Phenylpropanstoffwechsel

Hydroxycinnamoyl-CoA : tyramine N-(hydroxycinnamoyl) transferase (THT) is a pivotal enzyme in the synthesis of N-(hydroxycinnamoyl)-amines, which are associated with cell wall fortification in plants. The cDNA encoding THT was cloned from the leaves of UV-C treated Capsicum annuum (hot pepper) using a differential screening strategy. The predicted protein encoded by the THT cDNA is 250 amino acids in length and has a relative molecular mass of 28,221. The protein sequence derived from the cDNA shares 76% and 67% identity with the potato and tobacco THT protein sequences, respectively. The recombinant pepper THT enzyme was purified using a bacterial overexpression system. The purified enzyme has a broad substrate specificity including acyl donors such as cinnamoyl-, sinapoyl-, feruloyl-, caffeoyl-, and 4-coumaroyl-CoA and acceptors such as tyramine and octopamine. In UV-C treated plants, the THT mRNA was strongly induced in leaves, and the elevated level of expression was stable for up to 36 h. THT mRNA also increased in leaves that were detached from the plant but not treated with UV-C. THT expression was measured in different plant tissues, and was constitutive at a similar level in leaf, root, stem, flower and fruit. Induction of THT mRNA was correlated with an increase in THT protein.

We have previously described a truncated cDNA clone for a barley (Hordeum vulgare L. cv. Salome) jasmonate regulated gene, JRG5, which shows homology to caffeic acid O-methyltransferase (COMT). A cDNA encompassing the coding region was amplified by PCR and cloned for overexpression in E. coli. Western blot analyses indicate that the recombinant protein crossreacts with the antibodies directed against the tobacco class II OMT and only weakly with the antibodies for the tobacco class I OMT. An immunoreactive band in the protein extract of jasmo-nate-treated leaf segments suggests that JRG5 transcripts that accumulate after jasmonate treatment are also translated. Specific methylating activities on caffeic acid and catechol were obtained from the recombinant protein through renaturation of protein extracted from inclusion bodies or from bacteria grown and induced at low temperature. On Northern blots, the JRG5 transcripts were detected in the leaf sheath but not the leaf lamina, stem, root or inflorescence and accumulated in leaf segments after jasmonate application. Several hormone or stress treatments did not induce JRG5 mRNA accumulation. This includes sor-bitol stress which is known to lead to enhanced endogenous jasmonate levels and the implications for jasmonate signaling are discussed. Based on quantitative measurements and fluorescence microscopy, jasmonate-induced accumulation of ferulic acid and phenolic polymers in the cell wall were detected and the possibility of cell wall strengthening mediated through phenolic crosslinks is discussed