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生物合成的 MgO/珍珠岩纳米复合材料对 Melissa officinalis 植物器官培养中次生代谢产物谱的调节。

Modulation of secondary metabolite profiles by biologically synthesized MgO/perlite nanocomposites in Melissa officinalis plant organ cultures.

机构信息

Research Institute for Fundamental Sciences (RIFS), University of Tabriz, Tabriz, Iran.

Research Institute for Fundamental Sciences (RIFS), University of Tabriz, Tabriz, Iran.

出版信息

J Hazard Mater. 2019 Dec 15;380:120878. doi: 10.1016/j.jhazmat.2019.120878. Epub 2019 Jul 17.

DOI:10.1016/j.jhazmat.2019.120878
PMID:31336269
Abstract

In this work, biological synthesis of MgO/perlite nanocomposites (NCs) besides their effects on morphology and secondary metabolite profiles of Melissa officinalis plant organ cultures were evaluated. MgO NPs were immobilized on the surface of nanoperlite using M. officinalis extract as a capping agent. The as-synthesized MgO/perlite NCs were characterized by using FTIR, XRD, SEM, EDS and DLS. The average particle size of nanoperlite and MgO/perlite NCs was about 10 and 30 nm, respectively. Morphological observations showed that nanoperlite and MgO/perlite NCs had no effect on root number, as well as root and shoot length. None of the applied concentrations of perlite and MgO/perlite NCs could significantly increase the growth parameters in comparison to the control, except for 150 mg/L of nanoperlite which caused an increase in the shoot number. Although, the contents of chlorophyll and carotenoids were not affected, the maximum content of volatile compounds obtained at 100 of MgO/perlite NCs. Rosmarinic acid was detected in shoots, which treated with 25-100 mg/L of perlite and 25, 50 and 150 mg/L of MgO/perlite NCs. Our results provided the evidence that nanoperlite and MgO/perlite NCs at specific levels may act as a novel elicitor for in vitro biosynthesis of valuable secondary metabolites.

摘要

本工作评估了 MgO/珍珠岩纳米复合材料(NCs)的生物合成及其对迷迭香植物器官培养物形态和次生代谢物谱的影响。MgO NPs 被用迷迭香提取物作为封端剂固定在纳米珍珠岩的表面上。用 FTIR、XRD、SEM、EDS 和 DLS 对合成的 MgO/珍珠岩 NCs 进行了表征。纳米珍珠岩和 MgO/珍珠岩 NCs 的平均粒径分别约为 10nm 和 30nm。形态观察表明,纳米珍珠岩和 MgO/珍珠岩 NCs 对根的数量以及根和茎的长度没有影响。与对照相比,除了 150mg/L 的纳米珍珠岩增加了茎的数量外,珍珠岩和 MgO/珍珠岩 NCs 的任何应用浓度都没有显著增加生长参数。尽管叶绿素和类胡萝卜素的含量没有受到影响,但在 100mg/L 的 MgO/珍珠岩 NCs 下获得了最大的挥发性化合物含量。在用 25-100mg/L 的珍珠岩和 25、50 和 150mg/L 的 MgO/珍珠岩 NCs 处理的芽中检测到迷迭香酸。我们的结果提供了证据,表明在特定水平下,纳米珍珠岩和 MgO/珍珠岩 NCs 可能作为一种新型的体外生物合成有价值的次生代谢物的诱导剂。

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