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- Title
Enantioselective Total Synthesis of the Proposed Structure of the Endophytic Fungal Metabolite Phomolide G: Structural Revision and Unambiguous Stereochemical Assignment.
- Authors
McNulty, James; McLeod, David; Jenkins, Hilary A.
- Abstract
A total synthesis of the proposed structure of the natural macrolactone phomolide G ( 1) by a bidirectional strategy from L-tartaric acid is reported. The ω-terminus of the molecule was elaborated by nitrile extension, C3-alkylation and a substrate-controlled 1,3-ketone reduction. The α-terminus was extended by a C2 aldehyde-to-alkenal homologation followed by an auxiliary controlled aldol reaction. Macrolactonization and deprotection yielded compound 1 (confirmed by X-ray analysis). This putative structure of phomolide G displayed discordant NMR spectroscopic data in comparison with those of the natural product. Detailed inspection of all NMR spectroscopic data available indicated phomolide G to be likely a diastereomer of 1. The synthetic strategy developed allows control of the absolute stereochemistry at all four chiral secondary alcohol groups. Further manipulation allowed for the preparation of diastereomer 33, the 1H and 13C NMR spectroscopic data of which are in full accord with that reported for the natural product.
- Subjects
ENANTIOSELECTIVE catalysis; FUNGAL metabolites; ALKYLATION; POLYKETIDE synthases; CYCLOALKENES; ALLYLATION; CHELATION
- Publication
European Journal of Organic Chemistry, 2016, Vol 2016, Issue 4, p688
- ISSN
1434-193X
- Publication type
Article
- DOI
10.1002/ejoc.201501592