Picrorhiza (Picrorhiza kurrooa) is an endangered medicinal plant with well-known hepatoprotective activity attributed to monoterpenoid picrosides. The present article details on regulatory genes of terpenoid metabolism, 3-hydroxy-3-methylglutaryl coenzyme A reductase (pkhmgr) and 1-deoxy-D-xylulose-5-phosphate synthase (pkdxs) from picrorhiza. Since no molecular information was available, these genes were cloned to full-length by degenerate primers and rapid amplification of cDNA ends, followed by cloning of the upstream sequences that showed the presence of core sequences for light and temperature responsiveness. Electrophoretic mobility shift assay confirmed binding of protein to these motifs. Expression of pkhmgr and pkdxs was up-regulated at 15 degrees C as compared to at 25 degrees C as well as under light as compared to dark conditions. Picrosides content exhibited the trend similar to gene expression. To rule out the possible limitation of carbon pool under dark condition, plantlets of picrorhiza were raised in vitro in Murashige and Skoog medium supplemented with 3% sucrose. Results showed similar up-regulation of both the genes and the higher picrosides content in in vitro raised plantlets in the presence of light. Data suggested the important roles played by light and temperature in regulating pkhmgr and pkdxs, and the picrosides level in picrorhiza.
Light upregulates the expression of 3-hydroxy-3-methylglutaryl-CoA reductase (HMGR) in Picrorhiza kurrooa, an endangered medicinal herb. Upstream sequences of HMGR of P. kurrooa (PropkHMGR) were analyzed in relation to its role in light-mediated regulation of gene expression. GATA motif in PropkHMGR exhibited stronger DNA-protein interaction with the nuclear extract of dark-exposed plants in contrast to SORLIP that exhibited stronger binding with the nuclear extract of light-exposed plants. Analysis of PropkHMGR (PropkHMGR-D1, -1,059/-1) and its deletion fragments PropkHMGR-D2 (-825/-1), PropkHMGR-D3 (-651/-1), PropkHMGR-D4 (-452/-1), and PropkHMGR-D5 (-101/-1) in Arabidopsis thaliana showed PropkHMGR to regulate gene expression [β-glucuronidase (GUS) was used as a reporter gene] at all the developmental stages but only in actively dividing tissues, excluding anthers. Whereas, PropkHMGR-D2 regulated GUS expression in relatively older seedlings but the expression was observed only in shoot apical meristem, root tips, and anthers. PropkHMGR-mediated gene expression was higher in dark as compared to that in the light in Arabidopsis across four temperatures studied. As opposed to the results in P. kurrooa, GATA motifs exhibited DNA-protein interaction with nuclear extract of light-exposed plants of Arabidopsis. SORLIP motifs in Arabidopsis also exhibited DNA-protein interaction with nuclear extract of light-exposed plants as in P. kurrooa. Data showed that (1) PropkHMGR regulated light-mediated gene expression and (2) GATA motif exhibited an inverse relationship between strength of DNA-protein interaction and the gene expression whereas the relationship was species specific for SORLIP.
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