作物育种与种子科学系
陈彦惠,男,1958年10月生,河南南阳人,中共党员,博士,二级教授,博士生导师,国家玉米改良分中心主任。中原学者,河南省特聘教授,河南省玉米科研创新团队带头人,河南省玉米产业技术体系首席专家,兼任中国作物学会玉米专业委员会副主任。先后获国务院表彰的全国粮食生产突出贡献科技人员、国务院特殊津贴专家、河南省优秀专家、河南省杰出专业技术人才、省首届优秀中青年骨干教师、省杰出人才创新基金、省杰出青年科学基金等荣誉称号。研究领域:作物遗传育种,玉米遗传育种及分子生物学。
所授课程:作物育种学,作物科学研究进展,作物育种学原理与方法。
E-mail:chy9890@163.com
教育与研究/工作经历
1978.3-1982.1 河南农业大学,农学专业,农学学士;
1982.1-1985.1 河南农业大学,作物遗传育种专业,农学硕士;
1997.9-2000.7 中国农业大学,植物遗传育种专业,农学博士;
1985.1-1992.3 河南农业大学,助教,讲师;
1992.3-1996.10 河南农业大学,副教授;
1996.10-今 河南农业大学,教授;
2000.9以后 曾多次赴国外著名大学或研究机构学习和合作研究。其中:
2000.9-2000.10澳大利亚联邦科学院(CSIRO)进行玉米抗旱遗传合作研究;
2009.7-2010.6 美国康奈尔大学,植物遗传学,高级访问学者,合作研究;
2012.7-2012.8 英国莱斯特大学,分子生物学,高级访问学者,合作研究。
承担项目与课题
1、河南省农业良种联合攻关,高产抗病抗逆宜机收玉米新品种选育与示范推广,2021-2025,在研,首席科学家
2、国家自然科学基金面上项目,调控玉米叶夹角的关键基因CLA7-1的遗传网络解析,2019-2022,已结题,主持
3、国家重点研发十三五计划子课题,黄淮海区玉米杂种优势利用技术与强优势杂交种创制,2016-2020,已结题,主持
4、河南省重大科技专项,作物新品种选育与示范-玉米新品种选育与示范,2015-2018,已结题,主持。
5、河南省科技厅高层次人才培养计划,豫综5号和黄金群玉米种质创新与应用,2015-2018,已结题,主持
6、高等学校高层次人才专项支持计划,2015-2018,已结题,主持
7、河南省中原学者资助计划,高产耐密宜机收玉米新品种选育,2014-2018,已结题,主持
8、国家自然科学基金重点项目,玉米叶夹角形成的分子机理研究,2013-2018,已结题,主持
9、河南省重大科技专项,超高产玉米新品种选育与示范,2013-2015,已结题,主持
10、教育部博士点基金优先发展领域,玉米耐密高产性状的基因克隆及分子机理研究,2012-2014,已结题,主持
11、国家自然科学基金面上项目,玉米叶夹角主效QTLqLA1精细定位与候选基因的克隆,2011-2013,已结题,主持
12、科技部国家973前项,玉米光周期敏感信号分子的细胞学及组学研究,2011-2013,已结题,主持
13、国家重点研发863计划子课题,黄淮海区强优势玉米新品种选育,2011-2015,已结题,主持
14、国家自然科学基金面上项目,玉米光周期敏感性主效 QTLqDPS10 近等基因系构建及精细定位,2010-2012,已结题,主持。
15、河南省农业产业体系,河南省玉米产业体系首席专家,2010-2019,已结题,主持
16、国家转基因生物新品种培育重大专项,抗病虫、抗除草剂转基因玉米新品种培育,2008-2020,已结题,课题主持
17、国家自然基金面上项目,热带玉米种质光周期敏感相关基因 QTLs 定位,2006-2008,已结题,主持。
论文、论著与专利
1、论文
(1)Liu H#, Wu Z#, Bao M, Gao F, Yang W, Abou-Elwafa SF, Liu Z, Ren Z, Zhu Y, Ku L, Su H*, Chong L*, Chen Y*. ZmC2H2-149 negatively regulates drought tolerance by repressing ZmHSD1 in maize. Plant Cell and Environment, 2024, DOI: 10.1111/pce.14798.
(2)Zhang D#, Ma S#, Liu Z, Yang Y, Yang W, Zeng H, Su H, Yang Y, Zhang W, Zhang J, Ku L, Ren Z*, Chen Y*. ZmABF4-ZmVIL2/ZmFIP37 mudule enhances drought tolerance in maize seedlings. Plant Cell and Environment, DOI: 10.1111/pce.14954.
(3) Wang BB#, Hou M#, Shi JP#, Ku LX#, Song S#, Li CH#, Ning Q, Li X, Li CY, Zhao BB, Zhang RY, Xu H, Bai ZJ, Xia ZC, Wang H, Kong DX, Wei HB, Jing YF, Dai ZY, Wang HH, Zhu XY, Li CH, Sun X, Wang SS, Yao W, Hou GG, Qi Z, Dai H, Li MX, Zheng HK, Zhang ZX, Li Y, Wang TY, Jiang TJ, Wan ZM, Chen YH*, Zhao* JR*, Lai JS*, Wang HY*,De novo genome assembly and analyses of 12 founder inbred lines provide insights into maize heterosis,Nature Genetics, 2023, 55:312-323.
(4) Su HH#, Cao LR#, Ren ZZ#, Sun WH, Zhu BQ, Ma SX, Sun CY, Zhang DL, Liu, ZX, Zeng HX, Yang WJ, Liu YP, Zheng LL, Yang YW, Wu ZD, Zhu YF, Ku LX*, Chong L*, Chen YH*, ZmELF6-ZmPRR37 module regulates maize flowering and salt response, Plant Biotechnology Journal, 2023, doi: 10.1111/pbi.14236.
(5)Deng C, Leonard A, Cahill J, Lv M, Li Y, Thatcher S, Li X, Zhao X, Du W, Li Z, Li H, Llaca V, Fengler K, Marshall L, Harris C, Tabor G, Li Z, Tian Z, Yang Q, Chen Y, Tang J, Wang X, Hao J, Yan J, Wang Z, Chang Y, Zhu W, Xiong W, Sun J, Li B, Ding J. The RppC-AvrRppC NLR-effector interaction mediates the resistance to southern corn rust in maize. Molecular Plant, 2022, 15(5):904-912.
(6)Dou DD#, Han SB#, Cao LR#, Ku LX#, Liu HF, Su HH, Ren ZZ, Zhang DL, Zeng HX, Dong YH, Liu ZX, Zhu FF, Zhao QN, Xie JR, Liu YJ, Cheng HY, Chen YH*, CLA4 regulates leaf angle through multiple hormone signaling pathways in maize, Journal of Experimental Botany, 2021, 72(5): 1782-1794.
(7)Tian L#, Ku LX#, Yuan Z, Wang CL, Su HH, Wang SX, Song XH, Dou DD, Ren ZZ, Lai JS, Liu T, Du CG*, Chen YH*, Large-scale reconstruction of chromatin structures of maize temperate and tropical inbred lines, Journal of Experimental Botany, 2021, DOI:10.1093/jxb/erab087.
(8)Su HH#, Chen ZH#, Dong YH#, Ku XL#, Abou-Elwafa SF, Ren ZZ, Cao YY, Dou DD, Liu ZX, Liu HF, TianL, Zhang DL, Zeng HX, Han SB, Zhu FF, Du CG, Chen YH, Identification of ZmNF-YC2 and its regulatory network for maize flowering time, Journal of Experimental Botany, 2021, DOI:10.1093/jxb/erab364.
(9)Wang B, Lin Z, Li X, Zhao Y, Zhao B, Wu G, Ma X, Wang H, Xie Y, Li Q, Song G, Kong D, Zheng Z, Wei H, Shen R, Wu H, Chen C, Meng Z, Wang T, Li Y, Li X, Chen Y, Lai J, Hufford MB, Ross-Ibarra J, He H, Wang H. Genome-wide selection and genetic improvement during modern maize breeding. Nat Genet. 2020 Jun;52(6):565-571.
(10)Wang S, Tian L, Liu H, Li X, Zhang J, Chen X, Jia X, Zheng X, Wu S, Chen Y, Yan J, Wu L. Large-Scale Discovery of Non-conventional Peptides in Maize and Arabidopsis through an Integrated Peptidogenomic Pipeline. Molecular Plant, 2020, 13, 1078–1093.
(11)Ren ZZ#, WU LC#, Ku LX#, Wang HT, Zeng HX, Su HH, Wei L, Dou DD, Liu HF, Cao YY, Zhang DL, Han SB, Chen YH*, ZmILI1 regulates leaf angle by directly affecting liguleless1 expression in maize, Plant Biotechnology Journal, 2020, DOI:10.1111/pbi.13255
(12)Su HH#, Cao YY#, Ku LX#, Yao W, Cao YY, Ren ZZ, Dou DD, Wang HT, Ren ZB, Liu HF, Tian L, Zheng YG, Chen C, Chen YH*, Dual functions of ZmNF-YA3 in photoperiod-dependent flowering and abiotic stress responses in maize, Journal of Experimental Botany, 2018, DOI:10.1093/jxb/ery299.
(13)Ku L, Ren Z, Chen Y*, et al. Genetic analysis of leaf morphology underlying the plant density response by QTL mapping in maize ( Zea mays, L.)[J]. Molecular Breeding, 2016, 36(5):63.
(14)Ku L, Tian L, Su H, Chen Y*,et al. Dual functions of the ZmCCT-associated quantitative trait locus in flowering and stress responses under long-day conditions[J]. Bmc Plant Biology, 2016, 16(1):239.
(15)Liuji Wu, Lei Tian, Shunxi Wang, Jun Zhang, Ping Liu, Zhiqiang Tian, Huimin Zhang, Haiping Liu, Yanhui Chen*. Comparative Proteomic Analysis of the Response of Maize (Zea mays L.) Leaves to Long Photoperiod Condition. Frontiers in Plant Science, 2(7:752). 2016.
(16)Liuji Wu, Xintao Wang, Shunxi Wang, Liancheng Wu, Lei Tian, Zhiqiang Tian, Ping Liu, Yanhui Chen*. Comparative proteomic analysis of the shoot apical meristem in maize between a ZmCCT-associated near-isogenic line and its recurrent parent. Scientific Reports, 2016(6:30641).
(17)Liuji Wu, Xiuli Hu, Shunxi Wang, Lei Tian, Yanjie Pang, Zanping Han, Liancheng Wu, Yanhui Chen*. Quantitative analysis of changes in the phosphoproteome of maize induced by the plant hormone salicylic acid.Scientific Reports, 5:18155, 2015.
(18)Liuji Wu, XiaofengZu, Huimin Zhang, Liancheng Wu, Zhangying Xi, Yanhui Chen*. Overexpression of ZmMAPK1 enhances drought and heat stress in transgenic Arabidopsis thaliana. Plant Molecular Biology, 88(4-5):429-443, 2015.
(19)LiujiWu,Shunxi Wang, Jianyu Wu, Zanping Han, Rui Wang, Liancheng Wu, Huimin Zhang, Yanhui Chen*, Xiuli Hu. Phosphoproteomic analysis of the resistant and susceptible genotypes of maize infected with sugarcane mosaic virus. Amino Acids. 2015, 47(3):483-496, 2015.
(20)Ku L X, Zhao W M, Zhang J, Chen Y*, et al. Quantitative trait loci mapping of leaf angle and leaf orientation value in maize (Zea mays L.).[J]. Theoretical and Applied Genetics, 2010, 121(5):951-959.
(21)Ku L, Zhang L, Tian Z, Chen Y*, et al. Dissection of the genetic architecture underlying the plant density response by mapping plant height-related traits in maize (Zea mays L.).[J]. Molecular Genetics and Genomics, 2015, 290(4):1223-1233.
(22)Ku L, Cao L, Wei X, Chen Y*, et al. Genetic dissection of internode length above the uppermost ear in four RIL populations of maize (Zea mays L.).[J]. 2015, 5(2):281-289.
(23)Guo S, Ku L, Qi J, Chen Y*, et al. Genetic analysis and major quantitative trait locus mapping of leaf widths at different positions in multiple populations.[J]. Plos One, 2015, 10(3):e0119095.
(24)Zhang J, Ku L X, Han Z P, Chen Y*, et al. The ZmCLA4 gene in the qLA4-1 QTL controls leaf angle in maize (Zea mays L.).[J]. Journal of Experimental Botany, 2014, 65(17):5063.
(25)Lixia K, Cui X, Cheng F, Chen Y*, et al. Genetic dissection of seed vigour under artificial ageing conditions using two joined maize recombinant inbred line populations[J]. Plant Breeding, 2014, 133(6):728-737.
(26) Han Z, Ku L, Zhang Z, Chen Y*, et al. QTLs for Seed Vigor-Related Traits Identified in Maize Seeds Germinated under Artificial Aging Conditions[J]. Plos One, 2014, 9(3):e92535.
(27)Zhao X, Liu H, Wei X, Chen Y*, et al. Promoter region characterization of ZmPhyB2, associated with the photoperiod-dependent floral transition in maize ( Zea mays, L.)[J]. Molecular Breeding, 2014, 34(3):1413-1422.
(27) Liuji Wu, Xiuli Hu, Haitao Tang, Zanping Han, Yanhui Chen*.Valid application of western blotting. Molecular Biology Reporter,41: 3517-3520, 2014.
(28) Liuji Wu, Xiao Chen, Xiuli Hu, Shunxi Wang, Yanhui Chen*. Identification and characterization of an E3 ubiquitin ligase in maize (Zea mays L.). Plant Cell, Tissue and Organ Culture, 116(2): 253-260, 2014.
(29) Liuji Wu, XiaofengZu, Xintao Wang, Anguo Sun, Jun Zhang, Shunxi Wang, Yanhui Chen*. Comparative proteomic analysis of the effects of salicylic acid and abscisic acid on maize (Zea mays L.) leaves. Plant Molecular Biology Reporter, 31:507–516, 2013.
(30)Yang Q, Li Z, Li W, Ku L, Chen Y*, et al. CACTA-like transposable element in ZmCCT attenuated photoperiod sensitivity and accelerated the postdomestication spread of maize[J]. Proceedings of the National Academy of Sciences of the United States of America, 2013, 110(42):16969-74.
(31) Liuji Wu, Zanping Han, Shunxi Wang, Xintao Wang, Anguo Sun, XiaofengZu, Yanhui Chen*. Comparative proteomic analysis of the plant–virus interaction in resistant and susceptible ecotypes of maize infected with sugarcane mosaic virus. Journal of Proteomics, 89:124-140, 2013.
(32)Liuji Wu, Shunxi Wang, Xiao Chen, Xintao Wang, Liancheng Wu, XiaofengZu,Yanhui Chen*.Proteomic and phytohormone analysis of the response of maize (Zea mays L.) seedlings to sugarcane mosaic virus.PLoS ONE, 8(7): e70295, 2013.
(33)Ku L, Zhang J, Zhang J C, Chen Y*, et al. Genetic dissection of leaf area by jointing two F2:3 populations in maize (Zea Mays L.) [J]. Plant Breeding, 2012, 131(5):591-599.
(34)Ku L X, Zhang J, Guo S L, Chen Y*, et al. Integrated multiple population analysis of leaf architecture traits in maize (Zea mays L.).[J]. Journal of Experimental Botany, 2012, 63(1):261.
(35) Ku L, Wei X, Zhang S, Chen Y*, et al. Cloning and characterization of a putative TAC1 ortholog associated with leaf angle in maize (Zea mays L.). [J]. Plos One, 2011, 6(6):e20621.
(36)Ku L X, Sun Z H, Wang C L, Chen Y*, et al. QTL mapping and epistasis analysis of brace root traits in maize[J]. Molecular Breeding, 2012, 30(2):697-708.
(37) Li-Xia K U, Si-Yuan L I, Xiao C, Yan-Hui Chen*, et al. Cloning and Characterization of Putative Hd6 Ortholog Associated with Zea mays L. Photoperiod Sensitivity[J]. Journal of Integrative Agriculture, 2011, 10(1):18-27.
(38)Ku L X, Zhao W M, Zhang J, Chen Y*, et al. Quantitative trait loci mapping of leaf angle and leaf orientation value in maize (Zea mays L.).[J]. Theoretical and Applied Genetics, 2010, 121(5):951-959.
(39)Wei X, Ku L, Li S, Chen Y*, et al. Effects of night break on accumulation of HD6 mRNA in tropical photoperiod-sensitive maize[J]. African Journal of Agricultural Research, 2011, 6(21):4871-4878.
(40) Wang C, Chen Y, Ku L, Chen Y*, et al. Mapping QTL associated with photoperiod sensitivity and assessing the importance of QTL×environment interaction for flowering time in maize. [J]. Plos One, 2012, 5(11):e14068.
(41)Chang L, Wu L, Chen Y*, et al. Expression and Functional Analysis of the ZCN1(ZmTFL1) Gene, a TERMINAL FLOWER 1 Homologue that Regulates the Vegetative to Reproductive Transition in Maize[J]. Plant Molecular Biology Reporter, 2012, 30(1):55-66.
(42) Liuji Wu, Xintao Wang, Liancheng Wu, Pingan Wang, Yanhui Chen*.Molecular cloning and expression analysis of an HINT1 homologue from maize (Zea mays L.).Plant Molecular Biology Reporter. 29 (4): 1006-1012, 2011.
(43) Liuji Wu, XiaofengZu, Shunxi Wang, Yanhui Chen*.Sugarcane mosaic virus-Long history but still a threat to industry. Crop Protection, 42: 74-78, 2012.
(44)库丽霞,陈彦惠*, 吴连成,等. 玉米秸秆热值性状杂种优势及配合力分析[J]. 作物学报, 2006, 32(2):228-231.
(45)库丽霞, 王付娟, 郭书磊,陈彦惠*,等. 豫综5号玉米综合种淀粉含量轮回选择效果分析[J]. 中国农业科学, 2012, 45(8):1636-1643.
(46)库丽霞, 孟庆雷, 侯本军,陈彦惠*,等. 轮回选择对豫综5号玉米群体产量性状配合力的改良效果[J]. 作物学报, 2012, 38(2):215-222.
(47)库丽霞, 孙朝辉, 王翠玲,陈彦惠*,等. 玉米光周期敏感相关性状发育动态QTL定位[J]. 作物学报, 2010, 36(4):602-611.
(48)张伟强, 库丽霞, 张君,陈彦惠*,等. 玉米出籽率、籽粒深度和百粒重的QTL分析[J]. 作物学报, 2013, 39(3):455-463.
(49)王翠玲, 孙朝辉, 库丽霞,陈彦惠*等. 利用永久F_2群体在不同光周期环境下定位玉米株高QTL[J]. 作物学报, 2011, 37(2):271-279.
(50)李思远, 陈晓, 王新涛,陈彦惠*等. 玉米光周期敏感类Hd6基因的克隆和实时定量表达分析[J]. 作物学报, 2008, 34(4):713-717.
(51)侯本军, 王铁固, 陈彦惠*,等. 用SSR技术和混合取样方法估算玉米群体间的遗传距离[J]. 作物学报, 2007, 33(2):317-321.
(52)任永哲, 陈彦惠*, 库丽霞,等. 玉米光周期反应及一个相关基因的克隆[J]. 中国农业科学, 2006, 39(7):1487-1494.
(53)陈彦惠, 张向前, 常胜合,等. 热带玉米光周期敏感相关性状的遗传分析[J]. 中国农业科学, 2003, 36(3):248-253.
(54)陈彦惠, 王利明, 戴景瑞. 中国温带玉米种质与热带、亚热带种质杂优组合模式研究[J]. 作物学报, 2000, 26(5):557-564.
(55)陈彦惠, 吴连成, 吴建宇,等. 两种纬度生态条件下热带、亚热带玉米群体的鉴定[J]. 中国农业科学, 2000, 33(s1):40-48.
(56)陈彦惠,汪茂华. 对两个玉米群体进行特殊配合力轮回选择的研究[J]. 作物学报, 1988, 14(3):221-226.
(57)高伟, 陈晓, 库丽霞,陈彦惠*等. 玉米类LFY基因的克隆及其在不同光周期条件下的表达[J]. 作物学报, 2006, 32(8):1256-1260.
2、论著
(1)《中国玉米新品种动态》北京:中国农业科学技术出版社,2009 副主编
(2)《中国玉米品种及其系谱》上海: 上海科学技术出版社,2010,参编
(3)《玉米育种学》郑州:河南科技出版社,1996主编
3、专利/品种权
(1)一种调控玉米耐盐的正向调控因子及其InDel分子标记和应用,ZL202210434284.X
(2)一种调控玉米叶夹角的正向调控因子及其应用,ZL202010994830.6
(3)一种调控玉米叶夹角的ZmCLA2-1基因及其应用,ZL201810928167.2
(4)一种利用玉米ZmDPS10-2基因选育早花玉米的方法及其应用,ZL201710071335.6
(5)调控玉米叶夹角大小的ZmCLA1基因及其在选育耐密株型玉米的方法与应用,中国,201410778824.1
(6)调控玉米叶夹角的主效QTL的分子标记及其方法与应用,中国,ZL 2010 1 0154094.X
(7)豫1122新品种权,中国,CNA015585E
(8)豫2121新品种权,中国,CNA015586E
(9)豫2122新品种权,中国,CNA015587E
(10)豫928新品种权,中国,CNA015584E
(11)豫14111新品种权,中国,CNA016112E
(12)豫82新品种权,中国,CNA20060187.3
(13)豫25新品种权,中国,CNA20020018.6
(14)豫537A新品种权,中国,CNA20040187.4
奖励
1、陈彦惠、李玉玲、库丽霞、吴连成、汤继华等,豫综5号和黄金群玉米种质创制于应用,国家科技进步二等奖,2014。第1名
2、陈彦惠、库丽霞、吴连成、汤继华等,豫综5号等群体创制、改良与应用,河南省科技进步一等奖,2013,第1名
3、陈彦惠,吴连成,库丽霞等,高产高淀粉优质专用玉米新品种豫玉34的选育与推广,河南省科技进步二等奖,2008。第1名
4、陈彦惠,等,玉米黄早4姊妹种与改良单交种的技术研究和应用,河南省科技进步一等奖,2003,第1名
5、陈彦惠,等,玉米杂种优势遗传基础解析和新品种研制,教育部科技进步一等奖,2019,第2名
6、豫单723,国家农作物品种审定委员会审定,2024
7、豫单9953X1,国家农作物品种审定委员会审定,2022
8、豫单776,国家农作物品种审定委员会审定,2020
9、内秀10,国家农作物品种审定委员会审定,2020
10、豫单903,国家农作物品种审定委员会审定,2019
11、豫单9953,国家农作物品种审定委员会审定,2018
12、豫单622,河南省农作物品种审定委员会审定,2024
13、豫单706,河南省农作物品种审定委员会审定,2024
14、豫单709,河南省农作物品种审定委员会审定,2024
15、豫单7910,河南省农作物品种审定委员会审定,2023
16、梦玉377,河南省审定,2022
17、豫单787,河南省审定,2022
18、豫单733,河南省审定,2021
19、豫单739,河南省审定,2021
20、豫单783,河南省审定,2021
21、梦玉369,河南省审定,2021
22、豫单717,河南省审定,2021
23、豫单9966,河南省审定,2020
24、豫单983,安徽省审定,2019
25、豫单9932,河南省审定,2016
26、豫单998,河南省审定,2006
27、豫单2001,河南省审定,2004
28、豫单2002,河南省审定,2004
29、豫玉34,河南省审定,2000
教育与研究/工作经历
1978.3-1982.1 河南农业大学,农学专业,农学学士;
1982.1-1985.1 河南农业大学,作物遗传育种专业,农学硕士;
1997.9-2000.7 中国农业大学,植物遗传育种专业,农学博士;
1985.1-1992.3 河南农业大学,助教,讲师;
1992.3-1996.10 河南农业大学,副教授;
1996.10-今 河南农业大学,教授;
2000.9以后 曾多次赴国外著名大学或研究机构学习和合作研究。其中:
2000.9-2000.10澳大利亚联邦科学院(CSIRO)进行玉米抗旱遗传合作研究;
2009.7-2010.6 美国康奈尔大学,植物遗传学,高级访问学者,合作研究;
2012.7-2012.8 英国莱斯特大学,分子生物学,高级访问学者,合作研究。
承担项目与课题
1、河南省农业良种联合攻关,高产抗病抗逆宜机收玉米新品种选育与示范推广,2021-2025,在研,首席科学家
2、国家自然科学基金面上项目,调控玉米叶夹角的关键基因CLA7-1的遗传网络解析,2019-2022,已结题,主持
3、国家重点研发十三五计划子课题,黄淮海区玉米杂种优势利用技术与强优势杂交种创制,2016-2020,已结题,主持
4、河南省重大科技专项,作物新品种选育与示范-玉米新品种选育与示范,2015-2018,已结题,主持。
5、河南省科技厅高层次人才培养计划,豫综5号和黄金群玉米种质创新与应用,2015-2018,已结题,主持
6、高等学校高层次人才专项支持计划,2015-2018,已结题,主持
7、河南省中原学者资助计划,高产耐密宜机收玉米新品种选育,2014-2018,已结题,主持
8、国家自然科学基金重点项目,玉米叶夹角形成的分子机理研究,2013-2018,已结题,主持
9、河南省重大科技专项,超高产玉米新品种选育与示范,2013-2015,已结题,主持
10、教育部博士点基金优先发展领域,玉米耐密高产性状的基因克隆及分子机理研究,2012-2014,已结题,主持
11、国家自然科学基金面上项目,玉米叶夹角主效QTLqLA1精细定位与候选基因的克隆,2011-2013,已结题,主持
12、科技部国家973前项,玉米光周期敏感信号分子的细胞学及组学研究,2011-2013,已结题,主持
13、国家重点研发863计划子课题,黄淮海区强优势玉米新品种选育,2011-2015,已结题,主持
14、国家自然科学基金面上项目,玉米光周期敏感性主效 QTLqDPS10 近等基因系构建及精细定位,2010-2012,已结题,主持。
15、河南省农业产业体系,河南省玉米产业体系首席专家,2010-2019,已结题,主持
16、国家转基因生物新品种培育重大专项,抗病虫、抗除草剂转基因玉米新品种培育,2008-2020,已结题,课题主持
17、国家自然基金面上项目,热带玉米种质光周期敏感相关基因 QTLs 定位,2006-2008,已结题,主持。
论文、论著与专利
1、论文
(1)Liu H#, Wu Z#, Bao M, Gao F, Yang W, Abou-Elwafa SF, Liu Z, Ren Z, Zhu Y, Ku L, Su H*, Chong L*, Chen Y*. ZmC2H2-149 negatively regulates drought tolerance by repressing ZmHSD1 in maize. Plant Cell and Environment, 2024, DOI: 10.1111/pce.14798.
(2)Zhang D#, Ma S#, Liu Z, Yang Y, Yang W, Zeng H, Su H, Yang Y, Zhang W, Zhang J, Ku L, Ren Z*, Chen Y*. ZmABF4-ZmVIL2/ZmFIP37 mudule enhances drought tolerance in maize seedlings. Plant Cell and Environment, DOI: 10.1111/pce.14954.
(3) Wang BB#, Hou M#, Shi JP#, Ku LX#, Song S#, Li CH#, Ning Q, Li X, Li CY, Zhao BB, Zhang RY, Xu H, Bai ZJ, Xia ZC, Wang H, Kong DX, Wei HB, Jing YF, Dai ZY, Wang HH, Zhu XY, Li CH, Sun X, Wang SS, Yao W, Hou GG, Qi Z, Dai H, Li MX, Zheng HK, Zhang ZX, Li Y, Wang TY, Jiang TJ, Wan ZM, Chen YH*, Zhao* JR*, Lai JS*, Wang HY*,De novo genome assembly and analyses of 12 founder inbred lines provide insights into maize heterosis,Nature Genetics, 2023, 55:312-323.
(4) Su HH#, Cao LR#, Ren ZZ#, Sun WH, Zhu BQ, Ma SX, Sun CY, Zhang DL, Liu, ZX, Zeng HX, Yang WJ, Liu YP, Zheng LL, Yang YW, Wu ZD, Zhu YF, Ku LX*, Chong L*, Chen YH*, ZmELF6-ZmPRR37 module regulates maize flowering and salt response, Plant Biotechnology Journal, 2023, doi: 10.1111/pbi.14236.
(5)Deng C, Leonard A, Cahill J, Lv M, Li Y, Thatcher S, Li X, Zhao X, Du W, Li Z, Li H, Llaca V, Fengler K, Marshall L, Harris C, Tabor G, Li Z, Tian Z, Yang Q, Chen Y, Tang J, Wang X, Hao J, Yan J, Wang Z, Chang Y, Zhu W, Xiong W, Sun J, Li B, Ding J. The RppC-AvrRppC NLR-effector interaction mediates the resistance to southern corn rust in maize. Molecular Plant, 2022, 15(5):904-912.
(6)Dou DD#, Han SB#, Cao LR#, Ku LX#, Liu HF, Su HH, Ren ZZ, Zhang DL, Zeng HX, Dong YH, Liu ZX, Zhu FF, Zhao QN, Xie JR, Liu YJ, Cheng HY, Chen YH*, CLA4 regulates leaf angle through multiple hormone signaling pathways in maize, Journal of Experimental Botany, 2021, 72(5): 1782-1794.
(7)Tian L#, Ku LX#, Yuan Z, Wang CL, Su HH, Wang SX, Song XH, Dou DD, Ren ZZ, Lai JS, Liu T, Du CG*, Chen YH*, Large-scale reconstruction of chromatin structures of maize temperate and tropical inbred lines, Journal of Experimental Botany, 2021, DOI:10.1093/jxb/erab087.
(8)Su HH#, Chen ZH#, Dong YH#, Ku XL#, Abou-Elwafa SF, Ren ZZ, Cao YY, Dou DD, Liu ZX, Liu HF, TianL, Zhang DL, Zeng HX, Han SB, Zhu FF, Du CG, Chen YH, Identification of ZmNF-YC2 and its regulatory network for maize flowering time, Journal of Experimental Botany, 2021, DOI:10.1093/jxb/erab364.
(9)Wang B, Lin Z, Li X, Zhao Y, Zhao B, Wu G, Ma X, Wang H, Xie Y, Li Q, Song G, Kong D, Zheng Z, Wei H, Shen R, Wu H, Chen C, Meng Z, Wang T, Li Y, Li X, Chen Y, Lai J, Hufford MB, Ross-Ibarra J, He H, Wang H. Genome-wide selection and genetic improvement during modern maize breeding. Nat Genet. 2020 Jun;52(6):565-571.
(10)Wang S, Tian L, Liu H, Li X, Zhang J, Chen X, Jia X, Zheng X, Wu S, Chen Y, Yan J, Wu L. Large-Scale Discovery of Non-conventional Peptides in Maize and Arabidopsis through an Integrated Peptidogenomic Pipeline. Molecular Plant, 2020, 13, 1078–1093.
(11)Ren ZZ#, WU LC#, Ku LX#, Wang HT, Zeng HX, Su HH, Wei L, Dou DD, Liu HF, Cao YY, Zhang DL, Han SB, Chen YH*, ZmILI1 regulates leaf angle by directly affecting liguleless1 expression in maize, Plant Biotechnology Journal, 2020, DOI:10.1111/pbi.13255
(12)Su HH#, Cao YY#, Ku LX#, Yao W, Cao YY, Ren ZZ, Dou DD, Wang HT, Ren ZB, Liu HF, Tian L, Zheng YG, Chen C, Chen YH*, Dual functions of ZmNF-YA3 in photoperiod-dependent flowering and abiotic stress responses in maize, Journal of Experimental Botany, 2018, DOI:10.1093/jxb/ery299.
(13)Ku L, Ren Z, Chen Y*, et al. Genetic analysis of leaf morphology underlying the plant density response by QTL mapping in maize ( Zea mays, L.)[J]. Molecular Breeding, 2016, 36(5):63.
(14)Ku L, Tian L, Su H, Chen Y*,et al. Dual functions of the ZmCCT-associated quantitative trait locus in flowering and stress responses under long-day conditions[J]. Bmc Plant Biology, 2016, 16(1):239.
(15)Liuji Wu, Lei Tian, Shunxi Wang, Jun Zhang, Ping Liu, Zhiqiang Tian, Huimin Zhang, Haiping Liu, Yanhui Chen*. Comparative Proteomic Analysis of the Response of Maize (Zea mays L.) Leaves to Long Photoperiod Condition. Frontiers in Plant Science, 2(7:752). 2016.
(16)Liuji Wu, Xintao Wang, Shunxi Wang, Liancheng Wu, Lei Tian, Zhiqiang Tian, Ping Liu, Yanhui Chen*. Comparative proteomic analysis of the shoot apical meristem in maize between a ZmCCT-associated near-isogenic line and its recurrent parent. Scientific Reports, 2016(6:30641).
(17)Liuji Wu, Xiuli Hu, Shunxi Wang, Lei Tian, Yanjie Pang, Zanping Han, Liancheng Wu, Yanhui Chen*. Quantitative analysis of changes in the phosphoproteome of maize induced by the plant hormone salicylic acid.Scientific Reports, 5:18155, 2015.
(18)Liuji Wu, XiaofengZu, Huimin Zhang, Liancheng Wu, Zhangying Xi, Yanhui Chen*. Overexpression of ZmMAPK1 enhances drought and heat stress in transgenic Arabidopsis thaliana. Plant Molecular Biology, 88(4-5):429-443, 2015.
(19)LiujiWu,Shunxi Wang, Jianyu Wu, Zanping Han, Rui Wang, Liancheng Wu, Huimin Zhang, Yanhui Chen*, Xiuli Hu. Phosphoproteomic analysis of the resistant and susceptible genotypes of maize infected with sugarcane mosaic virus. Amino Acids. 2015, 47(3):483-496, 2015.
(20)Ku L X, Zhao W M, Zhang J, Chen Y*, et al. Quantitative trait loci mapping of leaf angle and leaf orientation value in maize (Zea mays L.).[J]. Theoretical and Applied Genetics, 2010, 121(5):951-959.
(21)Ku L, Zhang L, Tian Z, Chen Y*, et al. Dissection of the genetic architecture underlying the plant density response by mapping plant height-related traits in maize (Zea mays L.).[J]. Molecular Genetics and Genomics, 2015, 290(4):1223-1233.
(22)Ku L, Cao L, Wei X, Chen Y*, et al. Genetic dissection of internode length above the uppermost ear in four RIL populations of maize (Zea mays L.).[J]. 2015, 5(2):281-289.
(23)Guo S, Ku L, Qi J, Chen Y*, et al. Genetic analysis and major quantitative trait locus mapping of leaf widths at different positions in multiple populations.[J]. Plos One, 2015, 10(3):e0119095.
(24)Zhang J, Ku L X, Han Z P, Chen Y*, et al. The ZmCLA4 gene in the qLA4-1 QTL controls leaf angle in maize (Zea mays L.).[J]. Journal of Experimental Botany, 2014, 65(17):5063.
(25)Lixia K, Cui X, Cheng F, Chen Y*, et al. Genetic dissection of seed vigour under artificial ageing conditions using two joined maize recombinant inbred line populations[J]. Plant Breeding, 2014, 133(6):728-737.
(26) Han Z, Ku L, Zhang Z, Chen Y*, et al. QTLs for Seed Vigor-Related Traits Identified in Maize Seeds Germinated under Artificial Aging Conditions[J]. Plos One, 2014, 9(3):e92535.
(27)Zhao X, Liu H, Wei X, Chen Y*, et al. Promoter region characterization of ZmPhyB2, associated with the photoperiod-dependent floral transition in maize ( Zea mays, L.)[J]. Molecular Breeding, 2014, 34(3):1413-1422.
(27) Liuji Wu, Xiuli Hu, Haitao Tang, Zanping Han, Yanhui Chen*.Valid application of western blotting. Molecular Biology Reporter,41: 3517-3520, 2014.
(28) Liuji Wu, Xiao Chen, Xiuli Hu, Shunxi Wang, Yanhui Chen*. Identification and characterization of an E3 ubiquitin ligase in maize (Zea mays L.). Plant Cell, Tissue and Organ Culture, 116(2): 253-260, 2014.
(29) Liuji Wu, XiaofengZu, Xintao Wang, Anguo Sun, Jun Zhang, Shunxi Wang, Yanhui Chen*. Comparative proteomic analysis of the effects of salicylic acid and abscisic acid on maize (Zea mays L.) leaves. Plant Molecular Biology Reporter, 31:507–516, 2013.
(30)Yang Q, Li Z, Li W, Ku L, Chen Y*, et al. CACTA-like transposable element in ZmCCT attenuated photoperiod sensitivity and accelerated the postdomestication spread of maize[J]. Proceedings of the National Academy of Sciences of the United States of America, 2013, 110(42):16969-74.
(31) Liuji Wu, Zanping Han, Shunxi Wang, Xintao Wang, Anguo Sun, XiaofengZu, Yanhui Chen*. Comparative proteomic analysis of the plant–virus interaction in resistant and susceptible ecotypes of maize infected with sugarcane mosaic virus. Journal of Proteomics, 89:124-140, 2013.
(32)Liuji Wu, Shunxi Wang, Xiao Chen, Xintao Wang, Liancheng Wu, XiaofengZu,Yanhui Chen*.Proteomic and phytohormone analysis of the response of maize (Zea mays L.) seedlings to sugarcane mosaic virus.PLoS ONE, 8(7): e70295, 2013.
(33)Ku L, Zhang J, Zhang J C, Chen Y*, et al. Genetic dissection of leaf area by jointing two F2:3 populations in maize (Zea Mays L.) [J]. Plant Breeding, 2012, 131(5):591-599.
(34)Ku L X, Zhang J, Guo S L, Chen Y*, et al. Integrated multiple population analysis of leaf architecture traits in maize (Zea mays L.).[J]. Journal of Experimental Botany, 2012, 63(1):261.
(35) Ku L, Wei X, Zhang S, Chen Y*, et al. Cloning and characterization of a putative TAC1 ortholog associated with leaf angle in maize (Zea mays L.). [J]. Plos One, 2011, 6(6):e20621.
(36)Ku L X, Sun Z H, Wang C L, Chen Y*, et al. QTL mapping and epistasis analysis of brace root traits in maize[J]. Molecular Breeding, 2012, 30(2):697-708.
(37) Li-Xia K U, Si-Yuan L I, Xiao C, Yan-Hui Chen*, et al. Cloning and Characterization of Putative Hd6 Ortholog Associated with Zea mays L. Photoperiod Sensitivity[J]. Journal of Integrative Agriculture, 2011, 10(1):18-27.
(38)Ku L X, Zhao W M, Zhang J, Chen Y*, et al. Quantitative trait loci mapping of leaf angle and leaf orientation value in maize (Zea mays L.).[J]. Theoretical and Applied Genetics, 2010, 121(5):951-959.
(39)Wei X, Ku L, Li S, Chen Y*, et al. Effects of night break on accumulation of HD6 mRNA in tropical photoperiod-sensitive maize[J]. African Journal of Agricultural Research, 2011, 6(21):4871-4878.
(40) Wang C, Chen Y, Ku L, Chen Y*, et al. Mapping QTL associated with photoperiod sensitivity and assessing the importance of QTL×environment interaction for flowering time in maize. [J]. Plos One, 2012, 5(11):e14068.
(41)Chang L, Wu L, Chen Y*, et al. Expression and Functional Analysis of the ZCN1(ZmTFL1) Gene, a TERMINAL FLOWER 1 Homologue that Regulates the Vegetative to Reproductive Transition in Maize[J]. Plant Molecular Biology Reporter, 2012, 30(1):55-66.
(42) Liuji Wu, Xintao Wang, Liancheng Wu, Pingan Wang, Yanhui Chen*.Molecular cloning and expression analysis of an HINT1 homologue from maize (Zea mays L.).Plant Molecular Biology Reporter. 29 (4): 1006-1012, 2011.
(43) Liuji Wu, XiaofengZu, Shunxi Wang, Yanhui Chen*.Sugarcane mosaic virus-Long history but still a threat to industry. Crop Protection, 42: 74-78, 2012.
(44)库丽霞,陈彦惠*, 吴连成,等. 玉米秸秆热值性状杂种优势及配合力分析[J]. 作物学报, 2006, 32(2):228-231.
(45)库丽霞, 王付娟, 郭书磊,陈彦惠*,等. 豫综5号玉米综合种淀粉含量轮回选择效果分析[J]. 中国农业科学, 2012, 45(8):1636-1643.
(46)库丽霞, 孟庆雷, 侯本军,陈彦惠*,等. 轮回选择对豫综5号玉米群体产量性状配合力的改良效果[J]. 作物学报, 2012, 38(2):215-222.
(47)库丽霞, 孙朝辉, 王翠玲,陈彦惠*,等. 玉米光周期敏感相关性状发育动态QTL定位[J]. 作物学报, 2010, 36(4):602-611.
(48)张伟强, 库丽霞, 张君,陈彦惠*,等. 玉米出籽率、籽粒深度和百粒重的QTL分析[J]. 作物学报, 2013, 39(3):455-463.
(49)王翠玲, 孙朝辉, 库丽霞,陈彦惠*等. 利用永久F_2群体在不同光周期环境下定位玉米株高QTL[J]. 作物学报, 2011, 37(2):271-279.
(50)李思远, 陈晓, 王新涛,陈彦惠*等. 玉米光周期敏感类Hd6基因的克隆和实时定量表达分析[J]. 作物学报, 2008, 34(4):713-717.
(51)侯本军, 王铁固, 陈彦惠*,等. 用SSR技术和混合取样方法估算玉米群体间的遗传距离[J]. 作物学报, 2007, 33(2):317-321.
(52)任永哲, 陈彦惠*, 库丽霞,等. 玉米光周期反应及一个相关基因的克隆[J]. 中国农业科学, 2006, 39(7):1487-1494.
(53)陈彦惠, 张向前, 常胜合,等. 热带玉米光周期敏感相关性状的遗传分析[J]. 中国农业科学, 2003, 36(3):248-253.
(54)陈彦惠, 王利明, 戴景瑞. 中国温带玉米种质与热带、亚热带种质杂优组合模式研究[J]. 作物学报, 2000, 26(5):557-564.
(55)陈彦惠, 吴连成, 吴建宇,等. 两种纬度生态条件下热带、亚热带玉米群体的鉴定[J]. 中国农业科学, 2000, 33(s1):40-48.
(56)陈彦惠,汪茂华. 对两个玉米群体进行特殊配合力轮回选择的研究[J]. 作物学报, 1988, 14(3):221-226.
(57)高伟, 陈晓, 库丽霞,陈彦惠*等. 玉米类LFY基因的克隆及其在不同光周期条件下的表达[J]. 作物学报, 2006, 32(8):1256-1260.
2、论著
(1)《中国玉米新品种动态》北京:中国农业科学技术出版社,2009 副主编
(2)《中国玉米品种及其系谱》上海: 上海科学技术出版社,2010,参编
(3)《玉米育种学》郑州:河南科技出版社,1996主编
3、专利/品种权
(1)一种调控玉米耐盐的正向调控因子及其InDel分子标记和应用,ZL202210434284.X
(2)一种调控玉米叶夹角的正向调控因子及其应用,ZL202010994830.6
(3)一种调控玉米叶夹角的ZmCLA2-1基因及其应用,ZL201810928167.2
(4)一种利用玉米ZmDPS10-2基因选育早花玉米的方法及其应用,ZL201710071335.6
(5)调控玉米叶夹角大小的ZmCLA1基因及其在选育耐密株型玉米的方法与应用,中国,201410778824.1
(6)调控玉米叶夹角的主效QTL的分子标记及其方法与应用,中国,ZL 2010 1 0154094.X
(7)豫1122新品种权,中国,CNA015585E
(8)豫2121新品种权,中国,CNA015586E
(9)豫2122新品种权,中国,CNA015587E
(10)豫928新品种权,中国,CNA015584E
(11)豫14111新品种权,中国,CNA016112E
(12)豫82新品种权,中国,CNA20060187.3
(13)豫25新品种权,中国,CNA20020018.6
(14)豫537A新品种权,中国,CNA20040187.4
奖励
1、陈彦惠、李玉玲、库丽霞、吴连成、汤继华等,豫综5号和黄金群玉米种质创制于应用,国家科技进步二等奖,2014。第1名
2、陈彦惠、库丽霞、吴连成、汤继华等,豫综5号等群体创制、改良与应用,河南省科技进步一等奖,2013,第1名
3、陈彦惠,吴连成,库丽霞等,高产高淀粉优质专用玉米新品种豫玉34的选育与推广,河南省科技进步二等奖,2008。第1名
4、陈彦惠,等,玉米黄早4姊妹种与改良单交种的技术研究和应用,河南省科技进步一等奖,2003,第1名
5、陈彦惠,等,玉米杂种优势遗传基础解析和新品种研制,教育部科技进步一等奖,2019,第2名
6、豫单723,国家农作物品种审定委员会审定,2024
7、豫单9953X1,国家农作物品种审定委员会审定,2022
8、豫单776,国家农作物品种审定委员会审定,2020
9、内秀10,国家农作物品种审定委员会审定,2020
10、豫单903,国家农作物品种审定委员会审定,2019
11、豫单9953,国家农作物品种审定委员会审定,2018
12、豫单622,河南省农作物品种审定委员会审定,2024
13、豫单706,河南省农作物品种审定委员会审定,2024
14、豫单709,河南省农作物品种审定委员会审定,2024
15、豫单7910,河南省农作物品种审定委员会审定,2023
16、梦玉377,河南省审定,2022
17、豫单787,河南省审定,2022
18、豫单733,河南省审定,2021
19、豫单739,河南省审定,2021
20、豫单783,河南省审定,2021
21、梦玉369,河南省审定,2021
22、豫单717,河南省审定,2021
23、豫单9966,河南省审定,2020
24、豫单983,安徽省审定,2019
25、豫单9932,河南省审定,2016
26、豫单998,河南省审定,2006
27、豫单2001,河南省审定,2004
28、豫单2002,河南省审定,2004
29、豫玉34,河南省审定,2000