Enzymes undergo dynamic conformational changes during catalysis, yet conventional high-resolution structural methods typically capture only the most stable states. Here, we address this gap using rapid UV photolysis of a chemically caged substrate with cryogenic time-resolved electron microscopy (cryo-TREM). We elucidate the catalytic mechanism of GtrB, a membrane-bound glycosyltransferase that transfers glucose from UDP-glucose to the lipid carrier undecaprenyl phosphate. We visualized how GtrB, which has an active site ~15 Å from the membrane, transitions during the catalytic cycle to move each substrate in proximity for catalysis. From a single dataset, we resolved distinct conformational states: the initial substrate-bound state, a catalytically poised intermediate, and the product-bound state. Through molecular dynamics simulations and biochemical analyses, we identify coordinated movements within the active site that drive catalysis. These findings provide a molecular framework for understanding how glycosyltransferases function and highlight a broadly applicable strategy for capturing dynamic enzymatic states in native-like environments.
Mechanistic snapshots of lipid-linked sugar transfer / Morgan, Ryan T.; Motta, Stefano; Gil-Iturbe, Eva; Bhattacharjee, Biddut; Anwar, Mohammad T.; Di Muccio, Giovanni; Romagnoli, Alice; Mishra, Bedangshu; Ashraf, Khuram U.; Bang, Injin; Di Marino, Daniele; Lowary, Todd L.; Quick, Matthias; Petrou, Vasileios I.; Stowell, Michael H. B.; Nygaard, Rie; Mancia, Filippo. - In: NATURE COMMUNICATIONS. - ISSN 2041-1723. - 16:(2025). [10.1038/s41467-025-66769-7]
Mechanistic snapshots of lipid-linked sugar transfer
Di Muccio, Giovanni;Romagnoli, Alice;Di Marino, Daniele;Mancia, Filippo
2025-01-01
Abstract
Enzymes undergo dynamic conformational changes during catalysis, yet conventional high-resolution structural methods typically capture only the most stable states. Here, we address this gap using rapid UV photolysis of a chemically caged substrate with cryogenic time-resolved electron microscopy (cryo-TREM). We elucidate the catalytic mechanism of GtrB, a membrane-bound glycosyltransferase that transfers glucose from UDP-glucose to the lipid carrier undecaprenyl phosphate. We visualized how GtrB, which has an active site ~15 Å from the membrane, transitions during the catalytic cycle to move each substrate in proximity for catalysis. From a single dataset, we resolved distinct conformational states: the initial substrate-bound state, a catalytically poised intermediate, and the product-bound state. Through molecular dynamics simulations and biochemical analyses, we identify coordinated movements within the active site that drive catalysis. These findings provide a molecular framework for understanding how glycosyltransferases function and highlight a broadly applicable strategy for capturing dynamic enzymatic states in native-like environments.| File | Dimensione | Formato | |
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