Plant Physiology and Biochemistry 2005-02-01

Methyl jasmonate modulated biotransformation of phenylpropanoids to vanillin related metabolites using Capsicum frutescens root cultures.

B Suresh, G A Ravishankar

文献索引：Plant Physiol. Biochem. 43(2) , 125-31, (2005)

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摘要

Normal root cultures of Capsicum frutescens biotransform externally fed precursors, like caffeic acid and veratraldehyde, to vanillin and other related metabolites. The bioconversion of caffeic acid to further metabolites--viz. vanillin, vanillylamine, vanillic acid--was shown to be elicited by treating the cultures with 10 microM methyl jasmonate (MJ). Root cultures treated with MJ accumulated (1.93 times) more of vanillin (20.2 microM on day-3) than untreated ones. A concomitant increase in enzymatic activity of caffeic acid O-methyl transferase (CAOMT, EC 2.1.1.68) was obtained in MJ treated cultures, compared to untreated cultures. After 24 h of MJ treatment, a 13.7-fold increase in CAOMT activity was recorded in root cultures of C. frutescens. Cultures treated with veratraldehyde accumulated more vanillin (78 microM) than caffeic acid fed cultures, 6 days after precursor addition. Capsaicin did not accumulate even after addition of precursors. The efficiencies of biotransformation with caffeic acid and veratraldehyde were 2.2% and 9% with respect to vanillin formation, indicating a possible diversion of the phenylpropanoid pathway towards other secondary metabolites.