Issue 11, 2021
From the journal:

Organic & Biomolecular Chemistry

Computational evidence of glycosyl cations

Pedro Merino, ORCID logo *a   Ignacio Delso,bc   Sandra Pereira,a   Sara Orta,b   Manuel Pedróna  and  Tomás Tejerob  

* Corresponding authors

a Unidad de Glicobiología. Instituto de Biocomputación y Física de Sistemas Complejos (BIFI), Universidad de Zaragoza, 50009 Zaragoza, Spain
E-mail: pmerino@unizar.es

b Síntesis y Estructura de Biomoléculas. Instituto de Síntesis Química y Catálisis Homogénea (ISQCH), Universidad de Zaragoza-CSIC, 50009 Zaragoza, Spain

c School of Pharmacy, University of East Anglia, NR4 7TJ Norwich, UK

Abstract

Glycosyl cations are key intermediates in the glycosylation reactions taking place through a SN1-type mechanism. To obtain a reliable description of the glycosylation reaction mechanism a combination of computational studies and experimental data such as kinetic isotopic effects is needed. Computational studies have elucidated SN2-type glycosylation reaction mechanisms, but elucidation of mechanisms in which ion pairs can be formed presents some difficulties because of the recombination of the ions. Recent topological and dynamic studies open the door to the ultimate confirmation of the presence of glycosyl cations in the form of intimate ion pairs during certain glycosylation reactions. This review covers the state-of-the-art tools and applications of computational chemistry mainly developed during the last ten years to understand glycosylation reactions in which an oxocarbenium ion could be involved.

Graphical abstract: Computational evidence of glycosyl cations

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Article information

DOI
https://doi.org/10.1039/D0OB02373F
Article type
Review Article
Submitted
27 Nov 2020
Accepted
18 Jan 2021
First published
18 Jan 2021

Org. Biomol. Chem., 2021,19, 2350-2365

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Computational evidence of glycosyl cations

P. Merino, I. Delso, S. Pereira, S. Orta, M. Pedrón and T. Tejero, Org. Biomol. Chem., 2021, 19, 2350 DOI: 10.1039/D0OB02373F

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