Molecular dynamics simulations of a branched tetradecasaccharide substrate in the active site of a xyloglucanendo-transglycosylase

Molecular dynamics simulations of the tetradecasaccharide XXXGXXXG in complex with the hybrid aspen xyloglucan endo-transglycosylase PttXET16-34 have been performed and analysed with respect to structure, dynamics, flexibility and ligand interactions. Notably, the charge state of the so-called ‘helper residue’ aspartate 87 (Asp87), which lies between the catalytic nucleophile [glutamate 85 (Glu85)] and general acid/base (Glu89) residues on the same beta strand, had a significant effect on PttXET16-34 active site structure. When Asp87 was deprotonated, electrostatic repulsion forced the nucleophile away from C1 of the sugar ring in subsite − 1 and the proton–donating ability of Glu89 was also weakened due to the formation of a hydrogen bond with Asp87, whereas the protonation of Asp87 resulted in the formation of a hydrogen bond with the catalytic nucleophile and correct positioning of the catalytic machinery. The results suggest that catalysis in glycoside hydrolase family 16, and by extension clan GH-B e...