Heterologous overexpression of PDH45 gene of pea provides tolerance against sheath blight disease and drought stress in rice

生物 非生物成分 非生物胁迫 耐旱性 转基因水稻 茄丝核菌 生物逆境 转基因 基因 异源的 转基因作物 植物 遗传学 生态学
作者
Ranjan Kumar Sahoo,Ravindra Kumar Chandan,Durga Madhab Swain,Narendra Tuteja,Gopaljee Jha
出处
期刊:Plant Physiology and Biochemistry [Elsevier BV]
卷期号:186: 242-251 被引量:9
标识
DOI:10.1016/j.plaphy.2022.07.018
摘要

Biotic and abiotic stress tolerant crops are required for sustainable agriculture as well as ensuring global food security. In a previous study, we have reported that heterologous overexpression of pea DNA helicase (PDH45), a DEAD-box family member protein, provides salinity stress tolerance in rice. The improved management of photosynthetic machinery and scavenging of reactive oxygen species (ROS) are associated with PDH45 mediated salinity stress tolerance. However, the role of PDH45 in biotic and other abiotic stress (drought) tolerance remains unexplored. In the present study, we have generated marker-free transgenic IR64 rice lines that overexpress PDH45 under the CaMV35S promoter. The transgenic rice lines exhibited a significant level of tolerance against sheath blight disease, caused by Rhizoctonia solani, a polyphagous necrotrophic fungal pathogen. The defense as well as antioxidant responsive marker genes were significantly upregulated in the PDH45 overexpressing (OE) rice lines, upon pathogen infection. Moreover, the OE lines exhibited tolerance to drought stress and various antioxidant as well as drought responsive marker genes were significantly upregulated in them, upon drought stress. Overall, the current study emphasizes that heterologous overexpression of PDH45 provides abiotic as well as biotic stress tolerance in rice. Tolerance against drought as well as sheath blight disease by overexpression of a single gene (PDH45) signifies the practical implication of the present study. Moreover, considering the conserved nature of the gene in different plant species, we anticipate that PDH45 can be gainfully deployed to impart tolerance against multiple stresses in agriculturally important crops.

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