Glutamate decarboxylase (GAD) catalyzes the conversion of L-glutamate to γ-aminobutyric acid (GABA). A full-length cDNA encoding GAD (designated as PgGAD) was isolated and characterized from the root of Panax ginseng C. A. Meyer. The length cDNA of PgGAD was 1881 bp and contained a 1491 bp open reading frame (ORF) encoding a glutamate decarboxylase protein of 496 amino acids, possessing a Ser-X-X-Lys active site, which belongs to the GAD group. The deduced amino acid sequence of the PgGAD was classified in the plant GAD family and has 76-85% high similarity with other plants as like petunia, Arabidopsis, tomato. Secondary structure of PgGAD was predicted by using SOPMA software program. Southern blot analysis of genomic DNA suggests that, there is more than one copy of the PgGAD gene. The organ specific gene expression pattern also studied in P. ginseng seedlings, in which the stem showed elevated expression than root, leaf, bud and rhizomes. Along with this, we also confirmed the gene expression of PgGAD under various abiotic stresses like temperature stress, osmotic stress, anoxia, oxidative stress, and mechanical damage. Temporal analysis of gene expression except exposure of oxidative stress revealed an enhanced expression after each stresses. The enzyme activity of PgGAD was stimulated to 2-fold under cold stress.
The role of plant chitinases in protecting plants against a variety of fungal pathogens is well established. In the present study, a cDNA clone containing a class I chitinase (Chi-1) gene, designated as PgChi-1, has been isolated from the oriental medicinal plant Panax ginseng. PgChi-1 is predicted to encode a protein of 34.9 kDa consisting of 323 amino acid residues. PgChi-1 was found to be expressed constitutively in all of the studied organs of ginseng plant. Under various abiotic stress treatments including Cu, H2O2, mannitol, SA, JA, and NaCl, the expression of PgChi-1 in plantlets and hairy roots increased significantly compared to the control. When different parts of root were analyzed, maximum level was observed in taproot. In addition, levels of PgChi-1 expression were compared between healthy root and fungal, bacterial, and nematode infected root. Significant increase of PgChi-1 was noticed in pathogen infected roots than healthy roots. This study revealed that PgChi-1 may protect the P. ginseng under both biotic and abiotic stress conditions.
A cDNA clone containing a S-adenosyl-L-methionine synthetase (SAMS) gene, named as PgSAM, was isolated from a commercial medicinal plant Panax ginseng. PgSAM is predicted to encode a precursor protein of 307 amino acid residues, and its sequence shares high homology with a number of other plant SAMS. PgSAM is expressed at different levels in various organs of ginseng. The expression of PgSAM in adventitious roots and hairy roots of P. ginseng were analyzed using reverse transcriptase (RT)-PCR and real-time PCR under various abiotic stresses. Salt, salicylic acid, abscisic acid and chilling stresses induced PgSAM significantly at different time points within 2-72 h post-treatment. This study revealed that PgSAM may help to protect the plants against various abiotic stresses.
The antioxidant activities of Panax ginseng have long been known as among the important pharmacological properties of this plant. Although one of the most documented function of glutaredoxin (Grx) in plants is their involvement in the oxidative stress response, there are no reports on Grx in ginseng plants. Therefore, this study was undertaken to assess whether Grx is present in P. ginseng and to characterize the Grx gene coding for these antioxidant information. A cDNA clone containing a Grx gene, designated PgGrx, was isolated from leaves of P. ginseng. The cDNA clone was 493 nucleotides in length and had an open reading frame of 321 bp with a deduced amino acid of 106 residues, possessing a C-S-Y-C active site, which belongs to the Grx subgroup. The PgGrx shows high homology to other Grxs of higher plants. Quantitative reverse transcriptase-polymerase chain reaction has been used to study expression of PgGrx following various abiotic stresses. Findings have revealed that PgGrx is involved in the antioxidative process triggered by environmental changes.
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