马铃薯转录因子(StWRKY1)的过表达增强了对疫霉的抗性，提高了对水分胁迫的耐受性

Q3 Agricultural and Biological Sciences

Plant Omics Pub Date : 2016-03-10 DOI:10.21475/POJ.160902.P7649X

R. Shahzad, P. W. Harlina, Xie Cong-hua, M. Ewas, E. Nishawy, Pan Zhenyuan, Moatzbellah Mohamed Foly

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引用次数: 12

摘要

马铃薯(Solanum tuberosum)晚疫病是由卵霉菌疫霉(Phytophthora infestans, Pi)引起的马铃薯疫病，对马铃薯产量的危害很大，每年造成巨大的经济损失。克服这种易感性需要对转录因子控制的转录机制网络进行调控。已知WRKY TF在不同作物的生物和非生物胁迫下调节转录机制。我们从马铃薯侵染Pi的叶片中克隆并鉴定了一个WRKY基因StWRKY1。StWRKY1蛋白通常定位于细胞核。StWRKY1过表达(OE)正调控转基因马铃薯抗Pi和抗旱性。与未转化的对照植株相比，OE株系抗性的提高与较高的致病相关基因积累有关。有趣的是，共抑制(CSP)植物的易感性增加与PR基因表达下调有关。此外，在脱水试验中，过表达StWRKY1的转基因株系表现出较低的失水率。重要的是，StWRKY1在植物激素处理后表达上调，表明其参与基础信号转导通路。综上所述，我们的研究结果表明，StWRKY1正调控生物和非生物抗逆性，从而调节植物的基础防御网络，从而在作物改良中发挥重要作用。

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Overexpression of potato transcription factor (StWRKY1) conferred resistance to Phytophthora infestans and improved tolerance to water stress

Potato (Solanum tuberosum) late blight caused by oomycete Phytophthora infestans (Pi) is highly destructive to potato yield and cost huge losses each year. Regulation of a network of transcription machinery, controlled by transcription factors (TF’s), is required to overcome the susceptibility. WRKY TF’s are known to regulate transcription machinery upon biotic and abiotic stresses in different crop plants. We cloned and characterized a WRKY gene, StWRKY1, from potato cDNA synthesized from Pi infested leaves. StWRKY1 protein localized typically in the nucleus. Overexpression (OE) of StWRKY1 positively regulates Pi resistance as well as drought tolerance in transgenic potato. The elevated resistance in OE lines was co-related with higher accumulation of pathogenesis-related (PR) genes as compared to untransformed control plants. Interestingly, increased susceptibility of co-suppression (CSP) plants was associated with down regulation of PR genes expression. Moreover, transgenic lines overexpressing StWRKY1 showed tolerance in terms of less rate of water loss, during dehydration assay. Importantly, expression of StWRKY1 was upregulated upon treatment with plant hormones, suggesting its involvement in basal signal transduction pathway. Overall, our findings provided evidence that StWRKY1 positively regulate biotic and abiotic stress resistance thereby modulating plant basal defense networks, thus play a significant role for crop improvement.

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来源期刊

Plant Omics 生物-植物科学

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Plant OMICS is an international, peer-reviewed publication that gathers and disseminates fundamental and applied knowledge in almost all area of molecular plant and animal biology, particularly OMICS-es including: Coverage extends to the most corners of plant and animal biology, including molecular biology, genetics, functional and non-functional molecular breeding and physiology, developmental biology, and new technologies such as vaccines. This journal also covers the combination of many areas of molecular plant and animal biology. Plant Omics is also exteremely interested in molecular aspects of stress biology in plants and animals, including molecular physiology.