Effect of water deficit on biomass production and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis

Li W. D.; Hou J. L.; Wang W. Q.; Tang X. M.; Liu C. L.; Xing D. .

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Effect of water deficit on biomass production and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis

机译：水分亏缺对甘草根系生物量生产和次生代谢产物累积的影响

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Two-year-old seedlings of licorice plant (Glycyrrhiza uralensis Fisch) were exposed to three degrees of water deficit, namely weak (60-70%), moderate (40-50%), and strong (20-30%) relative water content in soil, whereas control plants were grown in soil with 80-90% water content. Moderate and strong water deficit decreased the net photosynthetic rate, stomatal conductance, and biomass production. Water use efficiency and the root-to-shoot ratio increased significantly in response to water deficit, indicating a high tolerance to drought. Weak water deficit did not decrease root biomass production, but significantly increased the production of glycyrrhizic acid (by 89%) and liquiritin (by 125%) in the roots. Therefore, a weak water deficit can increase the yield of root medical compounds without negative effect on root growth.

机译：甘草（Glycyrrhiza uralensis Fisch）两岁大的幼苗面临三度缺水，即相对水分不足（60-70％），中等（40-50％）和强烈（20-30％）对照植物生长在含水量为80-90％的土壤中。适度而强烈的水分亏缺降低了净光合速率，气孔导度和生物量产量。响应水分亏缺，水分利用效率和根冠比显着增加，表明对干旱具有高度耐受性。缺水并没有减少根系生物量的产生，但显着增加了根中甘草酸的产量（增加了89％）和甘草酸的产量（增加了125％）。因此，微弱的水分亏缺可以增加根系药物的产量，而不会对根系生长产生负面影响。

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《Russian Journal of Plant Physiology》 |2011年第3期|共5页
作者
Li W. D.; Hou J. L.; Wang W. Q.; Tang X. M.; Liu C. L.; Xing D. .;
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正文语种 eng
中图分类植物学;
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secondary metabolite: accumulation; glycyrrhizic acid: 1405-86-3; production; liquiritin: 551-15-5; production; gas exchange; photosynthetic rate; crop growth; drought tolerance; stomatal conductance; biomass production; water deficit effect; medical compound;

机译：次生代谢产物：积累;甘草酸：1405-86-3;产量;液体蛋白：551-15-5;产量;气体交换;光合速率;作物生长;耐旱性;气孔导度;生物质生产;水分亏缺效应;药用化合物;

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专利

1. Effect of water deficit on biomass production and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis [J] . Li W. D., Hou J. L., Wang W. Q., Russian Journal of Plant Physiology . 2011,第3期

机译：水分亏缺对甘草根系生物量生产和次生代谢产物累积的影响
2. Effect of water deficit on biomass production and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis [J] . Li W. D., Hou J. L., Wang W. Q., Russian Journal of Plant Physiology . 2011,第3期

机译：水分亏缺对甘草根系生物量生产和次生代谢产物累积的影响
3. Effect of Water Deficit on Biomass Production and Accumulation of Secondary Metabolites in Roots of Glycyrrhiza uralensis [J] . W. D. Li, J. L. Hou, W. Q. Wang, Физиология растений . 2011,第3期

机译：水分亏缺对甘草根系生物量产生和次生代谢产物积累的影响
4. Antioxidant and Antiinflammatory Activities of Licorice Root (Glycyrrhiza uralensis): Aroma Extract [C] . Aki Tanaka, Takayuki Shibamoto Functional food and health . 2006

机译：甘草根的抗氧化和抗炎活性：香精
5. Secondary metabolites of Vernonia gigantea roots: Isolation, antimicrobial, chemical and biotransformation studies. [D] . Rojas Duran, Rosario Elena. 2000

机译：Vernonia gigantea根的次生代谢产物：分离，抗菌，化学和生物转化研究。
6. Effect of water deficit on biomass production and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis [O] . W. D. Li, J. L. Hou, W. Q. Wang, -1

机译：水分亏缺对甘草根系生物量生产和次生代谢产物累积的影响
7. Effects of space flight on DNA mutation and secondary metabolites of licorice (Glycyrrhiza uralensis Fisch.) [O] . WenYuan Gao, KeFeng Li, Shuo Yan, 2009

机译：空间飞行对甘草DNA突变和次生代谢产物的影响（Glycyrrhiza Uralensis Fisch。）

Effect of water deficit on biomass production and accumulation of secondary metabolites in roots of Glycyrrhiza uralensis

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