MA Rui-Fang, LIU Qian-Zi, XIAO Ying, ZHANG Lei, LI Qing, YIN Jun, CHEN Wan-Sheng. The phenylalanine ammonialyase gene family in Isatis indigotica Fort.: molecular cloning, characterization, and expression analysis[J]. Chinese Journal of Natural Medicines, 2016, 14(11): 801-812.
Citation: MA Rui-Fang, LIU Qian-Zi, XIAO Ying, ZHANG Lei, LI Qing, YIN Jun, CHEN Wan-Sheng. The phenylalanine ammonialyase gene family in Isatis indigotica Fort.: molecular cloning, characterization, and expression analysis[J]. Chinese Journal of Natural Medicines, 2016, 14(11): 801-812.

The phenylalanine ammonialyase gene family in Isatis indigotica Fort.: molecular cloning, characterization, and expression analysis

  • Phenolic compounds, metabolites of the phenylpropanoid pathway, play an important role in the growth and environmental adaptation of many plants. Phenylalanine ammonia-lyase (PAL) is the first key enzyme of the phenylpropanoid pathway. The present study was designed to investigate whether there is a multi-gene family in I. Indigotic and, if so, to characterize their properties. We conducted a comprehensive survey on the transcription profiling database by using tBLASTn analysis. Several bioinformatics methods were employed to perform the prediction of composition and physicochemical characters. The expression levels of IiPAL genes in various tissues of I. indigotica with stress treatment were examined by quantitative real-time PCR. Protoplast transient transformation was used to observe the locations of IiPALs. IiPALs were functionally characterized by expression with pET-32a vector in Escherichia colis strain BL21 (DE3). Integration of transcripts and metabolite accumulations was used to reveal the relation between IiPALs and target compounds. An new gene (IiPAL2) was identified and both IiPALs had the conserved enzymatic active site Ala-Ser-Gly and were classified as members of dicotyledon. IiPAL1 and IiPAL2 were expressed in roots, stems, leaves, and flowers, with the highest expression levels of IiPAL1 and IiPAL2 being observed in stems and roots, respectively. The two genes responded to the exogenous elicitor in different manners. Subcellular localization experiment showed that both IiPALs were localized in the cytosol. The recombinant proteins were shown to catalyze the conversion of L-Phe to trans-cinnamic acid. Correlation analysis indicated that IiPAL1 was more close to the biosynthesis of secondary metabolites than IiPAL2. In conclusion, the present study provides a basis for the elucidation of the role of IiPALs genes in the biosynthesis of phenolic compounds, which will help further metabolic engineering to improve the accumulation of bioactive components in I. indigotica.
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