2021
DOI: 10.1016/j.isci.2020.101998
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Behavior of glycolylated sialoglycans in the binding pockets of murine and human CD22

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Cited by 10 publications
(7 citation statements)
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References 35 publications
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“…Although the orientation around the Neu5Ac-α-(2-6)-Gal was the same as observed for natural CD22 ligands [7][8]34] also when interacting with other Siglecs, as Siglec-10, [35] our results suggested a more extended conformation of the analogue 1 if compared to the natural ligand due to the presence of the rigid aglycon moiety. Moreover, docking and modelling studies provided insights into the fine structural characteristics of the interacting interfaces.…”
Section: Discussionsupporting
confidence: 68%
“…Although the orientation around the Neu5Ac-α-(2-6)-Gal was the same as observed for natural CD22 ligands [7][8]34] also when interacting with other Siglecs, as Siglec-10, [35] our results suggested a more extended conformation of the analogue 1 if compared to the natural ligand due to the presence of the rigid aglycon moiety. Moreover, docking and modelling studies provided insights into the fine structural characteristics of the interacting interfaces.…”
Section: Discussionsupporting
confidence: 68%
“…CD22 recognizes only the terminal disaccharide portions of the N -glycan, regardless of the branch to which they are attached, and reveals that the binding mode to CD22 is superficial and not influenced by the internal sugar residues of the N -glycan. The interaction of Neu5Gc derived ligands with CD22 was also investigated ( Di Carluccio et al, 2021 ) and demonstrated that the Neu5Gc ligand exhibits a similar binding epitope and orientation to CD22 than the Neu5Ac counterpart.…”
Section: Sialic Acid—siglec Interactionsmentioning
confidence: 99%
“…The anomeric positions were chosen based on lectin crystallography studies and biological data suggesting that this site would be the most inert position for derivatization. [31][32][33] With probes in hand, we evaluated their engagement with plant lectins in vitro. Plant lectins, such as LTL, MAL II, and SNA, are commonly used reagents to describe glycan patterns in cells.…”
Section: Resultsmentioning
confidence: 99%