AI Article Synopsis
- Vibrio proteolyticus chitobiose phosphorylase (ChBP) is an enzyme in glycosyl transferase family 36 (GT-36) that catalyzes the breakdown of chitobiose into alpha-GlcNAc-1-phosphate and GlcNAc with an inversion of configuration.
- The crystal structure of ChBP was determined in a complex with GlcNAc and a sulfate ion, showcasing a unique pseudo-ternary complex structure and revealing it as the first inverting phosphorolytic enzyme of its kind.
- ChBP displays a distinctive structure with a beta sandwich and an (alpha/alpha)(6) barrel domain, showing significant similarity to glycoside hydrolase enzymes, leading to
Article Abstract
Vibrio proteolyticus chitobiose phosphorylase (ChBP) belongs to glycosyl transferase family 36 (GT-36), and catalyzes the reversible phosphorolysis of chitobiose into alpha-GlcNAc-1-phosphate and GlcNAc with inversion of the anomeric configuration. As the first known structures of a GT-36 enzyme, we determined the crystal structure of ChBP in a ternary complex with GlcNAc and SO(4). It is also the first structures of an inverting phosphorolytic enzyme in a complex with a sugar and a sulfate ion, and reveals a pseudo-ternary complex structure of enzyme-sugar-phosphate. ChBP comprises a beta sandwich domain and an (alpha/alpha)(6) barrel domain, constituting a distinctive structure among GT families. Instead, it shows significant structural similarity with glycoside hydrolase (GH) enzymes, glucoamylases (GH-15), and maltose phosphorylase (GH-65) in clan GH-L. The structural similarity reported here, together with distant sequence similarities between ChBP and GHs, led to the reclassification of family GT-36 into a novel GH family, namely GH-94.
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