BIOSYNTHESIS OF THE ANTIBIOTIC MADURAMICIN

ORIGIN OF THE CARBON AND OXYGEN ATOMS AS WELL AS THE ¹³C NMR ASSIGNMENTS

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The biosynthesis of maduramicin α and β in a culture of Actinomadura yumaensis has been studied using ¹³C, ¹⁴C and ¹⁸O labeled precursors. The α component of this recently discovered polyether antibiotic, containing forty-seven carbon atoms in a seven-ring system, is derived from eight acetate, seven propionate and four methionine molecules. The β component which is missing one methoxy group incorporates three methionine methyl groups. The carbohydrate moiety was enriched by methionine, but not significantly by acetate or propionate. Studies of the incorporation of ¹³C labeled precursors permit the ¹³C NMR assignment of maduramicin. The origin of oxygen atoms of maduramicin has been examined by feeding [1-¹³C, ¹⁸O₂]acetate and [1-¹³C, ¹⁸O₂]propionate separately in the fermentation culture and the resulting doubly labeled maduramicin samples were analyzed by the isotopic shifts in the ¹³C NMR spectra. These results are consistent with the initial formation of a triene, which is converted to maduramicin by cyclization of the triepoxide.