Lyase activity of glycogen synthase: Is an elimination/addition mechanism a possible reaction pathway for retaining glycosyltransferases?

Abstract: Despite the biological relevance of glycosyltrasferases (GTs) and the many efforts devoted to this subject, the catalytic mechanism through which a subclass of this large family of enzymes, namely those that operate with net retention of the anomeric configuration, has not been fully established. Here, we show that in the absence of an acceptor, an archetypal retaining GT such as Pyrococcus abyssi glycogen synthase (PaGS) reacts with its glucosyl donor substrate, uridine 5'‐diphosphoglucose (UDP‐Glc), to produ… Show more

“…In contrast, stabilization of the 2′-phosphate leaving group in GCP appears to be accomplished by R199 and R320. Last, the peptide carbonyl oxygen of the residue equivalent to H193 in Gsy2p has been proposed to stabilize the charge distribution of the oxo-carbenium ion intermediate during glucosyl transfer (24,25). Our structures are consistent with that proposal.…”

Structural basis for 2′-phosphate incorporation into glycogen by glycogen synthase

“…In contrast, stabilization of the 2′-phosphate leaving group in GCP appears to be accomplished by R199 and R320. Last, the peptide carbonyl oxygen of the residue equivalent to H193 in Gsy2p has been proposed to stabilize the charge distribution of the oxo-carbenium ion intermediate during glucosyl transfer (24,25). Our structures are consistent with that proposal.…”

Structural basis for 2′-phosphate incorporation into glycogen by glycogen synthase