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诱导多芽培养提高水飞蓟中水飞蓟素含量

Improved silymarin content in elicited multiple shoot cultures of Silybum marianum L.

机构信息

Department of Horticulture, Faculty of Agriculture, Suez Canal University, Ismailia, 41522 Egypt.

Department of Pharmacognosy, Faculty of Pharmacy, Suez Canal University, Ismailia, 41522 Egypt.

出版信息

Physiol Mol Biol Plants. 2013 Jan;19(1):127-36. doi: 10.1007/s12298-012-0141-7.

DOI:10.1007/s12298-012-0141-7
PMID:24381444
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3550681/
Abstract

Silybum marianum L. extracts are being used as antihepatotoxic therapy for liver diseases. Silymarin is a polyphenolic flavonoid mixture isolated from milk thistle which is believed to be responsible for the plant's hepatoprotective action. Regeneration of Silybum marianum plants from shoot tip explants and assessment of their morphogenic potential, silymarin total concentration and its major constituents upon exposure to medium composition alteration and different elicitors' application was targeted. Different concentrations of NaCl, quercetin, gamma irradiation and dried fungal extracts were used to elicit silymarin production in the cultures. The chemical composition of silymarin and its total concentration was investigated through HPLC at all the experiment stages. Multiple shoots were recorded after 3 weeks of culture on MS medium containing various concentrations of BA and/or NAA. IAA was more effective than NAA and IBA in inducing robust roots in shoot cultures. The flowering plants recorded 20 % and 40 % of the total plants number in the multiplication and rooting stages respectively. The highest total silymarin concentration reached its peak with (10 Gy) gamma-irradiation to be 6.598 % dry weight in the in vitro regenerated shoot tip explants. The in vitro grown flowers showed 1.7 times more sylimarin productivity as compared to that of the wild grown congruent.

摘要

水飞蓟素提取物被用作治疗肝脏疾病的抗肝毒性药物。水飞蓟素是从水飞蓟中分离出来的一种多酚类黄酮混合物,被认为是该植物具有保肝作用的原因。本研究旨在从水飞蓟茎尖外植体再生植株,并评估其形态发生潜力、水飞蓟素总浓度及其主要成分在暴露于培养基组成变化和不同诱导剂应用时的变化。使用不同浓度的 NaCl、槲皮素、γ 射线和干燥真菌提取物来刺激培养物中产生水飞蓟素。在所有实验阶段,均通过 HPLC 研究水飞蓟素的化学组成及其总浓度。在含有不同浓度 BA 和/或 NAA 的 MS 培养基上培养 3 周后,记录到了丛生芽。IAA 比 NAA 和 IBA 更有效地诱导丛生芽生根。在增殖和生根阶段,开花植物分别占总植物数的 20%和 40%。体外再生茎尖外植体经(10Gy)γ 射线照射后,总水飞蓟素浓度达到峰值,为干重的 6.598%。与野生生长的水飞蓟相比,体外生长的花朵的水飞蓟素产量增加了 1.7 倍。

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