Ethephon- and Jasmonate-Elicited Pathogenesis-Related Ribonucleases in Cultured Ginseng Cells

Cultured ginseng cells (Panax ginseng C.A. Mey strain R-1) produce two proteins exhibiting RNase activity (Pg1 and Pg2), which, on the basis of their amino acid sequences, have been earlier referred to intracellular pathogenesis-related proteins. An immunoenzyme technique for estimation of these proteins was developed. A close correlation was found between the content of these proteins and the RNase activity of the cultured cells. Ethephon and jasmonic acid activated the RNase activity, ethephon being more efficient. Salicylic acid did not activate Pg1 and Pg2; high concentrations of salicylic acid suppressed the RNase activity of the culture. The protein kinase inhibitor, H-7, reduced the content and activity of RNases both in the presence and absence of ethephon. The results obtained permit a suggestion that ethylene and jasmonic acid signaling pathways, which include protein phosphorylation, are involved in the induction of PR-10 proteins.     

Mineral Composition of Cultured Ginseng Cells

The contents of macroelements and microelements in ginseng roots and callus cultures was determined by atom absorption spectroscopy. Ginseng cells and tissues were shown to accumulate considerable amounts of microelements. The content of six of the eleven mineral components studied (K, Ca, Na, Mo, Mn, and Cr) in callus cultures was higher than that in roots of agricultural ginseng plants. We revealed good correlations between the contents of microelements (K, Ca, and Mg), as well as between the concentrations of macroelements (Mo, Li, Cu, and Cr), in ginseng cultures. The ability to accumulate elements varied between ginseng species, which was probably related to their genetic features. Our findings indicate that cultured ginseng cells hold much promise as a source of microelements.