An Automation Platform for the Chemoenzymatic Synthesis of Complex Sulfated and Branched Glycans
Saptashwa Chakraborty, Kyle Minder, Anthony Robert Prudden, Geert-Jan Boons

TL;DR
This paper introduces an automated system for making complex glycans using a mix of enzymes and chemical reactions, enabling the creation of diverse sugar structures important for biological studies.
Contribution
The novel contribution is an automation platform that enables the chemoenzymatic synthesis of complex sulfated and branched glycans using a modular approach.
Findings
The platform successfully synthesizes sulfated polylactosamines and asymmetric multiantennary N-glycans.
Only 11 recombinant human transferases were used to generate structurally diverse glycans.
The system allows for chemical transformations to control enzymatic modification sites.
Abstract
Diverse collections of well-defined glycans are needed to investigate the molecular mechanisms by which these biomolecules mediate biological and disease processes. Several automation approaches have been introduced to accelerate the enzymatic synthesis of complex glycans. These methodologies have, however, provided only relatively simple oligosaccharides due to limitations of glycosyl transferase selectivity. Here, we describe an automation platform that makes it possible, for the first time, to prepare in an automated fashion sulfated polylactosamines and asymmetric multiantennary complex N-glycans via sequential enzymatic and chemical reaction cycles. It integrates glycosyltransferase catalyzed glycosylations, the use of the unnatural sugar nucleotide donor 5′-diphosphate-2-deoxy-2-trifluoro-N-acetamido-glucose (UDP-GlcNHTFA), and chemical manipulations including base-mediated…
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Taxonomy
TopicsCarbohydrate Chemistry and Synthesis · Glycosylation and Glycoproteins Research · Proteoglycans and glycosaminoglycans research
