AI Article Synopsis
- The study investigates how bisecting GlcNAc and core fucosylation modifications impact the structure of N-glycans at the atomic level through replica-exchange molecular dynamics (REMD) simulations.
- The researchers examine four different biantennary complex-type N-glycans, noting that these modifications reduce the number of distinct conformers from five to two or four, showcasing how the chemical changes influence molecular structure.
- The findings align with experimental NMR data, emphasizing the conformational flexibility of N-glycans, which is crucial for their interactions with proteins.
Article Abstract
The introduction of bisecting GlcNAc and core fucosylation in N-glycans is essential for fine functional regulation of glycoproteins. In this paper, the effect of these modifications on the conformational properties of N-glycans is examined at the atomic level by performing replica-exchange molecular dynamics (REMD) simulations. We simulate four biantennary complex-type N-glycans, namely, unmodified, two single-substituted with either bisecting GlcNAc or core fucose, and disubstituted forms. By using REMD as an enhanced sampling technique, five distinct conformers in solution, each of which is characterized by its local orientation of the Manα1-6Man glycosidic linkage, are observed for all four N-glycans. The chemical modifications significantly change their conformational equilibria. The number of major conformers is reduced from five to two and from five to four upon the introduction of bisecting GlcNAc and core fucosylation, respectively. The population change is attributed to specific inter-residue hydrogen bonds, including water-mediated ones. The experimental NMR data, including nuclear Overhauser enhancement and scalar J-coupling constants, are well reproduced taking the multiple conformers into account. Our structural model supports the concept of "conformer selection", which emphasizes the conformational flexibility of N-glycans in protein-glycan interactions.
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