郑爱萍
学历/学位:博士 Degree:Doctor
职称/职务:教授 Title:Professor
硕导/博导:博导 Category:Doctor tutor
研究方向:植物保护学 Research Direction: Plant Protection
团队类型:教学科研 Class of teachers: Teaching and Scientific Research
邮箱: aipingzh@163.com;zhengaiping@sicau.edu.cn
主要从事有害生物可持续综合防控研究。四川省学术和技术带头人后备人选,四川省海外高层次留学人才,四川省杰出青年科技人才。先后主持和参加973计划,国家863计划,国家重大转基因专项,国家自然基金,国际科技合作项目(日本、孟加拉、伊朗)和重点研发等部省级课题20余项。在国内外重要刊物上发表SCI论文80余篇,国家授权发明专利30余件,国家著作权1项,编写病虫害防治教材1部,审定水稻新品种8个,获省级科技成果鉴定2项。相关科研成果发表在Nature Communications,Plant Biotechnology Journal,BMC Biology,Genomics等杂志。
教学及员工科研项目指导工作:
承担作物保护学,植物病理学前沿,现代植物病理学和现代昆虫学等课程。已指导毕业研究生39名,指导在读硕士研究生8名,博士研究生7名,巴基斯坦,加纳,尼泊尔和伊朗外籍职工4名。指导在读本科毕业论文员工3名,科研兴趣小组员工6名。招收作物保护学,分子生物学方向的研究生。
主要研究方向:
重要基因资源的发掘与利用
有害生物与寄主互作
农作物病虫害绿色防控
主持及参与项目:
四川省科技厅重点研发项目,2019YFN0010,水稻抗纹枯病基因资源的搜集与利用,2019-2022,主持。
成都市重点研发支撑计划,2021-YF05-02326,高抗稻粒黑粉病高异交性水稻不育系材料在育种中的应用,2022-2023,主持。
四川省国际科技合作项目,20GJHZ0062,水稻主要病害的抗性遗传因子的发掘及育种新标记的开发,2020-2022,参加。
四川省国际科技合作项目,22GJHZ0024,伊朗优异作物种质资源搜集评价与利用,2021-2023,参加。
成都市国际科技合作项目,2021-GH02-00085-HZ,水稻病害抗性遗传因子的发掘与利用,2022-2025,参加。
国家自然科学基金地区联合基金,U19A2033,四川盆地稻瘟病发生流行分子机理,2020-2023,参加。
科技部国家重大转基因专项,2016ZX08-009-003-001-004,苏云金芽胞杆菌新型杀虫基因资源的发掘与应用,2008-2021,主持。
973前期研究专项,2014CB160304,水稻纹枯病关键致病分子机制研究,2014-2016,主持。
国家自然科学基金,31400130,水稻纹枯病菌诱导水稻程序化死亡的作用机制,2014-2017,主持。
四川省科技国际合作项目,2015HH0028,中国孟加拉水稻联合研究中心,2014-2017,主持。
国家863项目,2006AA10A103,水稻重要农艺性状基因克隆,2008-2010,主研。
四川省青年基金项目,06ZQ026-029,高抗水稻稻瘟病基因克隆和表达研究,2006-2008,主持。
国家863项目,2006AA02Z189,苏云金芽胞杆菌新型杀虫基因的发掘,2006-2008,主持。
国家863项目,2002AA212151,高效杀虫、防病重组农用微生物的构建,2002-2006,主持。
科研成果及转化情况:
审定泰优1号,G优204等抗病水稻新品种8个。
科技成果鉴定2项:
“微生物源农作物杀虫新基因资源的挖掘和利用”(2019)
“苏云金芽孢杆菌杀虫新基因资源的发掘与应用”(2021)
科技成果转化2项。
发明专利:
水稻纹枯菌effector基因RsIA_SCR28及其应用,专利号:ZL201910195823.7(2021)
水稻纹枯病菌effector基因RsIA_NP8及其应用,专利号:ZL202010041231.2(2021)
一株苏云金芽孢杆菌新菌株及其应用,专利号:ZL201410429774.6(2019)
苏云金芽孢杆菌HS18-1及其应用,专利号:ZL200910081594.2(2015)
苏云金芽孢杆菌BM59-2及其应用,专利号:ZL200910081598.0(2015)
一种Bt蛋白Cry68Aa1其编码基因及应用,专利号:ZL201110405127.8(2013)
一种Bt蛋白Cry69Aa1其编码基因及应用,专利号:ZL201110403674.2(2013)
一种Bt蛋白Cry70Aa1其编码基因及应用,专利号:ZL201110459669.3(2013)
一种Bt蛋白Cry71Aa1基因其编码蛋白和应用,专利号:ZL201310428864.9(2018)
一种Bt蛋白Cry72Aa1其编码基因及应用,专利号:ZL201310430487.2(2018)
近期发表学术论文:
(1) Danhua Zhang†,Zhaoyilin Wang†,Naoki Yamamoto†,Mingyue Wang,Xiaoqun Yi,Ping Li,Runmao Lin,Zohreh Nasimi,Kazunori Okada,Keiichi Mochida,Yoshiteru Noutoshi,Aiping Zheng*,Secreted Glycosyltransferase RsIA_GT ofRhizoctonia solaniAG-1 IA inhibits defense responses inNicotiana benthamiana,Pathogens,2022,11:1026.
(2) Aijun Wang†,Li Ma†,Xinyue Shu,Yuqi Jiang,Juan Liang,Aiping Zheng*,Rice (Oryza sativa L.) cytochrome P450 protein 716A subfamily CYP716A16 regulates disease resistance,BMC Genomics,2022,23:343.
(3) Aijun Wang†,Xinyue Shu†,Xin Jing†,Chengzhi Jiao,Lei Chen†,Jinfeng Zhang†,Li Ma,Yuqi Jiang,Naoki Yamamoto,Shuangcheng Li,Yueyang Liang,Ting Zou,Huainian Liu,Yubi Huang,Ping Li*,Aiping Zheng*,Identification of rice (Oryza sativa L.) genes involved in sheath blight resistance via a genome-wide association study,Plant Biotechnology Journal,2021,19,1553-1566.
(4) Xinyue Shu†,Aijun Wang†,Bo Jiang,Yuqi Jiang,Xing Xiang,Xiaoqun Yi,Shuangcheng Li,Qiming Deng,Shiquan Wang,Jun Zhu,Yueyang Liang,Ting Zou,Ping Li,Aiping Zheng*,Genome-wide association studyandtranscriptome analysis discover new genes for bacterial leaf blight resistance in rice (Oryza sativa L.),BMC Plant Biology,2021,21:255.
(5)Xianyu Niu,Guijing Yang,Hui Lin,Yao Liu,Ping Li,Aiping Zheng*,A novel, small cysteine-rich effector,RsSCR10 inRhizoctonia solaniis sufficient to trigger plant cell death,Front. Microbiol.,2021,12: 684923.
(6) Runmao Lin,Yuan Xia,Yao Liu,Danhua Zhang,Xing Xiang,Xianyu Niu,Aiping Zheng*,Comparative mitogenomic analysis and the evolution ofRhizoctonia solanianastomosis groups,Front. Microbiol.,2021,12:707281.
(7) Aijun Wang,Yuqi Jiang,Xinyue Shu,Zhongping Zha,Desuo Yin,Yao Liu,Danhua Zhang,Deze Xu,Cheng zhi Jiao,Xiaomei Jia,Shuangcheng Li,Yueyang Liang,Ting Zou,Jianqing Zhu,Ping Li,Zaijun Zhang*,Aiping Zheng*,Genome-wide association study-based identification genes influencing agronomic traits in rice (Oryza sativa L.),Genomics,2021,1396-1406.
(8) Hongwei Sun,Xing Xiang,Qiao Li,Hui Lin,Xiaolin Wang,Long Luo*,Aiping Zheng*,Comparative gen ome analysis ofBacillus thuringiensisstrain HD521 and HS18-1,Scientifc Reports,2021,11:16590.
(9) Miaomiao Wei,Aijun Wang,Yao Liu,Li Ma,Xianyu Niu,Aiping Zheng*,Identification of the novel effec tor RsIA_NP8 inRhizoctonia solaniAG1IA that induces cell death and triggers defense responses in non-host plants,Front. Microbiol.,2020,11:1115.
(10) Aijun Wang,Zhongping Zha,Desuo Yin,Xinyue Shu,Li Ma,Ping Li,Aiping Zheng*,Comparative transcriptome analysis ofTilletia horridainfection in resistant and susceptible rice (Oryza sativa L.) male sterile lines reveals potential candidate genes and resistance mechanisms,Genomics,2020,112:5214-5226.
(11) Sohaib Ismail,Bo Jiang,Zohreh Nasimi,MInamul Haq,Naoki Yamamoto,Muhammad Arshad,Kumail Abbas,Aiping Zheng*,Investigation ofStreptomyces scabiescausing potato scab by various detection techniques, its pathogenicity and determination of host-disease resistance in potato germplasm,Pathogens,2020,9760.
(12) Aijun Wang,Linxiu Pan,Xianyu Niu,Xinyue Shu,Naoki Yamamoto,Shuangcheng Li,Qiming Deng,Jun Zhu,Yueyang Liang,Lingxia Wang,Ping Li,Aiping Zheng*,Comparative secretome analysis of different smut fungi and identification of plant cell death-inducing secreted proteins fromTilletia horrida,BMC Plant Biology,2019,19: 360.
(13) Aijun Wang,Xinyue Shu,Xianyu Niu,Xiaoqun Yi,Aiping Zheng*,Transcriptome analysis and genome re-sequencing provide insights on rice kernel smut (Tilletia horrida) pathogenicity,Journal of Plant Pathology,2019.
(14) Naoki Yamamoto,Yanran Wang,Runmao Lin,Yueyang Liang,Yao Liu, Jun Zhu,Lingxia Wang,Shiquan Wang,Qiming Deng,Shuangcheng Li,Ping Li,Aiping Zheng*,Integrative transcriptome analysis discloses the molecular basis of a heterogeneous fungal phytopathogen complex,Rhizoctonia solaniAG-1subgroups,Scientific Reports,2019,9:19626.
(15) Jinfeng Zhang,Wenjuan Zhao,Shuangcheng Li,Qiming Deng,Shiquan Wang,Jun Zhu,Yueyang Liang,Ping Li,Aiping Zheng*,Comparison of gene co-networks reveals the molecular mechanismsof the rice (Oryza sativa L.) response toRhizoctonia solaniAG1IA infection,Functional & Integrative Genomics, 2018.
(16)Jinfeng Zhang,Lei Chen,Shuangcheng Li,Qiming Deng,Shiquan Wang,Jun Zhu,Yueyang Liang,Ping Li,Aiping Zheng*, Comparativetranscriptomeanalyses ofgeneexpressionchangestriggered byRhizoctonia solaniAG1-IAinfection inresistant andsusceptiblericevarieties, Frontiers in Plant Science, 2017, 8:1422.
(17)Yuan Xia,Binghong Fei,Jiayu He,Menglin Zhou,Danhua Zhang,Linxiu Pan,Shuangcheng Li,Yueyang Liang,Lingxia Wang,Jianqing Zhu,Ping Li,Aiping Zheng*, Transcriptome analysis reveals the host selection fitness mechanisms of theRhizoctonia solaniAG1IA pathogen, Scientific Reports, 2017, 7: 10120.
(18)Aiping Zheng#*,Runmao Lin#,Danhua Zhang,Peigang Qin,Lizhi Xu,Peng Ai,Lei Ding,Yanran Wang,Yao Liu,Zhigang Sun,Haitao Feng,Rongtao Fu,Qiao Li,Qiming Deng,Shuangcheng Li,Shiquan Wang,Jun Zhu,Ping Li*,The evolution and patho genic mechanisms of the rice sheath blight pathogen,Nature Communications,2013,2427.
(19)余宗兰,贺利业,孙宏伟,李平,郑爱萍*,苏云金芽胞杆菌杀虫晶体蛋白Cry1D新基因克隆与特性,中国生物防治学报,2019,35.
(20)王爱军,王娜,顾思思,赵文娟,李平,郑爱萍*,我国水稻纹枯病菌的融合类群及致病性差异,草业学报,2018,27.
(21)周梦琳,夏园,刘尧,何嘉瑜,张丹华,郑爱萍*,水稻纹枯病菌无毒菌株基因组重测序及致病力相关基因分析,植物病理学报,2017,15.
(22)王爱军#,殷得所#,富蓉,盘林秀,江波,郑爱萍*,78个水稻不育系对稻粒黑病的抗性评价,植物病理学报,2017,15.8个水稻不育系对稻粒黑病的抗性评价,植物病理学报,2017,11-15.