College of Horticulture, Gansu Agricultural University, 1 Yinmen Village, Anning District, Lanzhou 730070, PR China.
College of Science, Gansu Agricultural University, PR China.
Environ Pollut. 2020 Apr;259:113943. doi: 10.1016/j.envpol.2020.113943. Epub 2020 Jan 9.
Heavy metal (HM) stress is a major hazard, which significantly affects plant growth and development. In order to confront HM stress, plants directly or indirectly regulate the levels of endogenous nitric oxide (NO), a redox-related signaling molecule involved in wide range of plant growth and development as well as in response to HM stress. In addition, there is now compelling experimental evidence that NO usually mediates signaling processes through interactions with different biomolecules like phytohormones to regulate HM tolerance. Apart from phytohormones, NO partly operates through posttranslational modification of proteins, notably via S-nitrosylation in response to HM stress. Recently, the roles of S-nitrosylation as a regulator of plant responses to HM stress and S-nitrosylated candidates have also been established and detected. Here, we describe the roles of NO in confronting HM phytotoxicity in plants with a particular focus on the presentation and discussion of recent data obtained in this field, which involves in the function of various phytohormones and S-nitrosylation during plant responses to HM stress. Additionally, both importance and challenges of future work are outlined in order to further elucidate the specific mechanisms underlying the roles of NO in plant responses to HM stress.
重金属(HM)胁迫是一种主要的危害,它严重影响植物的生长和发育。为了应对 HM 胁迫,植物直接或间接地调节内源性一氧化氮(NO)的水平,NO 作为一种与氧化还原相关的信号分子,参与了广泛的植物生长和发育过程,并对 HM 胁迫做出响应。此外,现在有令人信服的实验证据表明,NO 通常通过与不同生物分子(如植物激素)的相互作用来介导信号过程,从而调节 HM 耐受性。除了植物激素外,NO 还部分通过蛋白质的翻译后修饰来发挥作用,特别是通过 S-亚硝基化来响应 HM 胁迫。最近,S-亚硝基化作为植物应对 HM 胁迫反应的调节剂的作用以及 S-亚硝基化候选物的作用也已经得到了确定和检测。在这里,我们描述了 NO 在植物应对 HM 毒性中的作用,特别强调了在这个领域中获得的最新数据的呈现和讨论,这些数据涉及到各种植物激素和 S-亚硝基化在植物应对 HM 胁迫中的功能。此外,还概述了未来工作的重要性和挑战,以便进一步阐明 NO 在植物应对 HM 胁迫反应中的作用的具体机制。
