Effects of Culture System and Substrate Composition on Micropropagated Plantlets of Two Varieties of Stevia rebaudiana Bert

Physiologia Pub Date : 2023-02-02 DOI:10.3390/physiologia3010006

Susana Vilariño, M. Florido, José Luis García, M. Cantos

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引用次数: 2

Abstract

Background: Secondary metabolites in stevia leaves offer important therapeutic benefits. The germination problems of stevia seeds and the high heterogeneity of the resulting populations make micropropagation the preferred tool for obtaining a large number of plants in a short time. Until now, studies have focused on optimizing the action of growth regulators for the improvement of stevia micropropagated plantlets. In this project, we study alternative mineral nutrients in the substrate and two culture systems on micropropagated stevia plantlets to obtain proper amounts of enhanced plantlets. Methods: Criolla and Morita varieties; MS, MSM, and G substrates, and temporary immersion (TIS) and agar-medium systems were used. Biometric variables and damage to the cell membrane of the resulting plantlets were tested. Results: More productivity in the Criolla plantlets growing in MS solid medium and TIS. The Morita plantlets presented higher productivity in the solid MS, MSM, and G substrates and TIS. The explants growing in MS and MSM presented the highest productivity. The solid substrate was generally better than TIS. No damage to the cell membrane was found. Conclusions: The micropropagation efficiency of stevia plantlets of the two varieties has been enhanced without negative effects on their physiological condition. Consequently, any of the culture systems used, including bioreactors, can be of industrial application on a large scale.

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栽培体系和基质组成对两个甜菊品种微繁殖植株的影响

背景：甜菊叶中的次生代谢产物具有重要的治疗作用。甜叶菊种子的发芽问题和由此产生的种群的高度异质性使得微繁殖成为在短时间内获得大量植物的首选工具。到目前为止，研究的重点是优化生长调节剂的作用，以改善甜菊微繁殖植株。在本项目中，我们研究了基质中的替代矿物质营养素和两种培养系统对微繁殖甜菊植株的培养，以获得适当数量的增强植株。方法：Criolla和Morita两个品种；使用MS、MSM和G基质，以及临时浸泡（TIS）和琼脂培养基系统。测试了生物特征变量和对所得植株细胞膜的损伤。结果：在MS固体培养基和TIS培养基上生长的Criolla植株生产力较高。森田植株在固体MS、MSM、G基质和TIS中表现出较高的生产力。在MS和MSM中生长的外植体表现出最高的生产力。固体基质通常比TIS好。未发现细胞膜受损。结论：两个品种甜菊试管苗的微繁殖效率均得到提高，且对其生理条件无负面影响。因此，所使用的任何培养系统，包括生物反应器，都可以大规模地进行工业应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physiologia

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