Macrocyclic bis-thioureas catalyze stereospecific glycosylation reactions

Macrocyclic bis-thioureas catalyze stereospecific glycosylation reactions

Carbohydrates are involved in nearly all aspects of biochemistry, but their complex chemical structures present long-standing practical challenges to their synthesis. In particular, stereochemical outcomes in glycosylation reactions are highly dependent on the steric and electronic properties of cou...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2017-01, Vol.355 (6321), p.162-166
Hauptverfasser: Park, Yongho, Harper, Kaid C., Kuhl, Nadine, Kwan, Eugene E., Liu, Richard Y., Jacobsen, Eric N.
Format: Artikel
Sprache:eng
Schlagworte:
Anchors
Carbohydrates
Catalysis
Catalysts
Chemical reactions
Chemical synthesis
Chlorides
Configurations
Coupling (molecular)
Derivatives
Glycosides
Glycosides - chemical synthesis
Glycosylation
Macrocyclic compounds
Nucleophiles
Stereoisomerism
Substitution reactions
Sugar
Sugars
Synthesis (chemistry)
Thiourea
Thiourea - analogs & derivatives
Thiourea derivatives
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Zusammenfassung:Carbohydrates are involved in nearly all aspects of biochemistry, but their complex chemical structures present long-standing practical challenges to their synthesis. In particular, stereochemical outcomes in glycosylation reactions are highly dependent on the steric and electronic properties of coupling partners; thus, carbohydrate synthesis is not easily predictable. Here we report the discovery of a macrocyclic bis-thiourea derivative that catalyzes stereospecific invertive substitution pathways of glycosyl chlorides. The utility of the catalyst is demonstrated in the synthesis of trans-1,2-, cis-1,2-, and 2-deoxy-β-glycosides. Mechanistic studies are consistent with a cooperative mechanism in which an electrophile and a nucleophile are simultaneously activated to effect a stereospecific substitution reaction.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aal1875