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Abstract
ABSTRACT: Two routes to assemble the complete tricyclic core of alopecurone C are described. In the first-generation route, an efficient synthesis of the “eastern” half of the target, including a decagram-scale rhodium-catalyzed C–H insertion reaction, was developed. When this route proved intractable for assembling the final flavanone ring, a successful second-generation route was developed from a flavanone precursor (naringenin) employing a later stage C–H insertion. Although the second route was ultimately unsuccessful for preparation of the final target, it does provide the basis for the efficient assembly of the complete tricyclic core of alopecurone C and related flavonostilbenoid natural products.
Supplementary materials
Title
Assembly of the Tricyclic Core of Alopecurone C by Asymmetric Donor/Donor Carbene C–H Insertion
Description
Experimental procedures, X-ray crystallography data, computational NMR, chiral HPLC spectra, and NMR spectra
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