Selective
modification of the hydroxyl groups of sugars has been
a long-standing challenge due to their proximate relative reactivity.
Herein, we report a TMSOTf-catalyzed selective acetylation of the
non-anomeric hydroxyl groups of several per-O-TMS-protected
sugar substrates while leaving their anomeric group unaffected. In
addition to standing versatile by itself, the anomeric O-TMS group left intact can be functionalized to afford key sugar
precursors such as imidate donors, which could otherwise be synthesized
via a stepwise anomeric deprotection-functionalization procedure.
Disaccharide donors are key precursors
in convergent glycan synthesis
strategies. Unexpectedly, we observed that disaccharide thioglycosyl
donors containing 1,4-O-linked α-glycosidic
bonds are much more reactive than their β-analogues with the
same protecting group pattern. Herein, we rationalized that such a
difference in their reactivity is attributed to the conformation of
the 1,4-O-interglycosidic bond which is controlled
by anomeric and exo-anomeric effects. Moreover, the conformational
preferences of these donors are dictated by the dihedral angles ϕ
and ψ of their interglycosidic linkages and the torsional angle
ω of their side chain along the C5–C6 bond. This fundamental
research clarifies how the long-range stereoelectronic effects from
the nonreducing end sugar can influence the reactivity of the leaving
group at the reducing end and the behavior of disaccharide donors
thereof.
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