The genus Pimpinella contains pseudoisoeugenols, phenylpropanoids with a rare 2,5-dioxy substitution pattern on the phenyl ring. To study the biosynthesis of these compounds, we set up a leaf-differentiating tissue culture of Pimpinella anisum. These cultures mainly produce epoxy-pseudoisoeugenol-(2-methylbutyrate). To corroborate the biosynthetic pathway of epoxy-pseudoisoeugenol-(2-methylbutyrate) as proposed on the basis of investigations with 13C/14C-labelled precursors, the key steps of the pathway were investigated at an enzyme level. Experiments with cell-free homogenates clearly revealed that L-phenylalanine is converted to (E)-cinnamic acid by phenylalanine ammonia lyase and that (E)-cinnamic acid is converted to p-coumaric acid by cinnamic acid 4-hydroxylase. L-2-aminooxy-3-phenylpropionic acid, an analogue of L-phenylalanine, inhibited the incorporation of L-[3'-13C]phenylalanine into epoxy-pseudoisoeugenol-(2-methylbutyrate). Up to 2% of the precursor DL-[3'-13C]phenyllactate was incorporated into epoxy-pseudoisoeugenol-(2-methylbutyrate). Inhibition experiments with oxalacetic acid clearly showed that cinnamic acid is not formed by dehydration of phenyllactic acid in this leaf-differentiating tissue culture of P. anisum.
The genus Pimpinella contains rare phenylpropanoids. The 1-(E)-propenyl-2-hydroxy-5-methoxy benzene skeleton of these compounds is called pseudoisoeugenol. To study the biosynthesis of these compounds, we set up a tissue culture of Pimpinella anisum (PAD) that selectively promoted the production of epoxy-pseudoisoeugenol-(2methylbutyrate), termed EPB. This compound served as the final molecule of the biosynthetic pathway in all labelling experiments conducted.The putative precursors were labelled with 13C or lac. The incorporation of the label was followed by 13C-NMR-spectroscopy and liquid scintillation, respectively. Based on our labelling experiments as well as on enzymic reactions in a cell homogenate we proposed a genaral biosynthetic pathway for EPB. The biosynthetic sequence found was L-phenylalanine, trans-cinnamic acid, p-coumaric acid, p-coumaric aldehyde, p-coumaric alcohol, anol and trans-anethol. The biosynthetic step leading from trans-anethol to pseudo-isoeugenol involves migration of the side chain during the introduction of the second OH-group in the molecule (NIH-shift). The final biosynthetic steps to form EPB must be acylation and epoxidation of the propenyl double bond of pseudoisoeugenol.Abbreviations: NMR -Nuclear Magnetic Resonance, NOE -Nuclear Overhauser Effect
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