韩英鹏
性 别： 男 出生年月： 1978-04-18
职 称： 教授 工作单位： 农学院大豆研究所
招生学科1： 作物遗传育种 招生学科2： 无
办公电话： E-mail： hyp234286@aliyun.com

 开设研究生课程情况
课程编号 课程名称 课程级别 学时
103303 科研项目申请、撰写与SCI文章写作技巧 三级课程 32
 近五年主持科研项目概况
1)关联分析结合连锁分析挖掘大豆胞囊线虫病抗性基因（省自然基金）,C**,省科技厅,主持人（第1）,2015．07-2018．12;2) 大豆胞囊线虫病抗性位点鉴定（东农学术骨干计划）,15XG04,东北农业大学,主持人（第1）,2015．01-2017．12;3) 抗大豆花叶病毒病基因型分子设计的基础研究（973前期项目）,2012CB126311,科技部,主持人（第1),2012.08-2014.08:4)大豆花叶病毒位元点RN1精细定位及相关基因挖掘与功能验证（国家自然科学基金项目）,**,国家自然科学基金委员会,主持人（第1）, 2013.01-2015.12;5)优质功能型转基因大豆新品种培育（转基因重大专项子项目);2008ZX08004-003;农业部;主持人（第1）;2012.08-2014.08;6)大豆花叶病毒病抗性基因功能分析（教育部博士点项目）;012;教育部,主持人（第1）,2013.01-2015.12;7)东北大豆高产优质抗逆大豆分子育种与品种创制（863项目子课题）;2012AA101106-1-9;科技部;主持人（第1）;2012.01-2015.12;8)大豆花叶病毒病抗病基因的挖掘与利用（省新世纪优秀人才项目）,1352G06,黑龙江省教育厅,主持人（第1）,2013．01-2015．12;9)大豆脂肪酸含量动态性状QTL及其积累过程重要调控基因的eQTL研究（省青年学术骨干项目),1252G014,黑龙江省教育厅,主持人（第1）,2012．01-2014．12

 近五年项目获奖概况
1)大豆优质高产多抗分子聚合育种及新品种选育与推广,省部级,一等奖,黑龙江省人民政府,第2名；2）大豆抗疫霉根腐病机制研究及资源利用，省部级，二等奖，黑龙江省人民政府，第3名；3）大豆加工专用型材料创制、分子育种体系建立及新品种选育推广，省部级，三等奖，黑龙江省人民政府，第1名

 近五年代表性著作、论文
近五年发表SCI论文36篇，引用200次1）Yingpeng Han, Xue Zhao, Dongyuan Liu, Yinghui Li, David A. Lightfoot, Zhijiang Yang, Lin Zhao, Gang Zhou, Zhikun Wang, Long Huang, Zhiwu Zhang, Lijuan Qiu, Hongkun Zhengand Wenbin Li（2016）Domestication footprints anchor genomic regions of agronomic importance in soybeans. New Phytologist, 209(2) :871-8842）Yingpeng Han, Xue Zhao, Guanglu Cao, Yan Wang, Yinghui Li, Dongyuan Liu, Weili Teng, Zhiwu Zhang, Dongmei Li, Lijuan Qiu, Hongkun Zheng and Wenbin Li (2015)Genetic characteristics of soybean resistance to HG type 0 and HG type1.2.3.5.7 of the cyst nematode analyzed by genome-wide association mapping. BMC Genomics 16:5983）Yingpeng Han, Xue Zhao, Guanglu Cao, Yan Wang, Yinghui Li, Dongyuan Liu, Weili Teng, Zhiwu Zhang,Dongmei Li, Lijuan Qiu2*, Hongkun Zheng and Wenbin Li(2015) Genetic characteristics of soybeanresistance to HG type 0 and HG type1.2.3.5.7 of the cyst nematode analyzed bygenome-wide association mapping BMC Genomics, 16:5984）Yingpoeng Han, Weili Teng, Yan Wang, Xue Zhao, Lin Wu, Dongmei Li, Wenbin Li (2015) Unconditional and conditional QTL underlying the genetic interrelationships etween soybean seed isoflavone, and protein or oil contents. Plant Breeding, 134, 300–309. 5）Y Han, D Li, D Zhu, H Li, X Li, W Teng, W Li (2012) QTL analysis of soybean seed weight across multi-genetic backgrounds and environments. Theor Appl Genet 125：671-683, 第一作者, SCI 收录，影响因子：3.756） Y Han, D Xie, W Teng, S Zhang, W Chang, W Li (2011) Dynamic QTL analysis of linolenic acid content in different developmental stages of soybean seed. Theor Appl Genet 122:1481–1488, 第一作者, SCI 收录，影响因子：3.757）Y Han, D Xie, W Teng, W Li (2011) Dynamic QTL analysis of seed weight in different developmental stages. Plant Breed, 131(5):600-606, 第一作者,SCI 收录，影响因子：1.608）Y Han， W Teng， K Yu， V Poysa, T Anderson, L Qiu, D Lightfood, W lie (2008) Mapping QTL tolerance to Phytophthoraroot rot in soybean using microsatellite and RAPD/SCAR derived markers. Euphytica, 162(2):231-239. 第一作者,SCI 收录，影响因子：1.609）Y Han, W Teng, D Sun, Y Du, L Qiu, X Xu, W Li (2008)Impact of epistasis and QTLrenvironmentinteraction on the accumulation of seed mass of soybean(Glycine max L. Merr.). Genetical Research, 90:481-491. 第一作者,SCI 收录，影响因子：1.6010）Guiyun Zhao, Zhenfeng Jiang, Dongmei Li, Yingpeng Han, Haibo Hu, Lin Wu, Yan Wang, Yuan Gao, Weili Teng, Yongguang L, Guoliang Zeng, Fanli Meng, Wenbin Li (2015) Molecular loci associated with seed isoflavone content may underlie resistance to soybean pod borer (Leguminivora glycinivorella). Plant Breeding, 134, 78–84.11）W Chang, L Dong, Z Wang, H Hu, Y Han, W Teng, H Zhang, M Guo, W Li (2011) QTL underlyingresistancetotwoHGtypesofHeteroderaglycinesfoundinsoybean cultivar ‘L-10’BMC Genomics 13:12，SCI收录，影响因子:4.39712）Xue Zhao, Yingpeng Han, Yinghui Li, Dongyuan Liu, Mingming Sun, Yue Zhao, Chunmei Lv, Dongmei Li, Zhijiang Yang, Long Huang, Weili Teng, Lijuan Qiu, Hongkun Zheng, and Wenbin(2015)Loci and candidate gene identification for resistance toSclerotinia sclerotiorum in soybean (Glycine max L. Merr.)via association and linkage maps. Plant Journal, l82(2):245-255, 并列第一作者,SCI检索（影响因子：5.97）13）F Meng, Y Han, W Teng, Y Li, W Li (2011) QTL underlying the resistance to soybean aphid (Aphis glycines Matsumura) through isoflavone- mediated antibiosis in soybean cultivar ‘Zhongdou 27’. Theor Appl Genet, 123:1459-1465, 并列第一作者, SCI 收录，影响因子：3.7514）X Li, Y Han, W Teng, K Yu , V Poysa, T Anderson, J Ding , W Li (2010) Pyramided QTL underlying tolerance to Phytophthora root rot in mega-environments from soybean cultivars ‘Conrad’ and ‘Hefeng 25’. Theor Appl Genet 121:651–658, 并列第一作者, SCI收录，影响因子: 3.7515）M LV, Y Han, J Gao, X Wang, W Li (2010) Identification and analysis of the gerrmin-like gene family in soybean. BMC Genomics 12: 16, 并列第一作者, SCI收录，影响因子:4.3916） D Xie, Y Han Y Zeng, W Chang, W Teng, W Li (2011) SSR- and SNP-related QTL underlying linolenic acidand other fatty acid contents in soybean seeds across multiple environments. Mol Breed 30:169–179, 并列第一作者,SCI 收录，影响因子：3.25117）H Li, H Liu, Y Han, X Wu,W Teng G Liu，W Li (2010) Identification of QTL underlying vitamin E contents in soybean seed among multiple environments. Theor Appl Genet (2010) 120:1405–1413，并列第一作者, SCI收录，影响因子: 3.7518）X Song, Y Han, W Teng, G Sun, W Li (2010) Identification of QTL underlying somatic embryogenesis capacity of immature embryos in soybean (Glycine max (L.) Merr.). Plant Cell Rep 29:125–131, SCI收录，影响因子:2.5119）Q Zou, C Lin, X Liu, Y Han, W Li, M Guo (2011) Novel representation of RNA secondary structure used to improve prediction algorithms. Genet Mol Res10 (3): 1986-1998, SCI 收录，影响因子：0.99420）D Li，M Sun，Y Han，W Teng，W Li (2010) Identification of QTL underlying soluble pigment content in soybean stems related to resistance to soybean white mold(Sclerotinia sclerotiorum). Euphytica 172:49-57, 并列第一作者, SCI收录，影响因子:1.64321）Z Jiang, Y Han, WTeng, Z Zhang, D Sun, Y Li, W Li (2010) Identification of QTL underlying the filling rate of protein at different developmental stages of soybean seed. Euphytica 175(2):227-236, SCI收录，影响因子:1.64322） Z Jiang, Y Han, W Teng, Z Zhang, D Sun, D Yang, W Li (2010) Identification of QTL underlying the oil filling rate at different developmental stages of soybean seed. Euphytica 176(3):391-402, 并列第一作者, SCI收录，影响因子:1.6523）Z Jiang, B Zhang, W Teng, Y Han, X Zhao, D Sun, Z Zhang，W Li (2010) Impact of epistasis and QTL × environmental interaction on the oil filling rate of soybean seed at different developmental stages. Euphytica 173(3):431-442, SCI收录，影响因子:1.6524）Y Liu, Y Han, W Chang, Q Zou, M Guo, W Li (2010) Genomic Analysis of MicroRNA Promoters and Their Cis-Acting Elements in Soybean. Journal of Integrative Agriculture, 9(11):1561-1570, SCI收录，影响因子: 0.5225） Q Zou, M Guo, C Wang, Y Han, W Li (2011) Novel H/ACA Box snoRNA Mining and Secondary Structure Prediction Algorithms. RSKT 536-546, SCI 收录，影响因子：0.3426）Y liu, W Chang, Y Han, Q Zou, M Guo, W Li (2011) In silico detectin of novel microRNAs genes in soybean genomes. Journal of Integrative Agriculture, 10(9):1336-1345, SCI 收录，影响因子: 0.5227）Z Hu, Y Li, X Song, Y Han, X Cai, S Xu, W Li (2011) Genomic value prediction for quantitative traits under the epistatic model. BMC Genet, 12:15, SCI 收录，影响因子: 2.8128）X Zhao, Chang, Y Han, W Teng, W Li (2012) A modified method for the development of SSR molecular markers based on redundant EST data and its application in soybean. Journal of Integrative Agriculture, 11(4):545 -555, SCI 收录，影响因子: 0.5329）M Liu， D Li， Z Wang， F Meng，Y Li， X Wu， W Teng， Y Han， W Li （2012） Transgenic expression of ThIPK2 gene in soybean improved stress tolerance, oleic acid content and seed size. Plant Cell Tiss Organ Cult 111:277-289，SCI 收录，影响因子:3.6630）Z Jiang, Y Han, W Teng, Y Li, X Zhao, W Man, W Li (2012) Impact of epistasis and QTL x environmental interaction on the mass filling rate during seed development of soybean. Genet Res 94(2):63-71. 并列第一作者, SCI收录，影响因子:2.00031）Z Jiang, J Ding， Y Han，W Teng, Z Zhang, W Li (2012) Identification of QTL underlying mass filling rate at different developmental stages of soybean seed. Euphytica 189(2):249-260. SCI收录，影响因子:1.64332）T Mao, Z Jiang, Y Han, W Teng, X Zhao, W Li (2013) Identification of quantitative trait loci underlying seed protein and oil contents of soybean across multi-genetic backgrounds and environments. Plant breed 132(6):630–641, 并列第一作者,SCI收录，影响因子:1.17533）Y Zhang, L Zhao, H Li, Y Gao, Y Li, X Wu, W Teng, Y Han, X Zhao, W Li (2013)GmGBP1, a homolog of human ski interacting protein in soybean, regulates flowering and stress tolerance in Arabidopsis. BMC Plant Biol 13:21 . SCI收录，影响因子:3.0434）S Huang, Y Han, S Li, J Tian, W Li, J Wang (2012) Identification of QTL associated with total soysaponin content. Journal of Integrative Agriculture, 12: 1976-1984. SCI 收录，影响因子: 0.527035）Wang, Y，Han Y，Teng W，Zhao X，Li Y，Wu L，L D，Li We (2015) Expression quantitative trait loci infer the regulation of isoflavone accumulation in soybean (Glycine max L. Merr.) BMC Genomics, 15(1):680. 并列第一作者,SCI收录，影响因子:4.0436）Yan Wang, Yingpeng Han,Xue Zhao, Yongguang Li, Weili Teng, Dongmei Li, Yong Zhan, Wenbin Li (2015) Mapping Isoflavone QTL with Main, Epistatic and QTL × Environment Effects inRecombinant Inbred Lines of Soybean. PLoS ONE10(3): e**

 近五年授权的专利等情况
1)控制大豆百粒重和大豆产量的数量遗传位点（QTL）及其应用,ZL7.8,发明专利，2012.3，第2名；2）辅助筛选具有较低株高性状的大豆的方法及其专用引物，ZL8.1，发明专利，2012．6，第2名；3）一种辅助鉴定大豆对花叶病毒抗性的方法，ZL.7，发明专利，2014,12，第3名；4）一种大豆胞囊线虫病抗性基因及其应用，ZL8.7，发明专利，2013.1，第3名；5）大豆18SrDNA基因及其应用，ZL5.4，发明专利，2013.1，第3名；6）一种获得EST-SSR标价的方法，ZL7.7，发明专利，2012.9，第4名；7）一种植物光周期相关启动子及其应用，ZL 2009 1 024517.9，发明专利，2012.05，第4名

 其他获奖及荣誉称号