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一氧化氮通过调节抗氧化防御系统和 ROS 解毒来诱导油菜对镉的耐受性和植物修复潜力。

Nitric oxide induced Cd tolerance and phytoremediation potential of B. juncea by the modulation of antioxidant defense system and ROS detoxification.

机构信息

Department of Botany, Jai Narain Vyas University, Jodhpur, Rajasthan, 342005, India.

Nanyang Institute of Singapore, Singapore, Singapore.

出版信息

Biometals. 2021 Feb;34(1):15-32. doi: 10.1007/s10534-020-00259-9. Epub 2020 Oct 10.

DOI:10.1007/s10534-020-00259-9
PMID:33040319
Abstract

The present study designed to illustrate correlation between cadmium induced stress and plant growth, photosynthetic pigments, morphological and physiological attributes. To study these parameters 2 weeks old seedling of B. juncea were subjected to 50 µM Cd, 100 µM Cd and 100 µM SNP separately and in combination with SNP. After 96 h, the treated plant were harvested to analyze the cellular homeostasis and metal tolerance mechanism via examining growth, stress parameters, enzymatic and non enzymatic antioxidants and expression level of NR. Higher level of Cd (100 µM) significantly increased accumulation of reactive oxygen species and malonaldehyde content in comparison to 50 µM Cd. Exogenous supplementation of SNP (100 µM) to 50 µM Cd treated plant had an additive effect on plant growth by improving the level of proline, photosynthetic pigments and activities of enzymatic antioxidants which was confirmed by histochemical staining for NADPH-d and NO fluorescence from DAF-DA staining in roots of B. juncea. Applying SNP to 50 µM Cd exposed B. juncea roots enhanced NR activity by 1.36 folds and increased NO production by 1.12 folds than individual Cd treated roots. In addition, semi quantitative RT-PCR study revealed the induction of BjNR was more pronounced in 50 µM Cd treated roots in comparison to 100 µM Cd treated roots. The present finding revealed NO confers increased B. juncea tolerance to Cd stress by stimulation of antioxidants and reestablishment of cellular redox status. Different biochemical analysis showed that plant growth, photosynthetic pigment and antioxidants were positively correlated with NO and it's negatively correlated with oxidative stress biomarkers. Therefore, NO is gaseous signalling molecule with potential role in Cd detoxification mechanism in B. juncea.

摘要

本研究旨在阐明镉诱导的应激与植物生长、光合色素、形态和生理特性之间的相关性。为了研究这些参数,将 2 周龄芥菜幼苗分别用 50µM Cd、100µM Cd 和 100µM SNP 以及 SNP 组合处理。96 小时后,收获处理过的植物,通过检查生长、应激参数、酶和非酶抗氧化剂以及 NR 的表达水平来分析细胞内稳态和金属耐受机制。与 50µM Cd 相比,更高水平的 Cd(100µM)显著增加了活性氧和丙二醛含量的积累。将 SNP(100µM)外源补充到 50µM Cd 处理的植物中,通过提高脯氨酸、光合色素和酶抗氧化剂的活性,对植物生长有增效作用,这一点从芥菜根的 NADPH-d 和 DAF-DA 染色的 NO 荧光的组织化学染色得到了证实。在暴露于 50µM Cd 的芥菜根中施加 SNP 可使 NR 活性提高 1.36 倍,使 NO 产量增加 1.12 倍,而单独用 Cd 处理的根则没有这种效果。此外,半定量 RT-PCR 研究表明,与单独用 100µM Cd 处理的根相比,50µM Cd 处理的根中 BjNR 的诱导更为明显。本研究结果表明,NO 通过刺激抗氧化剂和重建细胞氧化还原状态,赋予芥菜对 Cd 胁迫更高的耐受性。不同的生化分析表明,植物生长、光合色素和抗氧化剂与 NO 呈正相关,与氧化应激生物标志物呈负相关。因此,NO 是一种气态信号分子,在芥菜的 Cd 解毒机制中可能具有潜在作用。

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