Michael S. Cowled scite author profile

The tricyclic scaffold of the bacterial polyketide enterocin was recently shown to undergo stereodiversification through a series of abiotic isomerizations, described metaphorically as a “ballet of isomers”. However, some confusion remains regarding the exact nature of these interconversions, with two independent reports proposing different reaction mechanisms and intermediates. Herein, we have rechoreographed enterocin’s ballet of isomers to provide a unified mechanism and revised the structures reported for enterocins C, D, and F.

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Stereodivergent Hydroxylation of Berkeleylactones by Penicillium turbatum

Cowled

Gilchrist

et al. 2022

J. Nat. Prod.

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Penicillium turbatum has previously been reported to produce A26771B, a 16-membered macrocyclic polyketide with activity against Gram-positive bacteria, mycoplasma, and fungi, as well as the structurally related compounds berkeleylactone E and berkeleylactones I−O. In this work, large-scale cultivation of P. turbatum NRRL 5630 on rice yielded seven new berkeleylactone analogues, berkeleylactone E methyl ester, 14-epi-berkeleylactone F, berkeleylactones P−R, 12-epi-berkeleylactone Q, and 13-epiberkeleylactone R, and six previously reported analogues, A26771B and berkeleylactones E−G and J−K. The structures of the berkeleylactones were elucidated by detailed analysis of spectroscopic data, molecular modeling, and comparison with literature values. Interestingly, six of the berkeleylactone analogues were isolated as pairs of hydroxy epimers, highlighting how Nature can exploit stereodivergence in biosynthetic pathways to increase chemical diversity. The genome of P. turbatum was sequenced, and a putative gene cluster (bekl) responsible for the biosynthesis of the berkeleylactones was identified. The new berkeleylactone analogues exhibited no significant biological activity against a panel of bacteria, fungi, the parasite Giardia duodenalis, or NS-1 murine myeloma cells, suggesting a hitherto undiscovered biological role.

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Yeppoonic acids A – D: 1,2,4-trisubstituted arene carboxylic acid co-metabolites of conglobatin from an Australian Streptomyces sp.

Chen¹,

Vuong²,

Cowled

et al. 2021

J Antibiot

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Michael S. Cowled

The chemical gymnastics of enterocin: evidence for stereodivergence in Nature

Rechoreographing Enterocin’s Ballet of Isomers: Structure Revision of Enterocins C, D, and F

Stereodivergent Hydroxylation of Berkeleylactones by Penicillium turbatum

Yeppoonic acids A – D: 1,2,4-trisubstituted arene carboxylic acid co-metabolites of conglobatin from an Australian Streptomyces sp.

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