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硝酸盐处理下毛状根和两种颠茄(Atropa belladonna L.)离体培养物中托烷生物碱的差异产生。

Differential production of tropane alkaloids in hairy roots and in vitro cultured two accessions of Atropa belladonna L. under nitrate treatments.

机构信息

Department of Plant Biology, Faculty of Biological Sciences, Tarbiat Modares University, P.O. Box 14115-154, Tehran, Iran.

出版信息

Z Naturforsch C J Biosci. 2010 May-Jun;65(5-6):373-9. doi: 10.1515/znc-2010-5-609.

Abstract

Plants are a potential source of a large number of valuable secondary metabolites. In vitro cultures are being considered as an alternative to agricultural processes for studying valuable secondary metabolites. In this way, nutritive factors are important parameters influencing the production of these compounds in plants. Effects of nitrate concentrations (KNO3) on the production of two tropane alkaloids, hyoscyamine and scopolamine, and the growth of aerial parts and roots of two in vitro propagated accessions of Atropa belladonna and hairy roots were investigated. As hairy roots cultures are able to keep a stable production of alkaloids over long periods of subculturing, they are considered as an interesting option for the study of alkaloid biosynthesis. A hairy roots culture of Atropa belladonna was established by transformation with Agrobacterium rhizogenes strain AR15834. The results of our study showed that a rise in KNO3 concentration caused a decline in hairy roots growth, and had a remarkable effect on the alkaloid content. The alkaloid concentrations obtained in the hairy roots were 3-20 times higher than that in the plants at 35 mM of KNO3. Increasing the nitrate concentration in the medium of hairy roots also improved the hyoscyamine/scopolamine ratio, while it increased the scopolamine/hyoscyamine ratio in the studied plants.

摘要

植物是大量有价值次生代谢物的潜在来源。体外培养被认为是研究有价值次生代谢物的农业过程的替代方法。在这种方式下,营养因素是影响植物中这些化合物产生的重要参数。本研究考察了硝酸钾(KNO3)浓度对 2 种托烷类生物碱,莨菪碱和东莨菪碱的产生,以及 2 种颠茄体外繁殖品系的地上部分和根的生长的影响。由于发根培养物能够在长时间的继代培养中保持稳定的生物碱产量,因此它们被认为是研究生物碱生物合成的一个有趣选择。通过发根农杆菌菌株 AR15834 转化建立了颠茄发根培养物。我们的研究结果表明,KNO3 浓度的升高导致发根生长下降,并对生物碱含量有显著影响。在 35 mM 的 KNO3 下,发根中获得的生物碱浓度比植物中的生物碱浓度高 3-20 倍。增加发根培养基中的硝酸盐浓度也提高了莨菪碱/东莨菪碱的比例,而在研究植物中则增加了东莨菪碱/莨菪碱的比例。

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