Hypericum perforatum L. cell suspensions were evaluated for their viability, growth, dark gland formation and ability to produce phenylpropanoids and naphtodiantrones after elicitation with different jasmonic acid (JA) concentrations. Phenolic compounds were analyzed by high performance liquid chromatography with diode array detection (HPLC-DAD) and electrospray ionization mass spectrometry (ESI-MS). The activities of two key enzymes of the phenylpropanoid/flavonoid pathways, phenylalanine ammonia lyase (PAL) and chalcone isomerase (CHI) were also monitored to estimate general channeling in the different metabolic pathways. A 6-fold increase of phenolic compounds, flavanols and flavonols after JA elicitation was observed in cells. In contrast, anthocyanins were in lower amounts in JA treated cells suggesting a modification of the channeling in the phenylpropanoid pathway. Similar accumulations with maxima after 4 days of elicitation were found for naphtodianthrones (2.4-fold) such as hypericin and pseudohypericin in cells. At least a 6-8-fold increase of PAL and CHI activities was observed in JA elicited cells confirming a strong activation of the phenylpropanoid pathway. JA elicitation increased production of phenylpropanoids and naphtodianthrones in H. perforatum cell suspension without differentiation of dark glands under 16 h photoperiod.
An epigenetic control of vernalization has been demonstrated in annual plants such as Arabidopsis and cereals, but the situation remains unclear in biennial plants such as sugar beet that has an absolute requirement for vernalization. The role of DNA methylation in flowering induction and the identification of corresponding target loci also need to be clarified. In this context, sugar beet (Beta vulgaris altissima) genotypes differing in bolting tolerance were submitted to various bolting conditions such as different temperatures and/or methylating drugs. DNA hypomethylating treatment was not sufficient to induce bolting while DNA hypermethylation treatment inhibits and delays bolting. Vernalizing and devernalizing temperatures were shown to affect bolting as well as DNA methylation levels in the shoot apical meristem. In addition, a negative correlation was established between bolting and DNA methylation. Genotypes considered as resistant or sensitive to bolting could also be distinguished by their DNA methylation levels. Finally, sugar beet homologues of the Arabidopsis vernalization genes FLC and VIN3 exhibited distinct DNA methylation marks during vernalization independently to the variations of global DNA methylation. These vernalization genes also displayed differences in mRNA accumulation and methylation profiles between genotypes resistant or sensitive to bolting. Taken together, the data suggest that the time course and amplitude of DNA methylation variations are critical points for the induction of sugar beet bolting and represent an epigenetic component of the genotypic bolting tolerance, opening up new perspectives for sugar beet breeding.
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