Beilstein Journal of Organic Chemistry (Jun 2014)

Biantennary oligoglycines and glyco-oligoglycines self-associating in aqueous medium

  • Svetlana V. Tsygankova,
  • Alexander A. Chinarev,
  • Alexander B. Tuzikov,
  • Nikolai Severin,
  • Alexey A. Kalachev,
  • Juergen P. Rabe,
  • Alexandra S. Gambaryan,
  • Nicolai V. Bovin

DOI
https://doi.org/10.3762/bjoc.10.140
Journal volume & issue
Vol. 10, no. 1
pp. 1372 – 1382

Abstract

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Oligoglycines designed in a star-like fashion, so-called tri- and tetraantennary molecules, were found to form highly ordered supramers in aqueous medium. The formation of these supramers occurred either spontaneously or due to the assistance of a mica surface. The driving force of the supramer formation is hydrogen bonding, the polypeptide chain conformation is related to the folding of helical polyglycine II (PG II). Tri- and tetraantennary molecules are capable of association if the antenna length reach 7 glycine (Gly) residues. Properties of similar biantennary molecules have not been investigated yet, and we compared their self-aggregating potency with similar tri- and tetraantennary analogs. Here, we synthesized oligoglycines of the general formula R-Glyn-Х-Glyn-R (X = -HN-(СН2)m-NH-, m = 2, 4, 10; n = 1–7) without pendant ligands (R = H) and with two pendant sialoligands (R = sialic acid or sialooligosaccharide). Biantennary oligoglycines formed PG II aggregates, their properties, however, differ from those of the corresponding tri- and tetraantennary oligoglycines. In particular, the tendency to aggregate starts from Gly4 motifs instead of Gly7. The antiviral activity of end-glycosylated peptides was studied, and all capable of assembling glycopeptides demonstrated an antiviral potency which was up to 50 times higher than the activity of peptide-free glycans.

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