Department of Plant Sciences, Faculty of Biological Sciences, Kharazmi University, Tehran, Iran.
Department of Biology, Faculty of Science, Shahid Chamram University of Ahvaz, Ahvaz, Iran.
Ecotoxicol Environ Saf. 2018 Aug 15;157:472-481. doi: 10.1016/j.ecoenv.2018.03.076. Epub 2018 Apr 12.
Cadmium is an important environmental pollutant which genetically, physiologically and biochemically affects the cell. Phytochelatins (PC) are involved in one of the phytoremediation mechanisms, in which they are able to bind heavy metals, such as cadmium. The objective of this study was to evaluate morphometric, antioxidant enzyme activity, and SoPCS gene expression in sugarcane growing under cadmium stress. After propagation, samples were cultured in triplicate for 14 days in modified MS medium containing CdCl (100, 250, 500 µmol). The morphometric traits, pigments, quantity and antioxidant enzyme activity were studied in treated plantlets. SoPCS gene expression was analyzed by qRT-PCR. Growth traits decreased following cadmium treatment. The amount of Chl, Chl and ChlT decreased in treated samples, whereas carotenoids increased significantly. A rapid increase in antioxidant enzyme activity was detected. Enhanced SoPCS gene expression was observed in treated roots, whereas gene expression pattern in leaves was irregular. In conclusion, cadmium decreases the photosynthetic mechanism and growth rate in sugarcane. Antioxidative enzymes and SoPCS gene expression were significantly unregulated in sugarcane roots compared to the leaves. Cadmium concentration in shoots and roots of sugarcane significantly increased. The management of cadmium bioaccumulation in non-edible tissues of sugarcane such as leaves and roots that are sometimes burned after harvest can be applied for environmental protection.
镉是一种重要的环境污染物,它在遗传、生理和生化方面影响细胞。植物螯合肽(PC)参与了植物修复机制之一,它们能够与重金属如镉结合。本研究的目的是评估在镉胁迫下生长的甘蔗的形态计量学、抗氧化酶活性和 SoPCS 基因表达。在繁殖后,将样品在含有 CdCl(100、250、500µmol)的改良 MS 培养基中进行三重复培养 14 天。研究了处理后的幼苗的形态计量性状、色素、数量和抗氧化酶活性。通过 qRT-PCR 分析 SoPCS 基因表达。随着镉处理,生长性状下降。处理样品中的 Chl、Chl 和 ChlT 减少,而类胡萝卜素显著增加。检测到抗氧化酶活性迅速增加。处理根中的 SoPCS 基因表达增强,而叶片中的基因表达模式不规则。总之,镉降低了甘蔗的光合作用机制和生长速度。与叶片相比,抗氧化酶和 SoPCS 基因在甘蔗根中显著失调。甘蔗地上部和根部的镉浓度显著增加。在收获后有时会燃烧的甘蔗非食用组织如叶片和根部中管理镉的生物积累,可以应用于环境保护。
