A chemical synthesis of a core fucose containing N-glycan was achieved. Asparagine was introduced at an early stage of the synthesis, and the sugar chain was convergently elongated. As for the fragment synthesis, we reinvestigated α-sialylation, β-mannosylation, and N-glycosylation to reveal that precise temperature control was essential for these glycosylations. Intermolecular hydrogen bonds involving acetamide groups were found to reduce the reactivity in glycosylations: the protection of NHAc as NAc2 dramatically improved the reactivity. The dodecasaccharide-asparagine framework was constructed via the (4 + 4) glycosylation and the (4 + 8) glycosylation using the tetrasaccharide donor and the tetrasaccharide-asparagine acceptor. An ether-type solvent enhanced the yields of these key glycosylations between large substrates. After the whole deprotection of the dodecasaccharide, the target N-glycan was obtaine
Chemical Synthesis of a Complex-Type N-Glycan Containing a Core Fucose / Nagasaki, Masahiro; Manabe, Yoshiyuki; Minamoto, Naoya; Tanaka, Katsunori; Silipo, Alba; Molinaro, Antonio; Fukase, Koichi. - In: JOURNAL OF ORGANIC CHEMISTRY. - ISSN 0022-3263. - 81:22(2016), pp. 10600-10616. [10.1021/acs.joc.6b02106]
Chemical Synthesis of a Complex-Type N-Glycan Containing a Core Fucose
SILIPO, ALBA;MOLINARO, ANTONIO;
2016
Abstract
A chemical synthesis of a core fucose containing N-glycan was achieved. Asparagine was introduced at an early stage of the synthesis, and the sugar chain was convergently elongated. As for the fragment synthesis, we reinvestigated α-sialylation, β-mannosylation, and N-glycosylation to reveal that precise temperature control was essential for these glycosylations. Intermolecular hydrogen bonds involving acetamide groups were found to reduce the reactivity in glycosylations: the protection of NHAc as NAc2 dramatically improved the reactivity. The dodecasaccharide-asparagine framework was constructed via the (4 + 4) glycosylation and the (4 + 8) glycosylation using the tetrasaccharide donor and the tetrasaccharide-asparagine acceptor. An ether-type solvent enhanced the yields of these key glycosylations between large substrates. After the whole deprotection of the dodecasaccharide, the target N-glycan was obtaineI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
