026895762 @default.
W4387245798 cites W2027304030 @default.
W4387245798 cites W2028022118 @default.
W4387245798 cites W2030687437 @default.
W4387245798 cites W2035266068 @default.
W4387245798 cites W2037184450 @default.
W4387245798 cites W2038997363 @default.
W4387245798 cites W2040358738 @default.
W4387245798 cites W2040843368 @default.
W4387245798 cites W2042889262 @default.
W4387245798 cites W2043666236 @default.
W4387245798 cites W2044591029 @default.
W4387245798 cites W2049557754 @default.
W4387245798 cites W2050320436 @default.
W4387245798 cites W2050357762 @default.
W4387245798 cites W2057806291 @default.
W4387245798 cites W2058259339 @default.
W4387245798 cites W2059325408 @default.
W4387245798 cites W2067174909 @default.
W4387245798 cites W2080490042 @default.
W4387245798 cites W2080869181 @default.
W4387245798 cites W2081145376 @default.
W4387245798 cites W2086957099 @default.
W4387245798 cites W2087290238 @default.
W4387245798 cites W2087791144 @default.
W4387245798 cites W2088863316 @default.
W4387245798 cites W2092157292 @default.
W4387245798 cites W2093357604 @default.
W4387245798 cites W2094279870 @default.
W4387245798 cites W2094941054 @default.
W4387245798 cites W2096136751 @default.
W4387245798 cites W2096747776 @default.
W4387245798 cites W2100561975 @default.
W4387245798 cites W2112154906 @default.
W4387245798 cites W2120902002 @default.
W4387245798 cites W2121977144 @default.
W4387245798 cites W2125038006 @default.
W4387245798 cites W2143981217 @default.
W4387245798 cites W2147993766 @default.
W4387245798 cites W2149655632 @default.
W4387245798 cites W2150195378 @default.
W4387245798 cites W2150697053 @default.
W4387245798 cites W2160310020 @default.
W4387245798 cites W2225049798 @default.
W4387245798 cites W2275563446 @default.
W4387245798 cites W2297469253 @default.
W4387245798 cites W2313116527 @default.
W4387245798 cites W2314262426 @default.
W4387245798 cites W2317977667 @default.
W4387245798 cites W2320104962 @default.
W4387245798 cites W2322205711 @default.
W4387245798 cites W2326676979 @default.
W4387245798 cites W2327581403 @default.
W4387245798 cites W2404280981 @default.
W4387245798 cites W2468618868 @default.
W4387245798 cites W2554470664 @default.
W4387245798 cites W2554938129 @default.
W4387245798 cites W2562478482 @default.
W4387245798 cites W2593302553 @default.
W4387245798 cites W2748035257 @default.
W4387245798 cites W2761173613 @default.
W4387245798 cites W2768258770 @default.
W4387245798 cites W2809744867 @default.
W4387245798 cites W2813373686 @default.
W4387245798 cites W2889401928 @default.