An overview of recent advancement in phytohormones-mediated stress management and drought tolerance in crop plants

Abstract

Plants face a continuous threat of abiotic stresses under the changing environment. Because of climate change, water scarcity has been shown to be a significant environmental constraint on plant productivity. Droughts in particular have been shown to affect plant growth and development, lead to alteration in quality and quantity of crop production, and result in global food insecurity. Phytohormones are known to play critical roles in regulating diverse processes of plant adaption to a drought environment. They regulate cellular functions at molecular levels via various cell signaling. Among various phytohormones, abscisic acid (ABA) is known for its role in drought-stress tolerance in plants. Other phytohormones such as auxins, brassinosteroids (BRs), cytokinins (CK), ethylene (ET), gibberellins (GA), jasmonic acid (JA), and salicylic acid (SA) are also crucial in plant drought tolerance. Several plant growth-promoting microbes have been reported to enhance the phytohormone levels in plants to mitigate the negative effect of drought. However, the transgenic approach appears to be a boon to engineering the genes responsible for regulating phytohormones to develop a drought-tolerant trait. Expression analyses have revealed that genes encoding transcription factors such as bZIP11, DREB2, MYB14, MYB48, WRKY2, WRKY56, WRKY108715, and RD22 play a very crucial role in phytohormone mediated drought response. Furthermore, exogenous applications of phytohormones are shown to enhance endogenous phytohormones. This review highlights the most recent advancements in phytohormone-mediated drought tolerance in major crop plants.