Laboratory of Plant Functional Genomics, Regional Center for Biotechnology, Faridabad, Haryana 121001, India.
Department of Crop Physiology, University of Agriculture Sciences, GKVK, Bengaluru 560065, India.
J Agric Food Chem. 2020 Jun 10;68(23):6237-6247. doi: 10.1021/acs.jafc.0c02005. Epub 2020 Jun 1.
Oxidative stress is ubiquitous in environmental stresses and prevails over the cellular metabolic and phenotypic responses in plants. Reactive oxygen species (ROS) generated under stress affect macromolecules to form another group of toxic compounds called reactive carbonyl compounds (RCCs). These molecules have a longer half-life than ROS and cause carbonyl stress that affects cellular metabolism, cellular homeostasis, and crop productivity. The later effect of oxidative stress in terms of the generation of RCCs and glycation products and their effects on plant processes have not been explored well in plant biology. Therefore, how these molecules are produced and a few important effects of RCCs on plants have been discussed in this review article. Further, the plant adaptive detoxification mechanisms of RCCs have been discussed. The enzymes that were identified in plants to detoxify these cytotoxic compounds have broad substrate specificity and the potential for use in breeding programs. The review should provide a comprehensive understanding of the cytotoxic compounds beyond ROS and subsequently their mitigation strategies for crop improvement programs.
氧化应激普遍存在于环境应激中,并在植物的细胞代谢和表型反应中占主导地位。应激下产生的活性氧(ROS)会影响大分子形成另一组称为活性羰基化合物(RCCs)的有毒化合物。这些分子的半衰期比 ROS 长,会引起羰基应激,影响细胞代谢、细胞内稳态和作物生产力。氧化应激在 RCC 和糖基化产物生成方面的后期影响及其对植物过程的影响在植物生物学中尚未得到很好的探索。因此,本文讨论了这些分子的产生方式,以及 RCCs 对植物的一些重要影响。此外,还讨论了植物对 RCC 的适应性解毒机制。在植物中鉴定出的用于解毒这些细胞毒性化合物的酶具有广泛的底物特异性,并有潜力用于育种计划。本文综述应提供对 ROS 以外的细胞毒性化合物的全面了解,进而为改善作物计划提供减轻这些化合物影响的策略。
