765910-32-5Relevant academic research and scientific papers
Chemical Synthesis of Modified Hyaluronic Acid Disaccharides
Mende, Marco,Nieger, Martin,Br?se, Stefan
, p. 12283 - 12296 (2017/09/14)
Herein we report a chemical synthesis towards new modified hyaluronic acid oligomers by using only commercially available d-glucose and d-glucosamine hydrochloride. The various protected hyaluronic acid disaccharides were synthesized bearing new functional groups at C-6 of the β-d-glucuronic acid moiety with a view to structure-related biological activity tests. The orthogonal protecting group pattern allows ready access to the corresponding higher oligomers. Also, 1H NMR studies of the new derivatives demonstrated the effect of the various functional groups on the intramolecular electronic environment.
Multi-gram synthesis of a hyaluronic acid subunit and synthesis of fully protected oligomers
Virlouvet, Mickael,Gartner, Michael,Koroniak, Katarzyna,Sleeman, Jonathan P.,Braese, Stefan
supporting information; experimental part, p. 2657 - 2662 (2011/01/05)
Fully protected tetra-, hexa- and octasaccharides of hyaluronic acid were synthesized on a scale of several 100 mg up to gram quantities using allyl (methyl 2-O-benzoyl-3-O-benzyl-4-O-levulinoyl-β-D-glucopyranosyluronate)- (1→3)-4-O-acetyl-6-O-benzyl-2-deoxy-2-trichloroacetamido-β-D- glucopyranoside as a key building block. This disaccharide was subjected to deprotection, then glycosylation via the trichloroacetimidate method was employed to achieve the formation of the oligosaccharides.
Toward the modular synthesis of glycosaminoglycans: Synthesis of hyaluronic acid disaccharide building blocks using a periodic acid oxidation
Palmacci, Emma R.,Seeberger, Peter H.
, p. 7755 - 7766 (2007/10/03)
The synthesis of two differentially protected GluNAc-β(1→4)-GluA and GluA-β(1→3)-GluNAc disaccharide modules for the solid-phase assembly of hyaluronic acid are described. A periodic acid/chromium trioxide oxidation was the key transformation to facilitate access to the glucuronic acid moiety from glucose and should find wide application in the oxidation of primary alcohols.
