张建军 - 华南农业大学 - 林学与风景园林学院

个人简介

目前主要利用内质网中不同错误折叠类型的底物蛋白质系统研究植物内质网中错误折叠蛋白的质量监控和相关降解。主持2项国家自然科学基金以及多项省部级科研项目，在Nature Communications，Molecular Plant，Plant Physiology，Journal of Experimental Botany，Journal of Integrative Plant Biology 等杂志上发表论文20多篇。承担主要科研项目： 1. OsAT1调节水稻籽粒直链淀粉含量的机理研究，国家自然科学基金面上项目(31471426)，2015.1 -2018.12，主持。 2. OsAT1调控水稻卷叶的机理研究，广东省自然科学基金项目(S2012010009151), 2012.10- 2014.10，主持。 3. OsAT3调节水稻根生长及抗铝性的机理研究，国家自然科学青年基金项目(31000677), 2011.1-2013.12，主持。 4. 多基因转化提高水稻耐热性研究，广东省科技计划项目(2010B020301009)，2011.1-2013.12，主持。 5. OsAT3调节水稻根生长及抗铝性的功能研究，教育部高等学校博士学科点专项科研新教师类基金(20104404120010)，2011.1-2013.12，主持。授权专利： 1.水稻OsICL蛋白及其编码基因和应用.专利号: 201210163904.7, 授权公告日: 2013.12.4，发明人: 彭新湘, 张建军, 张婵, 杨国珍, 陈燕. 2.水稻抗白叶枯病相关蛋白及其编码基因与应用. 专利号: ZL201210389134.8, 授权公告日: 2014.9.24, 发明人: 张建军, 彭新湘, 毛心学, 陈燕. 3.水稻OsAT1蛋白及其编码基因与应用. 专利号: ZL201310073466.X, 授权公告日: 2014.3.12，发明人: 张建军, 彭新湘, 田华, 刘娥娥, 陈燕, 周晓垂. 4.水稻OsAT1蛋白在改善植物硼含量中的应用.专利号: 201710216526.7, 授权公告日: 2020.3.30，发明人: 张建军, 彭新湘, 江小梅, 刘坤, 刘衡郴, 梁枫. 承担主要课程：本科生：《生物化学》、《植物生理学》、《药用植物生理学》、《植物学实验》、《植物生理学实验》

研究领域

内质网蛋白质质量监控与植物激素信号转导

近期论文

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1.Mao X , Zhang J (co-first), Liu W, Yan S, Liu Q, Fu H, Zhao J, Huang W, Dong J, Zhang S, Yang T, Yang W, Liu B, Wang F. The MKKK62-MKK3-MAPK7/14 module negatively regulates seed dormancy in rice. Rice, 2019,12:2 2.Lin L, Zhang C, Chen Y, Wang Y, Wang D, Liu X, Wang M, Mao J, Zhang J, Xing W, Liu L*, Li J*. PAWH1 and PAWH2 are plant-specific components of an Arabidopsis endoplasmic reticulum-associated degradation complex. Nature Communications, 2019,10: 3492 3.Shen B , Wang L , Lin X , Yao Z , Xu H , Zhu C , Teng H , Cui L , Liu E., Zhang J , He Z and Peng X. Engineering a New Chloroplastic Photorespiratory Bypass to Increase Photosynthetic Efficiency and Productivity in Rice. Molecular Plant, 2019,12(2): 199-214 4.Liao P, Ouyang J, Zhang J, Yang L, Wang X, Peng X, Wang D, Zhu Y, Li S. OsDCL3b affects grain yield and quality in rice. Plant Molecular Biology, 2019, 99: 193-204 5.Zhang X, Zhou L, Qin Y, Chen Y, Liu X, Wang M, Mao J, Zhang J, He Z, Liu L*, Li J*. A temperature-sensitive misfolded bri1-301 receptor requires its kinase activity to promote growth. Plant Physiology, 2018, 178: 1704-1719 6.Shen B, Zhu C, Yao Z, Cui L, Zhang J, Yang C, He Z, Peng X. An optimized transit peptide for effective targeting of diverse foreign proteins into chloroplasts in rice. Scientific Reports, 2017, 7: 46231 7.Peng C, Liang X, Liu EE, Zhang JJ, Peng XX. The oxalyl-CoA synthetase-regulated oxalate and its distinct effects on resistance to bacterial blight and aluminium toxicity in rice. Plant Biology, 2017, 19(3): 345-353 8.Liu CH, Zhu HT, Xing Y, Tan JJ, Chen XH, Zhang JJ, Peng HF, Xie QJ, Zhang ZM. Albino Leaf 2 is involved in the splicing of chloroplast group I and II introns in rice. Journal of Experimental Botany, 2016, 67(18): 5339-5347 9.Wu Y, Yi G, Peng X, Huang B, Liu E, Zhang J. Systemic acquired resistance in cavendish banana induced by infection with an incompatible strain of Fusarium oxysporum f. sp. cubense. Journal of Plant Physiology. 2013, 170: 1039-1046 10.Yang Q, He H, Li H, Tian H, Zhang J, Zhai L, Chen J, Wu H, Yi G, He Z, Peng X*. NOA1 functions in a temperature-dependent manner to regulate chlorophyll biosynthesis and Rubisco formation in rice. PLoS ONE, 2011, 6(5): e20015 11.Zhang J, Yin Y, Wang Y, Peng X. Identification of rice Al-responsive genes by semi-quantitative polymerase chain reaction using sulfite reductase as a novel endogenous control. Journal of Integrative Plant Biology, 2010, 52(5): 505-514 12.Xu H, Zhang J（co-first）, Zeng J, Jiang L, Liu E, Peng C, He Z, Peng X*. Inducible antisense suppression of glycolate oxidase reveals its strong regulation over photosynthesis in rice. Journal of Experimental Botany, 2009, 60: 1799-1809 13.Tian H, Jiang LR, Liu EE, Zhang JJ, Peng XX. Dependence of nitrate-induced oxalate accumulation on nitrate reduction in rice leaves. Physiologia Plantarum, 2008, 133:180-189 14.Zhu G, Zhang J, Chen J, Peng X. Characterization of a rice metallothionein type 3 gene with different expression profiles under various nitrogen forms. Biologia Plantarum, 2008, 52: 668-673 15.Yang Q, Wang Y, Zhang J, Shi W, Qian C, Peng X*. Identification of aluminum-responsive proteins in rice roots by a proteomic approach: Cysteine synthase as a key player in Al response. Proteomics, 2007,7(5): 737-749 16.Zhang JJ, He ZH, Tian H, et al. Identification of aluminum-responsive genes in rice cultivars with different aluminum sensitivities. Journal of Experimental Botany, 2007, 58: 2269-2278