Literature DB >> 20108907

Erosion of stereochemical control with increasing nucleophilicity: O-glycosylation at the diffusion limit.

Matthew G Beaver1, K A Woerpel.   

Abstract

Nucleophilic substitution reactions of 2-deoxyglycosyl donors indicated that the reactivity of the oxygen nucleophile has a significant impact on stereoselectivity. Employing ethanol as the nucleophile resulted in a 1:1 (alpha:beta) ratio of diastereomers under S(N)1-like reaction conditions. Stereoselective formation of the 2-deoxy-alpha-O-glycoside was only observed when weaker nucleophiles, such as trifluoroethanol, were employed. The lack of stereoselectivity observed in reactions of common oxygen nucleophiles can be attributed to reaction rates of the stereochemistry-determining step that approach the diffusion limit. In this scenario, both faces of the prochiral oxocarbenium ion are subject to nucleophilic addition to afford a statistical mixture of diastereomeric products. Control experiments confirmed that all nucleophilic substitution reactions were performed under kinetic control.

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Year:  2010        PMID: 20108907      PMCID: PMC2838447          DOI: 10.1021/jo902222a

Source DB:  PubMed          Journal:  J Org Chem        ISSN: 0022-3263            Impact factor:   4.354


  34 in total

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Journal:  Org Lett       Date:  2008-09-03       Impact factor: 6.005

6.  Efficient route to 2-deoxy beta-O-aryl-d-glycosides via direct displacement of glycosyl iodides.

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9.  Highly Direct alpha-Selective Glycosylations of 3,4-O-Carbonate-Protected 2-Deoxy- and 2,6-Dideoxythioglycosides by Preactivation Protocol.

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10.  A series of 2-O-trifluoromethylsulfonyl-D-mannopyranosides as precursors for concomitant 18F-labeling and glycosylation by click chemistry.

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  30 in total

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3.  Stereoselectivity of Conformationally Restricted Glucosazide Donors.

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7.  Participation of alkoxy groups in reactions of acetals: violation of the reactivity/selectivity principle in a Curtin-Hammett kinetic scenario.

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8.  Methodology development and physical organic chemistry: a powerful combination for the advancement of glycochemistry.

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