Isothiourea-Catalysed Acylative Dynamic Kinetic Resolution of Tetra-substituted Morpholinone and Benzoxazinone Lactols

Haoxiang Zhu; Alejandro Manchado; Abikani Omar Farah; Aidan McKay; David Cordes; Paul Ha-Yeon Cheong; Kevin Kasten; Andrew David Smith

doi:10.1002/anie.202402908

Isothiourea-Catalysed Acylative Dynamic Kinetic Resolution of Tetra-substituted Morpholinone and Benzoxazinone Lactols

Angew Chem Int Ed Engl. 2024 May 7:e202402908. doi: 10.1002/anie.202402908. Online ahead of print.

Authors

Haoxiang Zhu¹, Alejandro Manchado¹, Abikani Omar Farah², Aidan McKay¹, David Cordes¹, Paul Ha-Yeon Cheong², Kevin Kasten¹, Andrew David Smith³

Affiliations

¹ University of St Andrews, Chemistry, UNITED KINGDOM.
² Oregon State University, Chemistry, UNITED STATES.
³ University of St Andrews, School of Chemistry, North Haugh, FIFE, KY10 3TH, St. Andrews, UNITED KINGDOM.

PMID: 38713293
DOI: 10.1002/anie.202402908

Abstract

The development of methods to allow the selective acylative dynamic kinetic resolution (DKR) of tetra-substituted lactols is a recognised synthetic challenge. In this manuscript, a highly enantioselective isothiourea-catalysed acylative DKR of tetra-substituted morpholinone and benzoxazinone-derived lactols is reported. The scope and limitations of this methodology have been developed, with high enantioselectivity and good to excellent yields (up to 89%, 99:1 er) observed across a broad range of substrate derivatives incorporating substitution at N(4) and C(2), di- and spirocyclic substitution at C(5)- and C(6)-position, as well as benzannulation (>35 examples in total). The DKR process is amenable to scale-up on a 1 g laboratory scale. The factors leading to high selectivity in this DKR process have been probed through computation, with an N-C=O•••isothiouronium interaction identified as key to producing ester products in highly enantioenriched form.

Keywords: acylation; dynamic kinetic resolution; enantioselective; isothiourea; tetra-substituted morpholinone lactol.