Versatile MXenzymes Scavenging ROS for Promotion of Seed Germination under Salt Stress
Hao Liu, Caixia Li, Linlin Cai, Xiaodong Zhang, Jingjing Si, Yuping Tong, Liming Wang, Zhihong Xu, Weiwei He
Abstract
Salinization is recognized as a global problem, restricting agricultural production and sustainability. Targeting the salinity-induced oxidative stress, antioxidant treatment represents a protective strategy to improve plant salt tolerance. Herein, we report a V 4 C 3 MXene nanozyme (MXenzyme), which exhibits good biocompatibility and excellent reactive oxygen species scavenging activity to ameliorate the salt stress-induced inhibition of seed germination. V 4 C 3 MXenzyme treatment can significantly relieve salinity-induced oxidative stress and restore the antioxidant system in pea seeds, thus improving the phenotypic traits during germination. The molecular mechanism by which antioxidant V 4 C 3 MXenzymes augment salt tolerances is revealed through transcriptomics and metabolomics. V 4 C 3 MXenzymes significantly regulate the gene expression of antioxidant enzymes and molecule biosynthesis that correlate closely with hormone signal transduction genes and energy metabolism genes. With correlation and the combined analysis, redox homeostasis targeted by antioxidant V 4 C 3 MXenzymes plays a critical role in promoting plant growth under salt stress.