Identification of key genes and active anti-inflammatory ingredients in Panax medicinal plants by climate-regulated callus culture combined with gene-component-efficacy gray correlation analysis

Acupuncture and herbal medicine Pub Date : 2022-10-17 DOI:10.1097/HM9.0000000000000049

Jiao Ai, Yongshen Ren, Long Cheng, Xinqiao Liu, Yan-qiu Li, Majing Jiao, Yingzhou Wang, Xin-Xian Deng, Linlin Chen

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引用次数: 1

Abstract

Objective: We aimed to establish a novel strategy for identifying key genes and active anti-inflammatory ingredients in Panax medicinal plants. Methods: First, fresh roots of 2-year-old Panax plants, including P. ginseng C. A. Mey., P. quinquefolium L., P. notoginseng (Burk.) F. H. Chen, P. japonicus C.A.Mey., P. japonicus Mey. var. major (Burk.) C. Y. Wu et K. M. Feng, were selected as explants, and callus formation was induced under three experimental temperatures (17, 24, and 30°C). Second, high-performance liquid chromatography-mass spectrometry was used to analyze the saponin content of the callus. Nitric oxide reduction efficacy was used for “component-efficacy” gray correlation analysis to find the active anti-inflammatory ingredients. Quantitative reverse-transcription polymerase chain reaction (qRT-PCR) was used to determine the inflammatory factors and verify the active ingredients’ anti-inflammatory effects. Finally, qRT-PCR was used to detect the expression of key genes in the callus, and “gene-component” gray correlation analysis was used to examine the relationships between the regulatory pathway of the genes and the components. Results: Among the three experimental temperatures (17, 24, and 30°C), the lowest temperature (17°C) is the most suitable for generating Panax callus. Lower-latitude native Panax notoginseng is more adaptable under high culture temperatures (24°C and 30°C) than other Panax plants. The ginsenoside contents of the callus of P. notoginseng and P. japonicus were the highest under similar climate conditions (17°C). Major anti-inflammatory components were G-Rh1, G-Rb1, G-Rg3, and G-Rh6/Floral-GKa. CYP76A47 contributed to the accumulation of anti-inflammatory components. Conclusions: This study provides a strategy for the gene-component-efficacy correlational study of multi-component, multi-functional, and multi-purpose plants of the same genus. Graphical abstract: http://links.lww.com/AHM/A38

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气候调节愈伤组织培养结合基因-成分-功效灰色关联分析鉴定人参药用植物关键基因和抗炎活性成分

目的:建立西洋参药用植物关键基因及抗炎活性成分鉴定的新策略。方法:首先，用2年生的人参(参C. A. Mey.)新鲜根。，西洋参，三七陈富华，陈家祥，陈家祥。， P. japonicus Mey。变体major(伯克)选择Wu c.y.和Feng k.m.作为外植体，在17、24和30℃三个温度下诱导愈伤组织形成。其次，采用高效液相色谱-质谱法分析愈伤组织中皂苷的含量。利用一氧化氮还原功效进行“成分-功效”灰色关联分析，寻找抗炎活性成分。采用定量反转录聚合酶链反应(qRT-PCR)测定炎症因子，验证活性成分的抗炎作用。最后，采用qRT-PCR检测愈伤组织中关键基因的表达，并采用“基因-成分”灰色关联分析检测基因调控通路与成分之间的关系。结果:在17、24、30℃三个实验温度中，最低温度(17℃)最适合人参愈伤组织的产生。低纬度本地三七在高温(24°C和30°C)下的适应性比其他三七植物强。在相同气候条件下(17℃)，三七和粳稻愈伤组织人参皂苷含量最高。主要抗炎成分为G-Rh1、G-Rb1、G-Rg3和G-Rh6/ flora - gka。CYP76A47参与抗炎成分的积累。结论:本研究为同一属植物多成分、多功能、多用途的基因-成分-功效相关性研究提供了一种策略。图形摘要:http://links.lww.com/AHM/A38

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Acupuncture and herbal medicine

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