Global Diastereoconvergence in the Ireland–Claisen Rearrangement of Isomeric Enolates: Synthesis of Tetrasubstituted α-Amino Acids
Abstract
A dual experimental/theoretical investigation of the Ireland–Claisen rearrangement of tetrasubstituted α-phthalimido ester enolates to afford α-tetrasubstituted, β-trisubstituted α-amino acids (generally >20:1 dr) is described. For trans allylic olefins, the Z- and E-enol ethers proceed through chair and boat transition states, respectively. For cis allylic olefins, the trend is reversed. As a result, the diastereochemical outcome of the reaction is preserved regardless of the geometry of the enolate or the accompanying allylic olefin. We term this unique convergence of all possible olefin isomers global diastereoconvergence. This reaction manifold circumvents limitations in present-day technologies for the stereoselective enolization of α,α-disubstituted allyl esters. Density functional theory paired with state-of-the-art local coupled-cluster theory (DLPNO-CCSD(T)) was employed for the accurate determination of quantum mechanical energies.
Additional Information
© 2020 American Chemical Society. Received: November 1, 2020; Published: December 15, 2020. We thank the NIH-NIGMS (R01GM080269), NSF Grant CHE-1764328, the Gordon and Betty Moore Foundation, and Caltech for financial support. We thank the Caltech High Performance Computing Center for support. E.J.A. thanks the National Science Foundation for a predoctoral fellowship. We thank Dr. David VanderVelde (Caltech) for NMR expertise. Dr. Scott Virgil (Caltech Center for Catalysis and Chemical Synthesis) is thanked for instrumentation and SFC assistance. Dr. Michael Takase (Caltech) and Lawrence Henling (Caltech) are acknowledged for X-ray analysis. We acknowledge the X-ray Crystallography Facility in the Beckman Institute at Caltech and a Dow Next Generation Instrumentation Grant. Alexandra Beard (Caltech) is acknowledged for initial studies on phthalimide removal strategies. This manuscript is dedicated to our friend and colleague Professor Michael Krout (Bucknell University). Author Contributions: T.J.F. and A.Q.C. contributed equally. The authors declare no competing financial interest.Attached Files
Accepted Version - nihms-1748567.pdf
Supplemental Material - ja0c11480_si_001.pdf
Supplemental Material - ja0c11480_si_002.xlsx
Supplemental Material - ja0c11480_si_003.zip
Supplemental Material - ja0c11480_si_004.cif
Supplemental Material - ja0c11480_si_005.cif
Supplemental Material - ja0c11480_si_006.cif
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Additional details
- PMCID
- PMC8552564
- Eprint ID
- 106432
- Resolver ID
- CaltechAUTHORS:20201104-135041447
- R01GM080269
- NIH
- CHE-1764328
- NSF
- Gordon and Betty Moore Foundation
- Caltech
- NSF Predoctoral Fellowship
- Dow Next Generation Educator Fund
- Created
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2020-11-05Created from EPrint's datestamp field
- Updated
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2023-06-01Created from EPrint's last_modified field