Abstract
Root cultures of Tagetes patula L. cv. Carmen were grown with a mixture of unlabeled glucose and [U- 13C 6]glucose or [1- 13C 1]glucose as carbon source. Isoeuparin and (−)-4-hydroxytremetone were isolated by solvent extraction of the cultured tissue, purified by chromatography and analysed by 1H and 13C NMR spectroscopy. Amino acids obtained by hydrolysis of protein from the same experiments were used for the reconstruction of the labelling patterns in central metabolic intermediates. These labelling patterns were used for the prediction of isotopolog compositions in the benzofuranone derivatives via different hypothetical pathways. Comparison with the experimentally observed isotopolog distributions showed that the benzenoid ring and the acetoxy group are exclusively or predominantly (>98%) derived from phenylalanine and not from acetyl-CoA via a polyketide-type biosynthesis. The isopropylidene side chain and two carbon atoms of the furan and dihydrofuran moiety, respectively, originate from an isoprenoid building block obtained exclusively or predominantly (>98%) via the deoxyxylulose phosphate pathway. The exomethylene atom of the isopropylidene side chain is biosynthetically equivalent to the ( Z)-methyl group of dimethylallyl diphosphate. The data indicate that isoeuparin and (−)-4-hydroxytremetone are assembled from 4-hydroxyacetophenone and dimethylallyl diphosphate via prenyl-substituted 4-hydroxyacetophenone and dihydrobenzofurans as intermediates.
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