Shu-Qi Niu, Ting Li, Xiu-Wen Bao, Jing Bai, Lin Liu, Si-Jing Liu, Wei Qin, Yang Li, Jin-Lin Guo
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The results showed that 25 μM Cd stress not only had no significant inhibitory effect on the growth of L. Chuanxiong seedlings but also significantly increased the chlorophyll a content (11.79%) and root activity (51.82%) compared with that of the control, which might be a hormesis effect. Further results showed that the absorption and assimilation of NH<sub>4</sub><sup>+</sup> increased in seedlings under 25 μM Cd stress, which was associated with high photosynthetic pigments. Here, we initially hypothesized and confirmed that Cd exceedance in the root system of L. Chuanxiong was due to the thickening of the root cell wall, changes in the content of the cell wall components, and chelation of Cd by GSH. There was an increase in cell wall thickness (57.64 %) and a significant increase in cellulose (25.48%) content of roots under 25 μM Cd stress. In addition, L. Chuanxiong reduced oxidative stress caused by 25 μM Cd stress mainly through the GSH/GSSG cycle. Among them, GSH-Px (48.26%) and GR (42.64%) activities were significantly increased, thereby maintaining a high GSH/GSSG ratio. This study preliminarily reveals the response of L. Chuanxiong to Cd stress and the mechanism of Cd enrichment. It provides a theoretical basis for solving the problem of Cd excessive in L. Chuanxiong.</p>","PeriodicalId":74874,"journal":{"name":"Stress biology","volume":"4 1","pages":"44"},"PeriodicalIF":0.0000,"publicationDate":"2024-10-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11473752/pdf/","citationCount":"0","resultStr":"{\"title\":\"Physiological and biochemical responses in a cadmium accumulator of traditional Chinese medicine Ligusticum sinense cv. 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The results showed that 25 μM Cd stress not only had no significant inhibitory effect on the growth of L. Chuanxiong seedlings but also significantly increased the chlorophyll a content (11.79%) and root activity (51.82%) compared with that of the control, which might be a hormesis effect. Further results showed that the absorption and assimilation of NH<sub>4</sub><sup>+</sup> increased in seedlings under 25 μM Cd stress, which was associated with high photosynthetic pigments. Here, we initially hypothesized and confirmed that Cd exceedance in the root system of L. Chuanxiong was due to the thickening of the root cell wall, changes in the content of the cell wall components, and chelation of Cd by GSH. There was an increase in cell wall thickness (57.64 %) and a significant increase in cellulose (25.48%) content of roots under 25 μM Cd stress. In addition, L. Chuanxiong reduced oxidative stress caused by 25 μM Cd stress mainly through the GSH/GSSG cycle. 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引用次数: 0
摘要
川芎(Ligusticum sinense cv.川芎是一种广泛使用的传统中药,目前正面临镉(Cd)含量超标的问题。这一问题严重影响了川芎的质量和安全,成为制约川芎临床应用和国际贸易发展的重要因素。目前,要解决镉超标问题,必须研究川芎对镉胁迫的响应机制。然而,有关川芎在镉胁迫下的生理生化反应的报道很少。本研究根据川芎原产地土壤的镉含量,在 25 μM Cd 胁迫下进行了水培实验。结果表明,25 μM Cd 胁迫不仅对川芎幼苗的生长无明显抑制作用,而且与对照相比,叶绿素 a 含量(11.79%)和根系活性(51.82%)均显著增加,这可能是一种激素效应。进一步的结果表明,在 25 μM Cd 胁迫下,幼苗对 NH4+ 的吸收和同化增加,这与光合色素高有关。在此,我们初步假设并证实,川芎根系镉超标是由于根细胞壁增厚、细胞壁成分含量变化以及 GSH 对镉的螯合作用造成的。在 25 μM Cd 胁迫下,根细胞壁厚度增加(57.64%),纤维素含量显著增加(25.48%)。此外,川芎主要通过 GSH/GSSG 循环降低 25 μM Cd 胁迫引起的氧化应激。其中,GSH-Px(48.26%)和 GR(42.64%)的活性显著提高,从而维持了较高的 GSH/GSSG 比率。本研究初步揭示了川芎对镉胁迫的响应及镉富集机理。为解决川芎镉超标问题提供了理论依据。
Physiological and biochemical responses in a cadmium accumulator of traditional Chinese medicine Ligusticum sinense cv. Chuanxiong under cadmium condition.
Ligusticum sinense cv. Chuanxiong (L. Chuanxiong), one of the widely used traditional Chinese medicines (TCM), is currently facing the problem of excessive cadmium (Cd) content. This problem has significantly affected the quality and safety of L. Chuanxiong and become a vital factor restricting its clinical application and international trade development. Currently, to solve the problem of excessive Cd, it is essential to research the response mechanisms of L. Chuanxiong to Cd stress. However, there are few reports on its physiological and biochemical responses under Cd stress. In this study, we conducted the hydroponic experiment under 25 μM Cd stress, based on the Cd content of the genuine producing areas soil. The results showed that 25 μM Cd stress not only had no significant inhibitory effect on the growth of L. Chuanxiong seedlings but also significantly increased the chlorophyll a content (11.79%) and root activity (51.82%) compared with that of the control, which might be a hormesis effect. Further results showed that the absorption and assimilation of NH4+ increased in seedlings under 25 μM Cd stress, which was associated with high photosynthetic pigments. Here, we initially hypothesized and confirmed that Cd exceedance in the root system of L. Chuanxiong was due to the thickening of the root cell wall, changes in the content of the cell wall components, and chelation of Cd by GSH. There was an increase in cell wall thickness (57.64 %) and a significant increase in cellulose (25.48%) content of roots under 25 μM Cd stress. In addition, L. Chuanxiong reduced oxidative stress caused by 25 μM Cd stress mainly through the GSH/GSSG cycle. Among them, GSH-Px (48.26%) and GR (42.64%) activities were significantly increased, thereby maintaining a high GSH/GSSG ratio. This study preliminarily reveals the response of L. Chuanxiong to Cd stress and the mechanism of Cd enrichment. It provides a theoretical basis for solving the problem of Cd excessive in L. Chuanxiong.
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