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Kinetic Analysis of a Cysteine-Derived Thiyl-Catalyzed Asymmetric Vinylcyclopropane Cycloaddition Reflects Numerous Attractive Noncovalent Interactions

Amanda K. Turek, Marcus H. Sak, Scott J. Miller

2021Journal of the American Chemical Society35 citationsDOIOpen Access PDF

Abstract

Kinetic studies of a vinylcyclopropane (VCP) cycloaddition, catalyzed by peptide-based thiyl radicals, are described. Reactions were analyzed by using reaction progress kinetic analysis, revealing that ring-opening of the VCP is both rate- and enantio-determining. These conclusions are further corroborated by studies involving racemic and enantiopure VCP starting material. Noncovalent interactions play key roles throughout: both the peptide catalyst and VCP exhibit unproductive self-aggregation, which appears to be disrupted by binding between the catalyst and VCP. This in turn explains the requirement for the key catalyst feature, a substituent at the 4-position of the proline residue, which is required for both turnover/rate and selectivity.

Topics & Concepts

ChemistryCycloadditionSubstituentEnantiopure drugCatalysisNon-covalent interactionsPeptideCombinatorial chemistryStereochemistryEnantioselective synthesisOrganic chemistryMoleculeBiochemistryHydrogen bondOrganic Chemistry Cycloaddition ReactionsCyclopropane Reaction MechanismsClick Chemistry and Applications
Kinetic Analysis of a Cysteine-Derived Thiyl-Catalyzed Asymmetric Vinylcyclopropane Cycloaddition Reflects Numerous Attractive Noncovalent Interactions | Litcius