电话：0371-56990319
邮箱：mingyuegou@henau.edu.cn 
地址：郑州市郑东新区平安大道218号威斯尼斯人wns579龙子湖校区第一实验楼南405
网页：https://www.researchgate.net/profile/Mingyue-Gou
https://scholar.google.com/citations?user=0jFPU1IAAAAJ&hl=en（谷歌学术）
研究方向：作物抗病（逆）机制研究及分子育种
主要研究内容：
1、玉米抗病基因挖掘与分子机制解析；
2、玉米抗倒伏基因挖掘与分子机制解析；
3、植物细胞壁合成机制研究；
4、植物生长与抗病平衡机理研究；
5、玉米基因编辑及分子育种。
讲授课程：
植物生物技术、分子生物学、农业微生物学。
教育与研究/工作经历：
2017年-至今 威斯尼斯人wns579教授，河南省特聘教授；
2012-2018年 美国布鲁克海文国家实验室生物系，副研究员（Research Associate）；
2009-2012年 美国康奈尔大学植物系，博士后；
2003-2009年 中国农业老员工物学院，理学博士学位；
1999-2003年 西南农业大学（现西南大学）威斯尼斯人wns579，农学学士学位。
研究项目：
1、国家自然科学基金（联合基金重点项目）：黄淮地区玉米叶部病害广谱抗病基因克隆与广谱抗性机制解析，2021-2024，主持人；
2、国家重点研发专项，“玉米抗病虫高产基因资源挖掘与利用”项目“玉米抗病虫高产基因的生物育种应用”课题，2022-2017，子课题负责人；
3、河南省杰出青年基金项目：BLES10 调控玉米广谱抗病性机制解析及其育种应用， 2021-2023，主持人；
4、“中原千人计划”-青年拔尖人才项目：作物抗病与细胞壁合成机制研究，2020-2022，主持人；
5、河南省重大科技专项：玉米关键性状优异基因挖掘与新品种选育，2022-2024，参与；
6、美国能源部（DOE）专项，Metabolic plasticity, macromolecular organization, and post-translational regulation of lignin biosynthesis 2012 -2020，参与；
7、美国国家自然科学基金（NSF）项目， Molecular mechanisms underlying temperature modulation of defense responses, 2009 -2013，参与；
8、美国国家自然科学基金（NSF）项目， Regulation of a resistance gene by BON1 in Arabidopsis，2007 -2010，参与。
主要荣誉：
1、2017年度河南省特聘教授；
2、2019年“中原千人计划”-青年拔尖人才；
3、2020年河南省高层次人才；
4、2021年河南省杰出青年科学基金获得者；
5、2021年“挑战杯”河南省老员工课外学术科技作品竞赛二等奖指导教师；
6、2022年河南省老员工微生物实验设计大赛二等奖指导教师；
7、2022年度威斯尼斯人wns579本科优秀毕业论文指导教师；
8、2022年度威斯尼斯人wns579优秀教师。
研究论文及专利：
1. Mingyue Gou, Peter Balint-Kurti, Mingliang Xu, and Qin Yang (2023). Quantitative disease resistance: Multifaceted players in plant defense. Journal of Integrative Plant Biology, 65: 594-610. (IF =9.106)
2. Xianhai Zhao, Yunjun Zhao, Mingyue Gou, and Chang-Jun Liu* (2023). Tissue-preferential recruitment of electron transfer chains for cytochrome P450-catalyzed phenolic biosynthesis. Science advances, 9: eade4389. (IF =14.957)
3. Huaibing Jin, Xinyun Han, Zhaohui Wang, Yilin Xie, Kunpu Zhang, Xiaoge Zhao, Lina Wang, Jin Yang, Huiyun Liu, Xiang Ji, Lingli Dong, Hongyuan Zheng, Weijuan Hu, Yan Liu, Xifeng Wang, Xueping Zhou, Yijing Zhang, Weiqiang Qian, Wenming Zheng, Qianhua Shen*, Mingyue Gou*, Daowen Wang* (2022). Barley GRIK1-SnRK1 kinases subvert a viral virulence protein to upregulate antiviral RNAi and inhibit infection. The EMBO Journal, 41: e110521.（IF= 14.012）
【Recommended by You et al., (2022) Achieving a more robust antiviral RNAi via subverting a viral virulence protein. Molecular Plant, 15: 1514-1516】
4.Jiankun Li, Mengyao Chen, Tianyuan Fan, Xiaohuan Mu, Jie Gao, Ying Wang, Teng Jing, Cuilan Shi, Hongbin Niu, Sihan Zhen, Junjie Fu, Jun Zheng, Guoying Wang, Jihua Tang, Mingyue Gou* (2022). Underlying mechanism of accelerated cell death and multiple disease resistance in a maize lethal leaf spot 1 allele. Journal of Experimental Botany, 73: 3991-4007.（IF=7.298）
5. Yanwen Yu, Tongxiang Zhang, Jinfan Sun, Teng Jing, Yanjie Shen, Kunpu Zhang, Yan Chen, Dong Ding, Guoying Wang, Jianping Yang, Jihua Tang, Zhenying Shi*, Daowen Wang*, Mingyue Gou * (2022). Evolutionary characterization of miR396s in Poaceae exemplified by their genetic effects in wheat and maize. Plant Science 325:111465.（IF=5.363）
6. Guanghua Sun, Luhao Yang, Weimin Zhan, Shizhan Chen, Meifang Song, Lijian Wang, Liangliang Jiang, Lin Guo, Ke Wang, Xingguo Ye, Mingyue Gou, Xu Zheng, Jianping Yang*, Zehong Yan* (2022). HFR1, a bHLH transcriptional regulator from Arabidopsis thaliana, improves grain yield, shade and osmotic stress tolerances in common wheat. International Journal of Molecular Sciences, 23(19):12057. (IF =6.208)
7. Xiaohuan Mu^#, Zhuangzhuang Dai^#, Zhanyong Guo, Hui Zhang, Jianping Yang, Xinke Gan, Jiankun Li, Zonghua Liu, Jihua Tang*, Mingyue Gou* (2022). Systematic dissection of disease resistance to southern corn rust by bulked-segregant and transcriptome analysis. The Crop Journal, 10(2): 426-435.（IF=4.647）
8．Xiaohuan Mu^#, Jiankun Li^#, Liping Xu, Zhuangzhuang Dai, Tianyuan Fan, Teng Jing, Mengyao Chen, and Mingyue Gou* (2021). Commonly and specifically activated defense responses in maize disease lesion mimics mutants revealed by integrated transcriptomics and metabolomics analysis. Frontiers in Plant Science, 12:1-19.（IF=6.627）
9. Guangwei Li, Lijian Wang, Jianping Yang*,Hang He, Huaibing Jin, Xuming Li, Tianheng Ren, Zhengnong Ren, Feng Li, Xue Han, Xiaoge Zhao, Lingli Dong, Yiwen Li, Zhongping Song, Zehong Yan, Nannan Zheng, Cuilan Shi, Zhaohui Wang, Shuling Yang, Zijun Xiong, Menglan Zhang, Guanghua Sun, Xu Zheng, Mingyue Gou, Changmian Ji, Junkai Du, Hongkun Zheng, Jaroslav Doleze, Xing Wang Deng, Nils Stein, Qinghua Yang*, Kunpu Zhang*, Daowen Wang* (2021). A high-quality genome assembly highlights rye genomic characteristics and agronomically important genes. Nature Genetics, 53(4):574-584. (IF=41.307)
10. Mingyue Gou^#, Xiaoman Yang^#, Yunjun Zhao^#, Xiuzhi Ran, Yanzhai Song, and Chang-Jun Liu* (2019). Cytochrome b5 is an obligate electron shuttle protein for syringyl lignin biosynthesis in Arabidopsis. Plant Cell, 31:1344-1366.（IF=12.085）
11. Mingyue Gou, Xiuzhi Ran, Dwight W. Martin and Chang-Jun Liu* (2018). The scaffold proteins of lignin biosynthetic cytochrome P450 enzymes. Nature Plants, 4: 299-310.（IF=17.352）
【Recommended by Du et al., (2018) New Components of the Lignin Biosynthetic Metabolon. Trends in plant science, 23:557-559; and by Wang, B., and Zhao, Q. (2018). Membrane-bound metabolons. Nature Plants, 4: 245-246.】
12. Dong-Lei Yang, Zhenying Shi, Yongmei Bao, Jiapei Yan, Ziyuan Yang, Huiyun Yu, Yun Li, Mingyue Gou, Shu Wang, Baohong Zou, Dachao Xu, Zhiqi Ma, Jitae Kim, Jian Hua* (2017). Calcium pumps and interacting BON1 protein modulate calcium signature, stomatal closure, and plant immunity. Plant Physiology, 175(1):424-437. (IF=8.005)
13. Mingyue Gou^#, Quansheng Huang^#, Weiqiang Qian, Zemin Zhang, Zhenhua Jia, and Jian Hua* (2017). Sumoylation E3 Ligase SIZ1 modulates plant immunity partly through the immune receptor gene SNC1 in Arabidopsis. Molecular Plant-Microbe Interactions, 30(4):334-342. (IF=3.422)
14. Mingyue Gou, Guichuan Hou, Huijun Yang, Xuebin Zhang, Yuanheng Cai, Guoyin Kai, and Chang-Jun Liu* (2017).The MYB107 transcription factor positively regulates suberin biosynthesis. Plant Physiology, 173 (2):1045-1058. (IF=8.005)
15. Mingyue Gou^#, Zemin Zhang^#, Ning Zhang^#, Quansheng Huang, Jacqueline Monaghan, Huijun Yang, Zhenying Shi, Cyril Zipfel, and Jian Hua* (2015). Opposing effects on two phases of defense responses from concerted actions of HEAT SHOCK COGNATE70 and BONZAI1 in Arabidopsis. Plant Physiology, 169(3):2304-2323. (IF=8.005)
16. Xuebin Zhang, Mingyue Gou, Chunrong Guo, Huijun Yang, Chang-Jun Liu* (2014). Down-regulation of the kelch domain-containing F-box protein in Arabidopsis enhances the production of (poly)phenols and tolerance to UV-radiation. Plant Physiology, 167(2):337-50. (IF=8.005)
17. Chang-Jun Liu*, Yuanheng Cai, Xuebin Zhang, Mingyue Gou, Huijun Yang (2014). Tailoring lignin biosynthesis for efficient and sustainable biofuel production. Plant Biotechnology Journal, 12(9):1154-62. (IF=13.263 )
18. Xiaoqing Wang, Mingyue Gou, Huahu Bu, Shengxue Zhang, Guoying Wang* (2014).Proteomic analysis of Arabidopsis constitutive expresser of pathogenesis-related gene1 (Cpr30/cpr1-2) mutant. Plant omics journal, 7(3):123-132
19. Kewei Zhang, Ondrej Novak, Zhaoyang Wei, Mingyue Gou, Xuebin Zhang, Yong Yu, Huijun Yang, Yuanheng Cai, Miroslav Strnad, and Chang-Jun Liu* (2014). Arabidopsis ABCG14 protein controls the acropetal translocation of root-synthesized cytokinins. Nature Communications, 5:3274.（IF=17.694 ）
20. Xuebin Zhang^#, Mingyue Gou^#, Chang-Jun Liu* (2013). Kelch repeat F-box proteins regulate phenylpropanoid biosynthesis via controlling the turnover of Phenylalanine Ammonia-Lyase. Plant Cell, 25: 4994–5010.（IF=12.085）
21. Mingyue Gou and Jian Hua* (2012). Complex regulation of an R gene SNC1 revealed by auto-immune mutants. Plant Signaling & Behavior, 7(2): 213–216.（IF=2.734）
22. Mingyue Gou, Zhenying Shi, Ying Zhu, Zhilong Bao, Guoying Wang and Jian Hua* (2012). The F-box protein CPR1/CPR30 negatively regulates R protein SNC1 accumulation. Plant Journal, 69: 411–420. (Recommended as top article from F1000's faculty of leading experts).（IF=7.091）
23. Yongqing Li^#, Mingyue Gou^#, Qi Sun, and Jian Hua* (2010). Requirement of calcium binding, myristoylation, and protein-protein interaction for the copine BON1 function in Arabidopsis. Journal of Biological Chemistry, 285(39):29884-91.（IF=5.486）
24. Jun Zheng^#, Junjie Fu^#, Mingyue Gou^#, Junling Huai, Yunjun Liu, Min Jian; Quansheng Huang, Xiying Guo, Zhigang Dong, Hongzhi Wang, Guoying Wang* (2010). Genome-wide transcriptome analysis of two maize inbred lines under drought stress. Plant Molecular Biology, 72(4-5):407-21.（IF= 4.242）
25. Mingyue Gou^#, Nan Su^#, Jun Zheng, Junling Huai, Guangheng Wu, Jinfeng Zhao, Junguang He, Dingzhong Tang, Shuhua Yang, and Guoying Wang* (2009). An F-box gene, CPR30, functions as a negative regulator of the defense response in Arabidopsis. Plant Journal, 60(5):757-70.（IF= 7.091）
26. Jinfeng Zhao, Zhenfei Sun, Jun Zheng, Xiying Guo, Zhigang Dong, Junling Huai, Mingyue Gou, Junguang He, Yongsheng Jin, Jianhua Wang, Guoying Wang* (2009). Cloning and characterization of a novel CBL-interacting protein kinase from maize. Plant Molecular Biology, 2009, 69:661–674.（IF=4.335）
27. Jun Zheng, Jinfeng Zhao, Jinpeng Zhang, Junjie Fu, Mingyue Gou, Zhigang Dong, Wei Hou, Jinping Jia, Quansheng Huang and Guoying Wang* (2006). Comparative expression profiles of maize genes under high-salinity, cold and abscisic acid application using a water stress specific cDNA macroarray. Plant Science, 170:1125-1132.（IF=5.363）
28. 程相杰、徐莉萍、母小焕、苟明月* (2022), 玉米天冬氨酸蛋白酶基因家族的鉴定与表达分析。玉米科学 30 (1):53-62。
29. 白云凤、赵晋锋、郑军、张锦鹏、王茅雁、苟明月、董志刚、 杨红春、王国英* (2006),反义外壳蛋白基因介导的抗SCMV转基因玉米研究。 作物学报 32（5）:661-665。
30. 白云凤、王国英*、苟明月、董志刚、赵晋锋 (2006), 农杆菌介导玉米转基因的影响因素研究。中国生态农业学报 14（3）:173-175。
31. 苟明月*、荆腾、武玉莹、范田源、李见坤 (2022), 控制玉米株高的基因、其编码的蛋白质以及应用，CN202011490418.7（国家发明专利）。
注：^#并列第一作者；*通讯(含并列通讯)作者；IF为2021-2022最新影响因子。