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Chemical Synthesis of a Branched Nonasaccharide Fragment from Helicobacter pylori Lipopolysaccharide.

Ling LiXiao-Chen YinYuan-Yuan JiangYi-Fei XiaXia WangJiao LiHong LiYong QinJin-Song Yang
Published in: Organic letters (2024)
A chemical synthesis of a unique nanosaccharide fragment from Helicobacter pylori lipopolysaccharide was achieved via a convergent glycosylation method. Challenges involved in the synthesis include the highly stereoselective construction of β-3-deoxy-d- manno -oct-2-ulosonic acid (Kdo) and two 1,2- cis -glycosidic linkages, as well as the formation of a branched 2,7-disubstituted heptose subunit. Hydrogen-bond mediated aglycone delivery strategy and benzoyl-directing remote participation effect were employed, respectively, for the efficient generation of the desired β-Kdo glycoside and 1,2- cis -α-l-fucoside/d-glucoside. Moreover, the key branched framework was successfully established through a [(7 + 1) + 1] assembly approach involving the stepwise glycosylation of the heptasaccharide alcohol with two monosaccharide donors. The synthesized 1 containing a propylamine linker at the reducing end can be covalently bound to a carrier protein for further immunological studies.
Keyphrases
  • helicobacter pylori
  • helicobacter pylori infection
  • inflammatory response
  • toll like receptor
  • lps induced
  • physical activity
  • optical coherence tomography
  • immune response
  • protein kinase
  • amino acid