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Glycan-protein interactions determine kinetics of N-glycan remodeling.

Corina MathewR Gregor WeißChristoph GieseChia-Wei LinMarie-Estelle LosfeldRudi GlockshuberSereina RinikerMarkus Aebi
Published in: RSC chemical biology (2021)
A hallmark of N-linked glycosylation in the secretory compartments of eukaryotic cells is the sequential remodeling of an initially uniform oligosaccharide to a site-specific, heterogeneous ensemble of glycostructures on mature proteins. To understand site-specific processing, we used protein disulfide isomerase (PDI), a model protein with five glycosylation sites, for molecular dynamics (MD) simulations and compared the result to a biochemical in vitro analysis with four different glycan processing enzymes. As predicted by an analysis of the accessibility of the N-glycans for their processing enzymes derived from the MD simulations, N-glycans at different glycosylation sites showed different kinetic properties for the processing enzymes. In addition, altering the tertiary structure of the glycoprotein PDI affected its N-glycan remodeling in a site-specific way. We propose that the observed differential N-glycan reactivities depend on the surrounding protein tertiary structure and lead to different glycan structures in the same protein through kinetically controlled processing pathways.
Keyphrases
  • molecular dynamics
  • cell surface
  • protein protein
  • density functional theory
  • induced apoptosis
  • high resolution
  • small molecule
  • deep learning
  • pi k akt
  • cell cycle arrest