Abstract
Short chain carboxylic acids are well known as the precursors of fatty acid and polyketide biosynthesis. Iso-fatty acids, which are important for the control of membrane fluidity, are formed from branched chain starter units (isovaleryl-CoA and isobutyryl-CoA), which in turn are derived from the degradation of leucine and valine, respectively. Branched chain carboxylic acids are also employed as starter molecules for the biosynthesis of secondary metabolites, e.g. the therapeutically important anthelmintic agent avermectin or the electron transport inhibitor myxothiazol. During our studies on myxothiazol biosynthesis in the myxobacterium, Stigmatella aurantiaca, we detected a novel biosynthetic route to isovaleric acid. After cloning and inactivation of the branched chain keto acid dehydrogenase complex, which is responsible for the degradation of branched chain amino acids, the strain is still able to produce iso-fatty acids and myxothiazol. Incorporation studies employing deuterated leucine show that it can only serve as precursor in the wild type strain but not in the esg mutant. Feeding experiments using (13)C-labeled precursors show that isovalerate is efficiently made from acetate, giving rise to a labeling pattern in myxothiazol that provides evidence for a novel branch of the mevalonate pathway involving the intermediate 3,3-dimethylacryloyl-CoA. 3,3-Dimethylacrylic acid was synthesized in deuterated form and fed to the esg mutant, resulting in strong incorporation into myxothiazol and iso-fatty acids. Similar experiments employing Myxococcus xanthus revealed that the discovered biosynthetic route described is present in other myxobacteria as well.
Highlights
Fatty acids (FA)1 are important building blocks of cell membranes
The modified primers used for iso-FA biosynthesis are the coenzyme A esters of isovaleric acid (IVA, resulting in iso-odd FA with an uneven number of carbon atoms), isobutyric acid (IBA, resulting in iso-even FA with an even number of carbon atoms), or 2-methyl butyric acid (2MBA, resulting in ante-iso FA, in which the methyl branch is located on the third carbon atom counted from the -end of the chain), which can be generated via the degradation pathway from branched chain amino acids or from intermediates of the biosyntheses of these essential amino acids (Fig. 1)
The initial indication for a second route in the strain leading to the formation of IVA came from the experiment that showed that the esg mutant of S. aurantiaca DW4/3-1 is unable to create iso-FA and myxothiazol from leucine
Summary
Fatty acids (FA) are important building blocks of cell membranes. The various groups of prokaryotes differ remarkably in the structure and synthesis of fatty acid-derived lipids, which serve as reliable systematic marker molecules in chemotax-. The branched chain amino acids leucine, valine, and isoleucine are transaminated by a separate enzyme and oxidatively decarboxylated by the Bkd (branched chain keto acid dehydrogenase) complex, resulting in IVA-CoA, IBA-CoA, and 2MBA-CoA, respectively (3). These precursors are employed in iso-FA biosynthesis but can as well serve as starter molecules for the formation of polyketides. These represent a group of immensely diverse natural products with biological activity, many of which are widely used in the clinic. M. xanthus contains an immense diversity of FA, which include saturated, unsaturated, branched chain, and hydroxylated species (14)
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