Theoretical insights into the reaction and inhibition mechanism of metal-independent retaining glycosyltransferase responsible for mycothiol biosynthesis
- Blanco Capurro, Juan Ignacio
- Hopkins, Chad W.
- Pierdominici Sottile, Gustavo
- González Lebrero, Mariano Camilo
- Roitberg, Adrián
- Marti, Marcelo Adrian
DOIAbstract
Understanding enzymatic reactions with atomic resolution has proven in recent years to be of tremendous interest for biochemical research, and thus, the use of QM/MM methods for the study of reaction mechanisms is experiencing a continuous growth. Glycosyltransferases (GTs) catalyze the formation of glycosidic bonds, and are important for many biotechnological purposes, including drug targeting. Their reaction product may result with only one of the two possible stereochemical outcomes for the reacting anomeric center, and therefore, they are classified as either inverting or retaining GTs. While the inverting GT reaction mechanism has been widely studied, the retaining GT mechanism has always been controversial and several questions remain...
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