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Fosmidomycin biosynthesis diverges from related phosphonate natural products.

Nature chemical biology (2019-08-28)
Elizabeth I Parkinson, Annette Erb, Andrew C Eliot, Kou-San Ju, William W Metcalf
RESUMO

Fosmidomycin and related molecules comprise a family of phosphonate natural products with potent antibacterial, antimalarial and herbicidal activities. To understand the biosynthesis of these compounds, we characterized the fosmidomycin producer, Streptomyces lavendulae, using biochemical and genetic approaches. We were unable to elicit production of fosmidomycin, instead observing the unsaturated derivative dehydrofosmidomycin, which we showed potently inhibits 1-deoxy-D-xylulose-5-phosphate reductoisomerase and has bioactivity against a number of bacteria. The genes required for dehydrofosmidomycin biosynthesis were established by heterologous expression experiments. Bioinformatics analyses, characterization of intermediates and in vitro biochemistry show that the biosynthetic pathway involves conversion of a two-carbon phosphonate precursor into the unsaturated three-carbon product via a highly unusual rearrangement reaction, catalyzed by the 2-oxoglutarate dependent dioxygenase DfmD. The required genes and biosynthetic pathway for dehydrofosmidomycin differ substantially from that of the related natural product FR-900098, suggesting that the ability to produce these bioactive molecules arose via convergent evolution.

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Sigma-Aldrich
L-Methionine-(methyl-13C), 99 atom % 13C
Sigma-Aldrich
Diethyl allylphosphonate, 98%
Millipore
Mueller Hinton Broth 2, NutriSelect® Plus, Cation-adjusted, suitable for microbiology