Mimicry of the Proton Wire Mechanism of Enzymes Inside a Supramolecular Capsule Enables β-selective O-glycosylations

Overview

Journal Nat Chem

Specialty Chemistry

Date 2022 Jul 7

PMID 35798949

Authors

Tian-Ren Li

Fabian Huck

GiovanniMaria Piccini

Konrad Tiefenbacher

Affiliations

Soon will be listed here.

Abstract

Enzymes achieve high substrate and product selectivities by orientating and activating the substrate(s) appropriately inside a confined and finely optimized binding pocket. Although some basic aspects of enzymes have already been mimicked successfully with man-made catalysts, substrate activation by proton wires inside enzyme pockets has not been recreated with man-made catalysts so far. A proton wire facilitates the dual activation of a nucleophile and an electrophile via a reciprocal proton transfer, enabling highly stereoselective reactions under mild conditions. Here we present evidence for such an activation mode inside the supramolecular resorcin[4]arene capsule and demonstrate that it enables catalytic and highly β-selective glycosylation reactions-still a major challenge in glycosylation chemistry. Extensive control experiments provide very strong evidence that the reactions take place inside the molecular container. We show that this activation strategy is compatible with a broad scope of glycoside donors and nucleophiles, and is only limited by the cavity size.

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