2011
DOI: 10.1021/ar2001765
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Conformational Analyses of the Reaction Coordinate of Glycosidases

Abstract: The enzymatic hydrolysis of the glycosidic bond is catalyzed by diverse enzymes generically termed glycoside hydrolases (hereafter GHs) or glycosidases. The many sequence-based families of glycosidases have served as a rich hunting ground for enzymologists for years. Not only are these enzymes of fundamental interest, providing paradigms for enzymatic catalysis that extend beyond the bounds of carbohydrate chemistry, but the enzymes themselves play myriad essential roles in diverse biological processes. The wi… Show more

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Cited by 226 publications
(269 citation statements)
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“…A similar situation is obtained in the case of trans H + CB (2), where the excess proton was initially placed near OH4 0 , but in this case, there is less indication that water formed may be departing in the course of the trajectory, though the bond O4 0 -C4 0 is considerably weaker throughout the simulation, see Fig. 10c, red.…”
Section: Trans H + Cb(2)supporting
confidence: 72%
See 1 more Smart Citation
“…A similar situation is obtained in the case of trans H + CB (2), where the excess proton was initially placed near OH4 0 , but in this case, there is less indication that water formed may be departing in the course of the trajectory, though the bond O4 0 -C4 0 is considerably weaker throughout the simulation, see Fig. 10c, red.…”
Section: Trans H + Cb(2)supporting
confidence: 72%
“…[1][2][3] In many of these processes reactions of a proton with the sugar are assumed to take place. Nevertheless, while the importance of a proton interacting with a sugar is recognized, there is incomplete knowledge of the pathways of this interaction and its dynamics on a microscopic scale.…”
Section: Introductionmentioning
confidence: 99%
“…When modeled in the energetically favoured 4 C 1 chair conformation, the phosphate of βG1P sterically clashed with the side chain of Met 292. This was not too surprising, however, considering that retaining glucosidases are known to assist bond cleavage by distorting the substrate to position the leaving group in a pseudoaxial position, which brings the conformation of the substrate closer to that of the reaction transition state 39 . Thus, the repulsive interactions between Met292 and the phosphate of βG1P, in conjunction with the favourable binding interactions between the substrate glucosyl and phosphate moieties likely force the phosphate of bound β-Glc-1-phosphate product into a pseudoaxial position.…”
Section: As Seen Inmentioning
confidence: 99%
“…Such a mechanism demands two crucial catalytic residues, a nucleophile and an acid/base ( Fig. 1), both of which are typically enzyme-derived carboxylates (such mechanisms are reviewed in Vocadlo & Davies, 2008;Davies et al, 2012), as discussed further below. The primary biotechnological importance of -d-glucosidases is their key role in cellulose degradation (Fig.…”
Section: Introductionmentioning
confidence: 99%