植物水通道蛋白结构与功能及其识别与转导水稻黄单胞菌Hpa1信号的机制  被引量：1

作　　者：尤真真[1] 高蓉[1] 田珊[1] 董汉松[1] 

机构地区：[1]南京农业大学植物保护学院,农作物生物灾害综合治理教育部重点实验室,南京210095

出　　处：《植物病理学报》2013年第3期232-248,共17页Acta Phytopathologica Sinica

基　　金：国家自然科学基金资助项目(31272027);国家转基因生物新品种培育重大专项(2011ZX08002-001)

摘　　要：植物水通道蛋白PIP不仅担负细胞间或细胞内外水分子输导的基本功能,还参与植物-微生物互作与植物防卫反应,这种双重功能的调控机制目前还不清楚。水稻OsPIP1;2和拟南芥AtPIP1;4可以与水稻黄单胞III型泌出蛋白Hpa1互作,Hpa1定位于植物细胞的质外体,诱导过氧化氢在质外体产生及向原生质转运,进而影响植物防卫反应与对病原细菌的抗性。根据植物水通道蛋白拓扑结构与病原细菌Ⅲ型分泌系统工作模型,水稻OsPIP1;2与Hpa1互作的功能域是互作发生的分子基础。互作引发信号转导,调控过氧化氢信号从植物细胞的质外体向原生质转运与植物防卫反应。由于Hpa1对Ⅲ效应蛋白来说具有转位子的功能特征,OsPIP1;2-Hpa1还可能对水稻黄单胞菌Ⅲ型效应蛋白从细菌细胞向植物细胞转运发生调控作用。围绕这些设想进行研究,可以深入阐释水稻-黄单胞菌互作机制,同时为植物水通道蛋白功能调控提供新的见解。Plant aquaporin proteins basically mediate water transport through cell membranes, and also affect plant-microbe interactions and plant defense responses. Molecular mechanisms that underlie the dual function are unclear. Recently, the rice and Arabidopsis aquaporins OsPIP1; 2 and AtPIP1; 4 interact with Hpal, a protein secreted by type Ill pathway in Xanthomonas oryzae pathovars oryzae and oryzicola, which cause bacterial blight disaese and bacterial leaf streak disease of rice, respectively have been determined. When applied to plants or produced in transgenic plants, Hpal localizes to the apoplast and induces hydrogen peroxide generation in the same cellular location. The generation of hydrogen peroxide is dependent on the NADPH oxidase located at the plasma membrane. In response to Hpal, moreover, the apoplastic hydrogen peroxide translocates to the cyto- plasm with subcequent effects of enhancing plant defense responses to bacterial pathogens. According to estab- lished models in regard to the topological structure of aquaporins, the performance of bacterial type 111 secretion, and subcellular trafficking of hydrogen peroxide in plants, it is necessary to identify the functional domain for OsPIP1 ; 2 interacting with Hpal, and elucidate molecular features and structural basis of the OsPIP1 ; 2-Hpal in- teraction. Signal transduction triggered by the molecular interaction may be linked with the role of OsPIP1 ; 2- Hpal interaction in modulating translocation of apoplastic hydrogen peroxide to the cytoplasm, thus connecting the signal translocation with defense responses in rice. The OsPIP1; 2-Hpal interaction may also play a role in facilitating the translocation of X. oryzae type HI effector proteins from the bacterial cell to the plant cell because Hpal has been suggested as a candidate of tyep-lll effector translocators. With this hypothesis, studies are to fur- ther reveal regulatory mechanisms of plant-pathogen functions over what we have known up to date. interactions, offerring a significant extension o

关 键 词：植物水通道蛋白PIP1 水稻黄单胞菌 Hpa1 PIP1-Hpa1互作 信号转导 

分 类 号：S432.42[农业科学—植物病理学] S432.111.49[农业科学—农业昆虫与害虫防治]