Structural Snapshots of α‐1,3‐Galactosyltransferase with Native Substrates: Insight into the Catalytic Mechanism of Retaining Glycosyltransferases

Glycosyltransferases (GTs) are a key family of enzymes that catalyze the synthesis of glycosidic bonds in all living organisms. The reaction involves the transfer of a glycosyl moiety and can proceed with retention or inversion of the anomeric configuration. To date, the catalytic mechanism of retaining GTs is a topic of great controversy, particularly for those enzymes containing a putative nucleophilic residue in the active site, for which the occurrence of a double‐displacement mechanism has been suggested. We report native ternary complexes of the retaining glycosyltransferase α‐1,3‐galactosyltransferase (α3GalT) from Bos taurus , which contains such a nucleophile in the active site, in a productive mode for catalysis in the presence of its sugar donor UDP‐Gal, the acceptor substrate lactose, and the divalent cation cofactor. This new experimental evidence supports the occurrence of a front‐side substrate‐assisted S_Ni‐type reaction for α3GalT, and suggests a conserved common catalytic mechanism among retaining GTs.