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Mycorrhizal Colonization Enhanced <i>Sorghum bicolor</i> Tolerance under Soil Water Deficit Conditions by Coordination of Proline and Reduced Glutathione (GSH)

Kuberan Thangaraj, Jianjie Li, Huiling Mei, Shunkai Hu, Rui Han, Zhen Zhao, Xuan Chen, Xinghui Li, Dharmaraj Kamatchi Reddiar

2022Journal of Agricultural and Food Chemistry23 citationsDOI

Abstract

Drought stress is an important limiting factor in crop production. Arbuscular mycorrhizal fungi (AMF) enhance plant drought tolerance through antioxidant activities. However, the coordination of nonenzymatic antioxidants against drought remains unclear. Here, we investigated the AMF symbiosis in drought tolerance of Sorghum bicolor by increasing proline and reducing glutathione (GSH). Glomus mosseae inoculation increased grain yield, biochemical content, and bioactivities of millets. Under drought conditions, seedlings inoculated with G. mosseae had higher SOD, POD, CAT, PPO, proline, and GSH activities compared to noninoculated controls. Meanwhile, a lower accumulation of MDA and H2O2 was observed in the G. mosseae seedlings. Furthermore, genes attributed to nonenzymatic antioxidants, such as GST29, P5CS2, FD3, GST, and GAD, were significantly up-regulated by G. mosseae under drought conditions. In conclusion, G. mosseae inoculation enhanced the drought tolerance of S. bicolor by improving reactive oxygen species (ROS) scavengers, including proline and GSH, that regulate ROS production and prevent oxidative damage.

Topics & Concepts

Drought toleranceProlineGlutathioneSorghumGlomusInoculationReactive oxygen speciesSymbiosisAntioxidantBiologyChemistryHorticultureAgronomyBiochemistryBacteriaEnzymeAmino acidGeneticsMycorrhizal Fungi and Plant InteractionsFungal Biology and ApplicationsPlant Stress Responses and Tolerance