中文摘要：

【目的】研究接种菌根与砷胁迫条件下玉米叶片组织相关蛋白质的变化。【方法】以玉米植株叶片为材料，采用双向凝胶电泳技术（2-DE）研究玉米叶片蛋白表达谱对丛枝菌根（AM菌根）接种和（或）砷胁迫的应答。【结果】经软件分析并搜索NCBInr数据库，结果显示，砷胁迫植株叶片中有7个蛋白点被成功鉴定，其中有3个未知蛋白，其余4个分别为2-phosphoglycerate kinase、OXidoreductase、MAP3Kdelta-1proteinkinase和0s06g0262800。接种且加砷处理植株叶片中有11个蛋白点被成功鉴定，有4个未知蛋白，其余蛋白分别为oxygen—evolving enhancer protcin3-1、putativeMprotein、SNF1-related proteinkinase2．2、ATP synthase CFl beta subunit、ATP synthase CFl aiphasubunit、pathogenesis—relatedprotein10、MAPkinasekinase和MEllprotein。【结论】菌根接种促进加砷处理玉米植株生长，并显著降低玉米植株地下部砷浓度。玉米植株叶片蛋白表达量及种类的变化，表明砷胁迫条件下菌根接种有可能激发与植物生长、养分吸收以及抗性有关的蛋白产生应答，有助于提高玉米对砷毒的抗性。

英文摘要：

[Objective] In this paper, proteomics were performed to analyze the changes in leaf proteins of maize in response to As additions and mycorrhizal inoculation. [ Method ] The leaf proteome of maize was analyzed using two-dimensional electrophoresis and mass spectrometry. A targeted proteomic approach was applied to determine the putative identity of some proteins induced/modulated by arsenic （As） and/or mycorrhizal inoculation. [Result] The proteomics aimed at comparing the leaf protein profiles of maize growing in substrate amended with arsenic or unamended. Seven differentially expressed protein spots were identified. Three of them were identified as unknown protein and the remaining four were 2-phosphoglycerate kinase, oxidoreductase, MAP3K delta-1 protein kinase and Os06g0262800. Another comparasion of leaf proteins between plants with arsenic stress and those with As stress plus mycorrhizal inoculation revealed that 22 spots were differentially displayed in response to mycorrhizal inoculation and 11 differentially expressed protein spots were identified. Four of them were identified as unknown protein and the other seven were oxygen-evolving enhancer protein 3-1, putative M protein, SNF 1-related protein kinase 2.2, ATP synthase CF 1 beta subunit, ATP synthase CF1 alpha subunit, pathogenesis-related protein 10, MAP kinase kinase and MEI1 protein, respectively. [ Conclusion] The dry weights of maize plants with As addition were improved by mycorrhizal innoculations, root As concentrations were also decreased significantly. Changes in the amount and types of leaf protein expression in maize plants indicated that mycorrhizal inoculation might simulate the proteins associated with plant growth, nutrient uptake and resistance to produce responses under arsenic stress conditions. Therefore, it＇s helpful to improve the resistance of maize plants to arsenic toxicity.