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作物育种与种子科学系
陈锋男,教授二级岗,博士生导师。国家万人计划领军人才国务院政府特殊津贴、教育部新世纪优秀人才、中国科协海智特聘专家、河南省特聘教授、河南省优秀专家、河南省高层次人才B、江苏省双创人才等。现任农学院副院长、CIMMYT-中国(河南)小麦玉米联合研究中心主任等职务。

研究方向:小麦分子育种

研究领域:小麦重要性状基因挖掘及分子育种

讲授课程:试验设计与统计分析,作物育种学

联系邮箱fengchen@henau.edu.cn

   期刊Molecular Breeding和《中国农业科学》编委;中国作物学会理事、中国生物工程学会生物农业分会常务委员、河南省核学会副理事长、河南省遗传学会理事等。

教育工作经历

1996.9-2003.6 河南农业大学,学士和硕士

2003.9-2006.7 中国农业科学院,作物遗传育种专业,博士

2006.9-2008.6 中科院遗传发育所,遗传学,博士后

2008.6-2013.6 美国华盛顿州立大学、意大利博罗尼亚大学和美国加州大学戴维斯分校,博士后或访问学者

2010.3-至今,河南农业大学,特聘教授

2016.5-2020.12,河南农业大学,国家重点实验室副主任等

2021-至今,河南农业大学,CIMMYT-中国小麦玉米联合研究中心主任

2022-至今,河南农业大学,农学院副院长
 

承担项目与课题

1. 主持国家自然科学基金国际合作研究项目:小麦纹枯病抗性基因挖掘及优异种质资源创制W2412001直接经费200万元。2025.1-2029.12

2. 主持国家重点研发计划重大项目课题:小麦优质高产抗病基因资源挖掘与利用2023YFD1200403经费500万。2023.12-2028.11

3. 主持国家自然科学基金河南区域创新基金重点项目:小麦茎基腐病抗性基因挖掘及优异资源创制U23A20191直接经费255万。2024.1-2027.12

4. 主持河南省杰出外籍科学家工作室项目:小麦分子育种研究,GZS2023005100万。2023.1-2025.12

5. 主持国家重点研发计划中美政府间国际科技创新合作”重点专项:小麦茎基腐病抗性基因挖掘及优异种质资源创制。2019YFE01183002702020.12-2023.11已结题。

6主持国家自然科学基金面上项目:小麦抽穗期相关基因挖掘及其调控分子机制研究。32072057直接经费:58万;2021.1-2024.12已结题。

7主持国家自然科学基金国际合作研究项目:小麦黄花叶病抗性基因挖掘与分子育种。3181101544160万元2019.1-2023.12已结题

8主持国家自然科学基金河南联合基金重点项目:小麦面团稳定时间重要基因挖掘及其功能分析。U1804234直接经费:2102019.1-2022.12已结题

9主持国家“万人计划”项目:小麦分子育种。Z04295802018.01-2020.12已结题

10主持国家重点研发计划七大作物育种项目子课题:主要粮食作物分子设计育种2016YFD101802100万;2016.7-2020.12已结题

11主持河南省科技创新杰出青年基金;小麦春化和光周期相关优异基因挖掘与利用;2017.1-2018.1230。已结题

12主持河南省重大科技专项课题:小麦玉米关键基因克隆及其现代高效育种技术体系构建;1611001105002016.9-2019.9112。已结题

13主持国家973前期专项;2014CB160303;小麦产量相关性状基因克隆及功能分析;2014.10-2016.998。已结题

14主持河南省高校科技创新团队项目;14IRTSTHN010;小麦重要性状的基因克隆及其功能分析;2014.01-2016.12100万。已结题

15主持教育部新世纪优秀人才支持计划;NCET-13-077650万。2014.01-2016.12已结题。

16主持国家自然科学基金青年-面上连续资助项目;调控小麦籽粒硬度的分子遗传基础及其相关基因功能分析;3137003180万。2014.01-2017.12已结题。
 

发表部分论文清单

1. Ning Zhang#Songgang Li#Zhipeng Sun, JingjingDai,Shuyu Zhang, Daiying Chen, Lei Zhao, Aolin Jia, Feng Chen*A lectin receptor-like kinase TaSRK that is deacetylated by TaHDA9 regulates wheat grain length by mediating the Photosystem II protein TaPsbOScience Bulletin, 2025, in press. (IF=18.8)

2. Xia Yang, Leilei Zhang, Jiajie Wei, Lexin Liu, Di Liu, Xiangning Yan, Minjie Yuan, Lingran Zhang, Ning Zhang, Yan Ren, Feng Chen*A TaSnRK1α-TaCAT2 model mediates resistance to Fusarium crown rot by scavenging ROS in common wheat. Nature Communications2025, 16(1):2549 (IF=14.7)

3Ning Zhang*, Li Tang, Songgang Li, Lu Liu, Mengjuan Gao, Sisheng Wang, Daiying Chen, YichaoZhao, Ruiqing Zheng, Armin SoleymaniniyaLingranZhang, Wenkang Wang, Xia Yang, Yan Ren, CongweiSun, Mathias Wilhelm, Daowen Wang*, Min Li*, Feng Chen*. Integration of multi-omics data accelerates molecular analysis of common wheat traits. Nature Communications, 2025,16(1):2200. (IF=14.7)

4Congwei Sun, Zhenhai Jing, Xiaoqian Chen, JiahuiChen, Qiaoqiao Shang, Hui Jin, Zhonghu He, JizengJia, Yan Ren, Lei Zhao, Lifeng Gao*, Zhonghu He*, Feng Chen*. Reconciliation of Wheat 660K and 90K SNP arrays and their utilization in dough rheological properties of bread wheat. Journal of Advanced Research, 2025, S2090-1232(25)00030-X. (IF=11.4)

5Guangwei Li#, Yan Ren#Yuxin Yang#Shulin Chen#Feng Chen*Daowen Wang*, Kunpu Zhang*, Guihong Yin*. Genomic analysis of Zhou8425B, a key founder parent, reveals its genetic contributions to elite agronomic traits in wheat breeding. Plant Communications, 2025,6(3):101222. (IF=9.4)

6Li Qiong, Zeng Zhankui, Zhao Yue, Li JiachuangChen Feng*Chunping Wang*. Genome-wide association study and linkage mapping reveal TaqW-6B associated with water-extractable arabinoxylan content in wheat grain. Theoretical and Applied Genetics, 2024,137(7):166. (IF=4.4)

7Wang C, Sun M, Zhang P, Ren X, Zhao S, Li M, Ren Z, Yuan M, Ma L, Liu Z, Wang K, Chen F*, Li Z*, Wang X*. Genome-Wide Association Studies on Chinese Wheat Cultivars Reveal a Novel Fusarium Crown Rot Resistance Quantitative Trait Locus on Chromosome 3BL. Plants (Basel). 2024, 13(6):856. (IF=4.0)

8Lingran Zhang, Ning Zhang, Sisheng Wang, HongyanTian, Lu Liu, Dan Pei, Xiaodong Yu, Lei Zhao, Feng Chen*. A TaSnRK1α modulates TaPAP6L-mediated wheat cold tolerance through regulating endogenous jasmonic acid. Advanced Science, 2023, 10(31): 2303478. (IF=14.3)

9Ning Zhang, Sisheng Wang, Simin Zhao, DaiyingChen, Hongyan Tian, Jia Li, Lingran Zhang, SonggangLi, Lu Liu, Chaonan Shi, Xiaodong Yu, Yan Ren, Feng Chen*. Global crotonylatome and GWAS revealed a TaSRT1-TaPGK model regulating wheat cold tolerance through mediating pyruvate. Science Advances, 2023, 9(19):eadg1012. (IF=11.7

10. Peng Liu#, Chaonan Shi#, Shuang Liu, Jiajia Lei, Qisen Lu, Haichao Hu, Yan Ren, Ning Zhang, Congwei Sun, Lu Chen, Yaoyao Jiang, Lixiao Feng, Tianye Zhang, Kaili Zhong, Jiaqian Liu, Juan Zhang, Zhuo Zhang, Bingjian Sun, Jianping Chen*, YimiaoTang*, Feng Chen*, Jian Yang*. A papain-like cysteine protease-released small signal peptide confers wheat resistance to wheat yellow mosaic virus. Nature Communications, 2023, 14: 7773. (IF=14.7)

11Yan Yan, Wang Menglu, Guo Yueting, Ding CihangNiu Kexin, Li Xiaoming, Sun Congwei, Dong Zhongdong Cui, Dangqun Rasheed Awais, Hao Chenyang, Zhang Xueyong, Guo Ganggang, Ni, Zhongfu, Sun QixinChen Feng*, Gou Jinying*. HSP90.2 promotes CO2 assimilation rate, grain weight, and yield in wheat. Plant Biotechnology Journal, 2023, 21:1229-1239 (IF=11.2

12Guoguo LvYixiao Zhang, Lin Ma, Xiangning Yan, Mingjie Yuan, Jianhui Chen, Yongzhen Cheng, Xi Yang, Qi QiaoLeilei Zhang, Mohsin Niaz, XiaonanSun, Qijun Zhang, Shaobin Zhong, Feng Chen*. A cell wall invertase modulates resistance to fusarium crown rot and sharp eyespot in common wheat. Journal of Integrative Plant Biology, 2023, 65 (7): 1814-1825. (IF=9.3

13. Mohsin Niaz, Lingran Zhang, Guoguo LvYuetingZheng, Bingyang Zhang, Xiangning Yan, Aye AyeHtun, Lei Zhao, Congwei Sun, Ning Zhang, Yan Ren, Feng Chen*. Identification of TaGL1-B1 gene controlling grain length through regulation of jasmonicacid in common wheat. Plant Biotechnology Journal, 2023, 21:979-989. (IF=11.2

14. Zhao Lei, Zheng Yueting, Wang Ying, Wang Shasha, Wang Tongzhu, Wang Canguan, Chen Yue, Zhang Kunpu, Zhang Ning, Dong ZhongdongChen Feng*. A HST1-like gene controlled tiller angle through regulating endogenous auxin in common wheat. Plant Biotechnology Journal, 2023, 21:122-135 (IF=11.2

15Yan YanYueting Guo, Chaoyan Chang, XiaomingLi, Meiqi Zhang, Cihang Ding, Dangqun Cui, Congwei Sun, Yan Ren, Menglu Wang, Chaojie XieZhongfu Ni, Qixin Sun, Feng Chen*Jinying Gou*. HSP90.2 modulates 2Q2-mediated wheat resistance against powdery mildew. Plant Cell and Environment, 2023, 46:1935-1945. (IF=6.1

16Lei Zhao, Canguan Wang, Tongzhu Wang, JinyuanLiu, Qi QiaoYulu Yang, Pengyu Hu, Leilei Zhang, Simin Zhao, Daiying Chen, Yan Ren, Ning Zhang, Zhongdong Dong, Feng Chen*. Identification of the candidate gene controlling tiller angle in common wheat through genome-wide association study and linkage analysis. The Crop Journal, 2023, 11:870-877. (IF=6

17Weixiu Hou#, Qisen Lu#, Lin Ma, Xiaonan Sun, Liyan Wang, Jingyun Nie, Peng Guo, Ti Liu, ZaifengLi*, Congwei Sun, Yan Ren*, Xiaodong Wang*, Jian Yang*, Feng Chen*. Mapping of quantitative trait loci for leaf rust resistance in the wheat population ‘Xinmai26/Zhoumai22’. Journal of Experimental Botany, 2023, erad085 (IF=5.8

18Mohsin Niaz, Bingyang Zhang, Yixiao Zhang, Xiangning Yan, Minjie Yuan, Yongzhen Cheng, Guoguo LvTarig Fadlalla, Lei Zhao, Congwei Sun, Feng Chen*. Genetic and molecular basis of carotenoid metabolism in cereals. Theoretical and Applied Genetics, 2023, 136:63. (IF=4.4)

19Tianye Zhang#, Chaonan Shi#, Haichao Hu, ZhuoZhang, Ziqiong Wang, Zhiqing Chen, Huimin Feng, Peng Liu, Jun Guo, Qisen Lu, Kaili Zhong, ZhiHuiChen, Jiaqian Liu, Jiancheng Yu, JianpingChen*, Feng Chen*, Jian Yang*. N6-methyladenosine RNA modification promotes viral genomic RNA stability and infection. Nature Communications, 2022, 13:6576 (IF=16.6)

20Zhang Ning, Zhang Lingran, Li LinjieGeng Junyou, Zhao Lei, Ren Yan; Dong ZhongdongChen Feng*. Global Profiling of 2-hydroxyisobutyrylome in Common Wheat. Genomics, Proteomics & Bioinformatics, 2022, 20:688-701 (IF=9.5)

21Mengyu Li, Shuqing Zhao, Junyu Yang, Yan Ren, Jun SuJiaojie Zhao, Xiaopeng Ren, ChuyuanWangShisheng Chen, Xiumei Yu, Feng Chen*, XiaodongWang*. Exogenous expression of barley HvWRKY6 in wheat improves broad-spectrum resistance to leaf rust, Fusarium crown rot, and sharp eyespot. International Journal of Biological Macromolecules, 2022, 218:1002-1012 (IF=8.2)

22Yang Xia, Zhong Shaobin, Zhang Qijun, Ren Yan, Sun CongweiChen Feng*. A loss-of-function of the dirigent gene TaDIR-B1 improves resistance to Fusarium crown rot in wheat. Plant Biotechnology Journal, 2021, 19:866-868IF=13.262

23Lv Guoguo, Tian Qiuzhen, Zhang Fuyan, Chen Jianhui, Niaz Mohsin, Liu Chunyi, Hu Huiting, Sun CongweiChen Feng*. Reduced expression of lipoxygenase genes improves flour processing quality in soft wheat. Journal of Experimental Botany, 2021, 72:6247-6259IF=7.298

24Su Jun, Zhao Jiaojie, Zhao Shuqing, Li Mengyu, Pang Shuyong, Kang Zhensheng, Zhen Wenchao, Chen ShishengChen Feng*, Wang Xiaodong*. Genetics of Resistance to Common Root Rot (Spot Blotch), Fusarium Crown Rot, and Sharp Eyespot in Wheat. Frontiers in Genetics, 2021, 12:699342(IF=3.7

25Sun Congwei, Dong Zhongdong, Zhao Lei, Ren Yan, Zhang Ning, Chen Feng*. The Wheat 660K SNP array demonstrates great potential for marker-assisted selection in polyploid wheat. Plant Biotechnology Journal, 2020, 18:1354-1360. IF=9.803

26Shi Chaonan, Zheng YuetingGeng Junyou, Liu Chunyi, Pei He, Ren Yan, Dong Zhongdong, Zhao Lei, Zhang Ning, Chen Feng*. Identification of herbicide resistance loci using a genome-wide association study and linkage mapping in Chinese common wheat. TheCrop Journal, 2020, 8:666-675. (IF=4.407)

27Lv Guoguo, Dong Zhongdong, Wang YudanGengJunyou, Li Jia, Lv Xialei, Sun Congwei, Ren Yan, Zhang JianweiChen Feng*. Identification of genetic loci of black point in Chinese common wheat by genome-wide association study and linkage mapping. Plant Disease, 2020, 104:2005-2013 (IF=4.438)

28Ren Yan, Yu Pengbo, Hou Weixiu, Wang Yue, Yang Xia, Fan Jialin, Wu XiaohuiLv Xialei, Zhang Ning, Zhao Lei, Dong ZhongdongChen Feng*. Development of a rapid approach for detecting sharp eyespot resistance in seedling-stage wheat and its application in Chinese wheat cultivars. Plant Disease, 2020, 104:1662-1667. (IF=4.438)

29Zhao Lei, Pan Yubo, Dong Zhongdong, Zheng Yueting, Liu JinyuanGeng Junyou, Ren Yan, Zhang Ning, Chen Feng*. Investigation and genome-wide association study of grain copper content in Chinese common wheat. Journal of Cereal Science, 2020, 8:666-675. (IF=3.616)

30Chen Jianhui, Zhang Fuyan, Zhao ChunjiangLvGuoguo, Sun Congwei, Pan Yubo, Guo XinyuChen Feng*.Genome-wide association study of six quality traits reveals the association of the TaRPP13L1 gene with flour color in Chinese bread wheat. Plant Biotechnology Journal, 2019, 17:2106-2122. (IF =8.154)

31Yang Xia, Pan Yubo, Singh Pawan K., He Xinyao, Ren Yan, Zhao Lei, Zhang Ning, Cheng ShunheChen Feng*. Investigation and genome-wide association study for Fusarium crown rot resistance in Chinese common wheat. BMC Plant Biology, 2019, 19:153 (IF =3.497)

32Shi Chaonan, Zhao Lei, Zhang XiangfenLvGuoguo, Pan YuboChen Feng*. Gene regulatory network and abundant genetic variation play critical roles in heading stage of polyploidy wheat. BMC Plant Biology, 2019, 19: 6 (IF =3.497)

33Zhang Ning#, Zhang Lingran#, Shi Chaonan, Zhao Lei, Cui DangqunChen Feng*. Identification of proteins using iTRAQ and virus-induced gene silencing reveals three bread wheat proteins involved in the response to combined osmotic-cold stress. Journal of Proteome Research, 2018,17:2256-2281 (IF =3.78)

34Zhang Xiangfen, Chen Jianhui, Yan Yan, Yan Xuefang, Shi Chaonan, Zhao Lei, Chen Feng*. Genome-wide association study of heading and flowering dates and construction of its prediction equation in Chinese common wheat. Theoretical and Applied Genetics, 2018, 131:2271-2285 (IF=3.926)

35Sun Congwei, Zhang Fuyan, Yan Xuefang, Zhang Xiangfen, Dong Zhongdong, Cui DangqunChen Feng*. Genome-wide association study for 13 agronomic traits reveals distribution of superior alleles in bread wheat from the Yellow and Huai Valley of China. Plant Biotechnology Journal, 2017, 15:953-969 (IF= 7.443) 

36Liu Hongmei, Zhou Xiaobian, Li Xiangnan, Chen Jianhui, Cui DangqunChen Feng*. Molecular characterization of secaloindoline genes in introduced CIMMYT primary hexaploid triticale. The Crop Journal, 2017,5:430-437 (IF= 2.658)

 授权发明专利清单
1. 陈锋,孙丛苇,任妍,张宁,赵磊,董中东,阳霞。A Preparation Method and the Application of an Ultra-high Density SNP Chip for Wheat. 荷兰发明专利。2024.1.242033442
2张宁陈锋赵磊陈代英王思圣李佳。小麦茎基腐病抗性基因TaP5CS、其编码蛋白及应用2025.02.07202211527162.1
3陈锋、张宁、赵磊、任妍、董中东、李林杰小麦籽粒大小性状相关基因TaSRK、其编码蛋白及应用2023.7.7202010763622.5
4陈锋、张兵阳、张香粉、吕国国、赵磊、董中东、张宁。小麦籽粒长度调控基因及其检测引物和应用。2023.08.22202211155045.7
5陈锋、孙丛苇、赵磊、董中东、张宁、任妍、阳霞一种检测小麦面团高稳定时间基因的引物及其应用。2023.7.11202111387100.0
6陈锋、阳霞、赵磊、任妍、张宁、董中东、孙丛苇小麦茎基腐病相关基因TaDIR-B1及其应用。2022.07.08202011509914.2
7陈锋、赵磊、张宁、任妍、董中东、王盈。小麦分蘖性状相关基因TaTAC1、其表达产物、其表达载体及应用。2022.4.15201910213415.X
8陈锋、陈建辉、张宁、赵磊、董中东、任妍。小麦面粉色泽性状相关基因及其应用。2022.03.15201910169137.2
9陈锋、田秋珍、吕国国、张宁、赵磊、任妍。小麦籽粒脂肪氧化酶新基因及其应用。2021.06.15201810432659.2
10. 崔江宽、陈锋、孟颢光、蒋士君、周博、李洪连、张雪海。用于田间线虫抗性鉴定试验的单粒播种开沟装置。2021.9.10202010047458.8. 
11陈锋、张宁、赵磊、任妍、党群、董中东、张灵然。干旱条件下小麦低温胁迫响应蛋白TaCDCP及其编码基因和应用。2020.10.30201711133248.5
12陈锋、王沙沙、党群、董中东、赵磊。一种普通小麦高千粒重基因及其应用。2019.5.10201610102036.X
13陈锋、闫雪芳、党群、董中东、赵磊。导致小麦粒重增加的相关基因及其应用。2019.3.29201610159673.0
14陈锋党群、许海霞、詹克慧、程西永、董中东。一种辅助鉴定具有优良性状的小麦的方法。2012.05.16201010129574.0
15陈锋党群、张福彦、董中东。Pina-D1r缺失型小麦的鉴定方法及其特异性引物与应用。2012.9.19201010208627.8
16陈锋党群、董中东、詹克慧、许海霞、程西永。鉴定待测小麦是否为Pina-D1b缺失型小麦的方法及其应用。2012.08.29201010033760.4

17陈锋党群、程西永、詹克慧、董中东、许海霞。辅助鉴定具有优良性状的小麦的方法。2012.08.29201010129598.6

科技奖励

1. 20232月,小麦分子育种技术体系构建及高产抗病新品种选育获河南省科技进步二等排名第一。

2. 20211月,获庄巧生小麦贡献奖青年

3. 20212月,小麦产量相关性状基因挖掘及其对农艺的影响获得河南省自然科学二等奖。排名第一。

4201510月,小麦籽粒硬度分子遗传基础及其对加工品质影响的研究获河南省科技进步二等奖。排名第一。

5201511月,获第一届中国作物学会青年科技奖

6201110月,小麦品质遗传改良获中华农业科技奖优秀创新团队奖。排名第六。

7201012月,高产抗病优质面条小麦新品种豫农201选育与利用研究河南省科技进步二等奖。排名第8

820114月,获第十五届河南省青年五四奖章。

9201011月,获首届河南省青少年科技创新奖

个人荣誉

1. 202312月,入选国务院政府特殊津贴专家

2. 20234月,入选“河南省研究生教育工作优秀团队负责人

3201912月,入选河南省高层次人才B

4. 201910月,入选河南省优秀专家

5. 201810月,入选郑州市国家级领军人才;

620188月,入选获河南省特聘教授

720183月,入选中组部万人计划科技创新领军人才

820176月,入选科技部中青年科技创新领军人才

920176月,获河南省高等学校优秀共产党员

10201611月,获河南省科技创新杰出青年

1120139月,入选教育部新世纪优秀人才支持计划;

12201212月,入选河南省学术技术带头人;