Solid-phase synthesis glycopeptides

Seitz O, Kunz H. HYCRON, an allylic anchor for high-efficiency solid phase synthesis of protected peptides and glycopeptides. J Org Chem 1997 62 813-826. [Pg.221]

Nakamura K, Hanai N, Kanno M, Kobayashi A, Ohnishi Y, Ito Y, Nakahara Y. Design and synthesis of silyl ether-based linker for solid-phase synthesis of glycopeptides. Tetrahedron Lett 1999 40 515-518. [Pg.221]

J. Vondrasek, and M. Pisacka, Solid phase synthesis of glycopeptide dendrimers with Tn antigenic structure and their biological activities. Part I, J. Pept. Sci., 5 (1999) 46-55. [Pg.385]

Urge, L., Kollat, E., Hollosi, M., Laczko, I., Wroblewski, K., Thurin, J., and Otvos Jr., L. (1991) Solid-phase synthesis of glycopeptides synthesis of Na-fluorenylmethoxycarbonyl L-asparagine Nb-glyco-sides. Tetrahedron Lett. 32, 3445-3448. [Pg.1123]

The solid-phase synthesis of glycopeptides was first realized by applying the polymeric benzyl ester principle of Merrifield. According to this methodology, Lavielle and associates (50) used 7V-(tm-butyloxycarbonyl)-<9-glycosyl serine derivative 153 for condensation with resin-linked alanine 154. [Pg.299]

Otvos et al. (27) adopted the Fmoc-pentafluorophenyl ester methodology and have applied O-deacetylated glycopeptide intermediates (170 and 171) for solid-phase synthesis of glycopeptides. In this way, the A-glycopep-tide (26) H-Gly-L-Lys-L-Ala-L-Tyr-L-Thr-L-Ile-L-Phe-L-... [Pg.302]

Solid-Phase Synthesis of Biologically Important Glycopeptides... [Pg.257]

SOLID-PHASE SYNTHESIS OF BIOLOGICALLY IMPORTANT GLYCOPEPTIDES... [Pg.258]

Scheme 13.7 Solid-phase synthesis of a glycopeptide from the homophilic recognition domain of epithelial Cadherin 1 using the new coupling reagent PfPyU.

Scheme 13.17 Solid-phase synthesis of CD52 glycopeptide.

Scheme 13.21 Solid-phase synthesis of carbohydrate bound glycopeptides.

For the solid-phase synthesis of glycopeptides, both polystyrene and PEG-based resins have been successfully used. Experiments that compare the rates of reactions on various resins have revealed that the rate of reaction completely depends on the nature of the reaction itself 45 Some reactions perform better on hydrophobic resins, while others are better on hydrophilic resins. [Pg.289]

Scheme 14.1 Strategies for glycopeptide library synthesis Strategy 1 chemical or enzymatic glycosylation of peptide or glycopeptide Strategy 2 the building-block approach. While enzymes have not yet been used in the solid-phase synthesis of glycopeptide libraries, several resin-bound glycopeptides have been glycosylated enzymatically.36,114...

H Kunz, B Dombo. Solid phase synthesis of peptides and glycopeptides on polymeric supports with allylic anchor groups. Angew Chem Int Edn Engl 27, 711, 1988. [Pg.151]

M Meldal, B Klaus. Pentafluorophenyl esters for temporary carboxyl group protection in solid phase synthesis of A-linked glycopeptides. Tetrahedron Lett 48, 6987, 1990. [Pg.211]

New allylic anchors as the HYCRAM (19) (hydroxycrotonylamide) [50] and HY-CRON (21) (hydroxycrotyl-oligoefhylene glycol-n-alkanoyl) [51] linker have been developed, which exhibit excellent properties for the solid-phase synthesis of protected peptides and glycopeptides. A more flexible spacer was inserted in the HY-CRON (21) linker between the anchor and the polymeric support in order to facilitate an efficient access to the Pd(0) complex during the detachment reaction. [Pg.141]

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