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W2414231505 endingPage "5968" @default.
W2414231505 startingPage "5955" @default.
W2414231505 abstract "In several important classes of inverting carbohydrate-active enzymes, the identity of the catalytic base remains elusive, including in family 6 Glycoside Hydrolase (GH6) enzymes, which are key components of cellulase cocktails for cellulose depolymerization. Despite many structural and kinetic studies with both wild-type and mutant enzymes, especially on the Trichoderma reesei (Hypocrea jecorina) GH6 cellulase (TrCel6A), the catalytic base in the single displacement inverting mechanism has not been definitively identified in the GH6 family. Here, we employ transition path sampling to gain insight into the catalytic mechanism, which provides unbiased atomic-level understanding of key order parameters involved in cleaving the strong glycosidic bond. Our hybrid quantum mechanics and molecular mechanics (QM/MM) simulations reveal a network of hydrogen bonding that aligns two active site water molecules that play key roles in hydrolysis: one water molecule drives the reaction by nucleophilic attack on the substrate and a second shuttles a proton to the putative base (D175) via a short water wire. We also investigated the case where the putative base is mutated to an alanine, an enzyme that is experimentally still partially active. The simulations predict that proton hopping along a water wire via a Grotthuss mechanism provides a mechanism of catalytic rescue. Further simulations reveal that substrate processive motion is 'driven' by strong electrostatic interactions with the protein at the product sites and that the -1 sugar adopts a 2SO ring configuration as it reaches its binding site. This work thus elucidates previously elusive steps in the processive catalytic mechanism of this important class of enzymes." @default.
W2414231505 created "2016-06-24" @default.
W2414231505 creator A5018268999 @default.
W2414231505 creator A5054861635 @default.
W2414231505 creator A5060365553 @default.
W2414231505 creator A5064674425 @default.
W2414231505 creator A5073334929 @default.
W2414231505 creator A5077926275 @default.
W2414231505 date "2016-01-01" @default.
W2414231505 modified "2023-10-14" @default.
W2414231505 title "Who's on base? Revealing the catalytic mechanism of inverting family 6 glycoside hydrolases" @default.
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