学习经历: 1993.09-1996.06,肇东一中 1997.09-2001.06,东北农业大学农学系本科毕业,获农学学士学位; 2001.09-2004.06,东北农业大学植物学专业,获得理学硕士学位; 2007.09-2010.06,哈尔滨师范大学遗传学专业,获得理学博士学位; 2011.03-2015.11,东北农业大学植物学博士后 工作经历: 2004.09-2008.06,东北农业大学,讲师; 2008.09-2013.08,东北农业大学,副教授; 2013.08-至今,东北农业大学,教授; 2014.09-至今,东北农业大学,博士生导师; 2015.03-2016.03,美国南伊利诺伊大学卡本代尔分校,访问学者; 2018.12-至今,农业农村部东北大豆生物学与遗传育种重点实验室主任。 |
讲授《植物分子生物技术》、《植物分子生物技术实验》本科生课程;讲授《作物分子生物信息学》研究生课程。 |
1.大豆抗病虫性状精准鉴定(2021YFD1201604),国家重点研发计划课题主持,2021年11月-2024年12月; 2.大豆胞囊线虫病广谱抗病位点Rscn-6遗传机制解析及利用(ZD2022004),黑龙江省自然重点项目,2022年7月-2025年7月; 3.大豆优异种质形成与演化规律研究(2016YFD0100304),国家重点研发计划课题主持,2016年7月-2020年12月; 4.重测序结合转录组测序挖掘东农L-10抗大豆胞囊线虫病3号生理小种基因及其功能鉴定与利用(31671717),国自然面上项目主持,2017年1月-2020年12月; 5.大豆抗胞囊线虫病基因型分子设计的研究(JC2018007)省杰青项目主持,2017年7月-2020年12月 6.抗大豆胞囊线虫病4个生理小种新位点Rscn-1的遗传解析(31971967)国自然面上项目主持,2020年1月-2023年12月; 7.大豆花叶病毒病抗性位点RN1的精细定位及相关基因挖掘与功能验证(31201227)国家自然科学基金项目主持,2013年1月-2015年12月 8.抗大豆花叶病毒病基因型分子设计的基础研究(2012CB126311)国家973课题主持2012年8月-2014年8月 9.优质功能型转基因大豆新品种培育(2008ZX08004003-011),国家专基因重大专项子课题 10.东北大豆高产优质抗逆大豆分子育种与品种创制(2012AA101106-1-9)国家863项目子课题2012年1月-2015年12月11.大豆花叶病毒病抗性基因位点RN1的精细定位及抗病候选基因功能分析 (20122325120012)国家教育部博士点项目主持2013年1月-2015年12月 12.基于SLAF技术的大豆花叶病病毒病抗性基因位点的精细定位及候选基因分析(2011049102中国博士后面上项目主持2013年6月-2015年11月 13.通过简化基因组深度测序技术(SLAF-seq)精细定位大豆花叶病毒病抗性基因位点RN1及抗病候选基因功能分析(1253-NCET-005)省新世纪优秀人才项目 14.大豆脂肪酸含量动态QTL及其积累过程重要调控基因的eQTL研究(1252G014)省青年学术骨干才项目,2012年12月-2014年12月 15.大豆功能标记EST-SSR的开发及其应用(11541025)省教育厅面上项目2008年1月-2010年12月 16.基于SLAF-seq技术的大豆花叶病毒病抗性基因的精细定位(LBH-Z11220)黑龙江省博士后基金项目,2011年1月-2013年12月 17.大豆疫霉根腐病抗性QTL的精细定位(LBH-TZ1210)黑龙江省博士后特别自助项目2011年12月-2013年12月 18.大豆功能标记EST-SSR的开发及其在分子设计育种中的应用(2009RFXN085)哈市创新基金项目,2009年1月-2011年12月 |
论文 1.Kuanwei Yu, Chen Na, Xunchao Zhao, Kezhen Zhao, Yuhang Zhan, Ning Xia, Xue Zhao, and Yingpeng Han.Genome-wide identification and expression analysis of the polyamine oxidase gene family in soybean. Canadian Journal of Plant Science, dx.doi.org/10.1139/CJPS-2022-0019 2.Haipeng Jiang, Changjun Zhou, Jinglin Ma, Shuo Qu,Fang Liu, Haowen Sun, Xue Zhao, Yingpeng Han. Weighted gene co-expression network analysis identifies genes related to HG Type 0 resistance and verification of hub gene GmHg1. Front. Plant Sci. 13:1118503. doi: 10.3389/fpls.2022.1118503 3.Haipeng Jiang 1†, Suchen Lv 1†, Changjun Zhou 2†, Shuo Qu 1,Fang Liu 1, Haowen Sun 1, Xue Zhao 1* and Yingpeng Han 1*Identification of QTL, QTLenvironment interactions,and their candidate genesfor resistance HG Type 0and HG Type 1.2.3.5.7 insoybean using 3VmrMLM Front. Plant Sci. 14:1177345. doi: 10.3389/fpls.2023.1177345 4.Chen Na1 · Huanran Miao1 · Haipeng Jiang1 · Jinglin Ma1 · Hongliang Liu1 · Suchen Lv1 · Jinghang Zhou1 ·Yuming Yang1 · Yuhang Zhan1 · Weili Teng1 · Yonguang Li1 · Xue Zhao1 · Yingpeng Han 5.Genomewide association analysis of resistance to frogeye leaf spot China race 7 in soybean based on highthroughput sequencing Theoretical and Applied Genetics (2023) 136:119 6.Xunchao Zhao,Jie Wang,Ning Xia,Yuewen Qu,Yuhang Zhan,Weili Teng,Haiyan Li,Wenbin Li,Yongguang Li,Xue Zhao,Yingpeng Han*.Genome-wide Identification and Analysis of Glyceraldehyde-3-phosphate Dehydrogenase Family Reveals the Role of GmGAPDH14 to Improve Salt Tolerance in Soybean (Glycine max L.) 7.Front. Plant Sci. 2023, 14:1193044 8.Xunchao Zhao, Jie Wang, Ning Xia, Yuanyuan Liu, Yuewen Qu, Meng Ming, Yuhang Zhan, Yingpeng Han, Xue Zhao and Yongguang Li. Combined analysis of the metabolomeand transcriptome provides insight into seed oil accumulation in soybean. 2023, Biotechnology for Biofuels and Bioproducts(2023) 16:70 9.Zhenhong Yang, Xu Wu, Yuming Yang, Yuewen Qu, Jurong Xu, Depeng Wu, Dongmei Li, Yingpeng Han, Xue Zhao, Yongguang Li,Identification of QTNs, QEIs interactions and genes for isoflavones in soybean seeds Industrial Crops & Products 197 (2023) 116631 10.Yanzheng Zhang, Jiqiang Zheng, Yuhang Zhan, Zhenhai Yu, Shuhan Liu, Xiangpeng Lu, Yue Li, Zeyang Li,Xiaoyue Liang, Haibin Li, Yuan Feng1, Weili Teng1, Wenbin Li1, Yingpeng Han1,*, Xue Zhao1,* and Yongguang Li1,*GmPLP1 negatively regulates soybean resistance to high light stress by modulating photosynthetic capacity and reactive oxygen species accumulation in a blue lightdependent manner.Plant Biotechnology Journal, 2023, ,https://doi.org/10.1111/pbi.14158. 11.Zhenhong YangA,#, Xu WuA,#, Jinglin MaA, Ming YuanB, Yuhang ZhanA, Yonguang LiA, Haiyan LiA,Weili TengA,* , Xue ZhaoA,* and Yingpeng HanA,*Genome-wide identification and expression profiling of4-coumarate:coenzyme A ligase genes influencing soybean isoflavones at the seedling stage. CropandPastureScience,10.1071/CP23147 12.Haipeng Jiang, Fanshan Bu, Shixin Yan, Yi Li, Tong Wu, RuiYao Bai, Aitong Xu, Xue Zhao,Yingpeng Han*.RNA-Seq analysis of resistant and susceptible soybeangenotypes in response to stress from soybean cyst nematode(Heterodera glycines) HG type 1.2.3.5.7.Crop andPasture,2022, 73(3):238–248. 13.Maolin Sun, Kezhen Zhao, Jie Wang, Wenqing Mu, Yuhang Zhan, Wenbin Li, Weili Teng, Xue Zhao,Yingpeng Han*.Identification of quantitative trait loci underlying lodging of soybean across multiple environments.Crop andPasture,2022, 73(6):652-662. 14.Kezhen Zhao, Kuanwei Yu, Xue Fu, Xunchao Zhao, Ning Xia, Yuhang Zhan, Xue Zhao, and Yingpeng Han*. Genome-wide identification and expression profile analysis of the OMT gene family in response to cyst nematodes and multi-abiotic stresses in soybean. Crop andPasture,2022, 73(11):1279–1290. 15.Ruiqiong Li, Jianan Zou, Dongming Sun, Yan Jing, Depeng Wu, Ming Lian, Weili Teng, Yuhang Zhan, Wenbin Li, Xue Zhao, Yingpeng Han*.Fine-mapping and functional analyses of a candidate gene controlling isoflavone content in soybeans seed.Frontier in Plant Science, 2022, 13:865584. 16.Maolin Sun, Chen Na, Yan Jing, Zhihui Cui, Na Li, Yuhang Zhan, Weili Teng, Yongguang Li, Wenbin Li, Xue Zhao, Yingpeng Han*. Genome-wide association analysis and gene mining of resistance to China race 1 of frogeye leaf spot in soybean.Frontier in Plant Science, 2022, 13:867713. 17.Jie Wang, Xiaoxue Li, Xunchao Zhao, Chen Na, Hongliang Liu, Huanran Miao, Jinghang Zhou, Jialei Xiao, Xue Zhao, Yingpeng Han*.Genome-wide identification and characterization of the abiotic-stress-responsive LACS gene family in soybean (Glycine max). Agronomy, 2022, 12:1496. 18.Maolin Sun, Yue Li, Jiqiang Zheng, Depeng Wu , Chunxia Li, Zeyang Li, Ziwei Zang, Yanzheng Zhang, Qingwei Fang, Wenbin Li, Yingpeng Han*, Xue Zhao and Yongguang Li.A nuclear factor Y‐B transcription factor, GmNFYB17, regulates resistance to drought stress in soybean.International Journal of Molecular Science, 2022, 23:7242. 19.Wencheng Lu, Meinan Sui, Xunchao Zhao, Hongchang Jia, Dezhi Han, Xiaofei Yan, Yingpeng Han*. Genome-Wide Identification of candidate genes underlying soluble sugar content in vegetable soybean(Glycine max L.) via association and pression Analysis.Frontier in Plant Science, 2022, 13:930639. Kuanwei Yu, Huanran Miao, Hongliang Liu, Jinghang Zhou, Meinan Sui, Yuhang Zhan, Ning Xia, Xue Zhao, Yingpeng Han*. Genome-wide association studies reveal novel QTLs, QTLby-environment interactions and their candidate genes for tocopherol content in soybean seed. Frontier in Plant Science, 2022, 13:1026581. 20.Yanzheng Zhang , Qingwei Fang, Jiqiang Zheng, Zeyang Li, Yue Li, Yuan Feng, Yingpeng Han*,and Yongguang Li. GmLecRlk, a lectin receptor-like protein kinase, contributes to salt stress tolerance by regulating salt-responsive genes in soybean. International Journal of Molecular Science, 2022, 23:1030. 21.Huilong Hong, Mei Li, Yijie Chen, Haorang Wang, Jun Wang , Bingfu Guo, Huawei Gao, Honglei Ren, Ming Yuan, Yingpeng Han and Lijuan Qiu. Plant Sci. 13:1033120.doi: 10.3389/fpls.2022.1033120 22.Haipeng Jiang , Fanshan Bu , Lizheng Tian , Qiuxia Sun , Dongfang Bao,Xue Zhao, and Yingpeng Han(2021)Transcriptional analysis reveals the response mechanism of soybean (Glycine max) Kangxian 2 to soybean cyst nematode (Heterodera glycines) HG Type 0。Crop & Pasture Science, 10.1071/CP20254 23.Yan Jing a, Weili Teng a, Lijuan Qiu b, Hongkun Zheng c, Wenbin Li a, Yingpeng Han a,*,Xue Zhao a,(2021) Genetic dissection of soybean partial resistance to sclerotinia stem rotthrough genome wide association study and high throughout single nucleotide polymorphisms. Genomics 113 (2021) 1262–1271 24.Haipeng Jiang , Lizheng Tian , Fanshan Bu , Qiuxia Sun , Xue Zhao , Yingpeng Han(2021)RNA-seq-based identification of potential resistance genes against the soybean cyst nematode (Heterodera glycines) HG Type 1.2.3.5.7 in ‘Dongnong L-10’. Physiological and Molecular Plant Pathology 114 (2021) 101627 Zou Jianan1 · Wenjing Li1 · Yuting Zhang1 · Wei Song1 · Haipeng Jiang1 · Jingyun Zhao2 · Yuhang Zhan1 · Weili Teng1 ·Lijuan Qiu3 · Xue Zhao1 · Yingpeng Han(2021) Identification of glutathione transferase gene associated with partial resistance to Sclerotinia stem rot of soybean using genomewide association and linkage mapping. Theoretical and Applied Genetics https://doi.org/10.1007/s00122-021-03855-6 25.Maolin Sun , Na Li , Kuanwei Yu , Yuhang Zhan , Ming Yuan , Weili Teng , Wenbin Li ,Xue Zhao , Jialei Xiao , and Yingpeng Han(2021)QTL mapping of lodging tolerance in soybean. Crop & Pasture Science, 2021, 72, 426–433 26.Xue Zhao1 | Yan Jing1 | Zhenghui Luo1 | Sainan Gao1 | Weili Teng1 |Yuhang Zhan1 | Lijuan Qiu2 | Hongkun Zheng3 | Wenbin Li1 | Yingpeng Han(2021)GmST1, which encodes a sulfotransferase, confers resistance to soybean mosaic virus strains G2 and G3. Plant Cell Environ. 2021;44:2777–2792 27.Meinan Sui, Yue Wang , Zhihui Cui , Weili Teng , Ming Yuan , Wenbin Li, Xi Wang , Ruiqiong Li , Yan Lv, Ming Yan , Chao Quan, Xue Zhao , and Yingpeng Han(2020)Genome-wide association mapping and candidate gene analysis for water-soluble protein concentration in soybean (Glycine max) based on high-throughput single nucleotide polymorphism markers。Crop & Pasture Science, 2020, 71, 239–248 28.Chanjuan Zhang,Yingpeng Han,Yingfan Qu,Weili Teng,Xue Zhao(2020) Identification of quantitative trait loci underlying resistance ofsoybean toFusarium graminearum. Plant Breed2020;139:141–147. 29.Mingming Sun1,Yan Jing1,Xue Zhao1,Weili Teng1, Lijuan Qiu3, Hongkun Zheng4, Wenbin Li1*, Yingpeng HanID1Genome-wide association study of partial resistance to sclerotinia stem rot of cultivatedsoybean based on the detached leaf method。Plosone15(5): e0233366. 30.Yuhang Zhana,1 , Haiyan Lia,1 , Meinan Suia , Xue Zhaoa , Yan Jinga , Jian Luoa , Weili Tenga, 31.Lijuan Qiub , Hongkun Zhengc , Wenbin Lia , Deguang Yanga,*, Yingpeng Hana,*Genome wide association mapping for tocopherol concentration in soybean seeds across multiple environments。Industrial Crops & Products 154 (2020) 112674 32.Haipeng Jiang A, Fanshan BuA, Lizheng TianA , Qiuxia SunA, Dongfang BaoA, Xue Zhao A, and Yingpeng Han A,BRNA-Seq-based identifification of potential resistance mechanism against the soybean cyst nematode (Heterodera glycines) HG Type 0 in soybean (Glycine max) cv. Dongnong L-204。Crop & Pasture Science, 2020, 71, 539–551 33.Zhikun Wang A,*, Gege BaoA,*, Chao Yang A,*, Mingming Yang A, Xue Zhao A, Yupeng ShaoA, Yuanzhuo Wang A , Jinxiu Huang A, Ning XiaA, and Yingpeng Han A,BA genome-wide association study of hexanal content related to soymilk off-flflavours in seed of soybean (Glycine max)。Crop & Pasture Science, 2020, 71, 552–561 34.Depeng Wu,Chunxia Li,Yan Jing| Jun Wang| Xue Zhao| Yingpeng HanIdentification of quantitative trait loci underlying soybean (Glycine max) 100-seed weight under different levels of phosphorus fertilizer applicationPlant Breeding. 2020;00:1–10. 35.Depeng Wu1†, Dongmei Li1†, Xue Zhao1†, Yuhang Zhan1 , Weili Teng1 , Lijuan Qiu2 , Hongkun Zheng3 , Wenbin Li1*, Yingpeng Han1* IDentification of a candidate gene associated with isoflavone content in soybean seeds using genome-wide association and linkage mappingPlant Journaldoi: 10.1111/TPJ.14972 36.Meinan Sui 1, Yan Jing1, Haiyan Li 1 , Yuhang Zhan, Jian Luo, Weili Teng, Lijuan Qiu, 37.Hongkun Zheng, Wenbin Li , Xue Zhao and Yingpeng Han(2020)Identifification of Loci and Candidate Genes Analyses for Tocopherol Concentration of Soybean Seed.Front. Plant Sci. 11:539460. doi: 10.3389/fpls.2020.539460 38.Zhikun Wang A,*, Mingming Yang A,*, Yuanzhuo Wang A,*, Chao Yang A, Xue Zhao A,B, Lizheng TianA, Yupeng ShaoA, Gege BaoA, Jinxiu Huang A, Ning XiaA,B, and Yingpeng Han A,(2020)Genetic dissection of 2-heptenal content in soybean (Glycine max) seed through genome-wide association study.Crop & Pasture Science,10.1071/CP20237 39.Meinan Sui,Yue Wang, Yuyue Bao, Xi Wang, Ruiqiong Li, Yan Lv, Ming Yan, Chao Quan ,Chunxia Li, Weili Teng, Wenbin Li Xue Zhao Yingpeng HanGenome-wide association analysis of sucrose concentration in soybean (Glycine max L.) seed based on high-throughput sequencin. The plant genom e DOI: 10.1002/tpg2.20059 40.Xue Zhao,Dongfang Bao,Wei Wang,Chanjuan Zhang,Yan Jing,Haipeng Jiang,Lijuan Qiu & Wenbin Li & Yingpeng Han. Loci and candidate gene identification for soybeanresistance to Phytophthora root rot race 1 in combination with association and linkage mapping. Molecular breeding(2020) 40:100 41.Chanjuan Zhang,Xue Zhao,Yingfan Qu,Weili Teng,Lijuan Qiu,HongkunZheng,Zhenhua Wang,Yingpeng Han,Wenbin Li(2019)Loci and candidate genes in soybean that confer resistanceto Fusarium graminearum.Theoretical and Applied Genetics132:431–441 42.Dongmei Li, Xue Zhao, Yingpeng Han, Wenbin Li, Futi Xie(2018)Genome-wide association mapping for seed protein and oil contents using alarge panel of soybean accessions. Genomics 111:90-95, DOI:10.1016/j.ygeno.2018.01.004 43.Xue Zhao, Haipeng Jiang, Lei Feng, Yingfan Qu, Weili Teng, Lijuan Qiu, Hongkun Zheng, Yingpeng Han and Wenbin Li (2019) Genome-wide association andtranscriptional studies reveal novel genes for unsaturated fatty acid synthesis in a panel of soybean accessions. BMC Genomics 20:68 44.Jinyang Wang,Xue Zhao,Wei Wang,Yingfan Qu,· Weili Teng,· Lijuan Qiu,Hongkun Zheng,·Yingpeng Han1,Wenbin Li(2019)Genome-wide association study of inflorescence length of cultivatedsoybean based on the high-throughout single-nucleotide markers.Molecular Genetics and Genomics 294:607–620 45.Ning Xia, MingmingYang, JunhanZhao,Yupeng Shao,Yanguo Shi , WenbingYan,Xiaoqi Wang, Yingpeng Han , and Zhikun Wang(2019)Genome-wide association analysis of 1-octen-3-ol content relatedto soymilk off-flavor in soybean seed.Crop & Pasture Science, 2019, 70, 133–139 46.Xue Zhao,Hong Chang,Lei Feng | Yan Jing1 | Weili Teng1 | Lijuan Qiu2 | Hongkun Zheng3 | Yingpeng Han1 | Wenbin Li(2019)Genome‐wide association mapping and candidate gene analysis for saturated fatty acid content in soybean seed. Plant breed 1-11 47.XIA Ning, YAN Wen-bing, WANG Xiao-qi, SHAO Yu-peng, YANG Ming-ming, WANG Zhi-kun1,ZHAN Yu-hang, TENG Wei-li, HAN Ying-peng, SHI Yan-guo(2019)Genetic dissection of hexanol content in soybean seed through genome-wide association analysis.Journal of Integrative Agriculture 2019, 18(6): 1222–1229. 48.Yan Jing,Xue Zhao,Jun Wang,| Ming Lian,Weili Teng,Lijuan Qiu,Yingpeng Han,Wenbin Li(2019)Identification of loci and candidate genes for plant height insoybean (Glycine max) via genome‐wide association study. Plant breed;138:721–732. 49.Xue Zhao,, Hairan Dong, Hong Chang, Jingyun Zhao, Weili Teng, Lijuan Qiu, Wenbin Li andYingpeng Han(2019)Genome wide association mapping and candidate gene analysis for hundred seed weight in soybean [Glycine max (L.) Merrill].BMC Genomics (2019) 20:648 50.Xue ZhaoA, Wenjing Li, Xiaoyue Zhao, Jinyang Wang, Zhiyang Liu, Yingpeng Han,Wenbin Li(2019)Genome-wide association mapping and candidate gene analysis for seed shape in soybean (Glycine max).Crop & Pasture Science , 70, 684–693 51.Depeng Wu,Yuhang Zhan,Qiuxia Sun,Lingxiu Xu,Ming Lian,Xue Zhao,Yingpeng Han,Wenbin Li(2018) Identification of quantitative trait loci underlying soybean(Glycine max [L.] Merr.) seed weight including main, epistaticand QTL 3 environment effects in different regions ofNortheast China. Plant breeding 137(2):194–202.DOI: 10.1111/pbr.12574. 52.Yan Jing, Xue Zhao, Jinyang Wang, Weili Teng, Lijuan Qiu, Yingpeng Han andWenbin Li(2018) Identification of the Genomic RegionUnderlying Seed Weight per Plant inSoybean (Glycine max L. Merr.) viaHigh-Throughput Single-NucleotidePolymorphisms and a Genome-WideAssociation Study.Front. Plant Sci. 9:1392.doi: 10.3389/fpls.2018.01392 53.Weili Teng, Meinan Sui, Wen Li, Depeng Wu, Xue Zhao, Haiyan Li, Yingpeng Han, Wenbin Li.Identification of quantitative trait loci underlying seed shapein soybean across multiple environments. Journal of Agricultural science, 2018,156, 3–12.doi:10.1017/S002185961700082X 54.Yingpeng Han, Yongyan Zhang, Depeng Wu, Xue Zhao, Weili Teng, Dongmei Li, Wenbin Li (2017) Identification of novel quantitative trait loci associated with tolerance to phytophthora root rot in the soybean cultivar ‘Hefeng 25’ using two recombinant inbred line populations. Canadian journal of plant Science Can. J. Plant Sci. 97: 1–8 doi: 10.1139/CJPS-2016-0356,第一作者, SCI检索(影响因子:0.97) 55.Ning Xia , Depeng Wu, Yuhang Zhan, Yang Liu, Mengyang Sun, Xue Zhao,Weili Teng, Yingpeng Han (2017) Dissection of Genetic Architecture for Oil Content in Soybean Seed using Two Backcross Populations. Plant Breeding,136(3):365-371,通讯作者, SCI检索(影响因子:1.52) 56.3Teng Weili, Li Wen, Zhang Qi, Wu Depeng, Zhao Xue, Li Haiyan, Han Yingpeng, Li Wenbin (2017) Identification of Quantitative Trait Loci Underlying Seed Protein Content of Soybean including Main, Epistatic and QTL × Environment Effects in Different Regions of Northeast China. Genome 60: 649–655通讯作者, SCI检索(影响因子:2.34) 57.Weili Teng , Lei Feng , Wen Li , Depeng Wu , Xue Zhao , Yingpeng Han , Wenbin Li(2017)Dissection of the Genetic Architecture for Soybean Seed Weight across Multiple Environments. Crop and pasture science 68, 358–365,通讯作者, SCI检索(影响因子:1.67) 58.WL Teng, WJ Feng, JY Zhang, N Xia, W Li, D Wu, X Zhao, YP Han, WB Li (2017) Identification of quantitative trait loci underlying lutein content in soybean seeds across multiple environments. Journal of Agricultural science, 155, 1263–1271DOI: 10.1017/S0021859617000363,通讯作者, SCI检索(影响因子:2.01) 59.Huancheng Liu, Guanglu Cao, Yingpeng Han, Zhenfeng Jiang, Hongwei Zhao, Wenbin Li (2017) Identification of the QTL underlying the vitamin E content of soybean seeds. Plant Breeding, 136:924–938.DOI: 10.1111/pbr.12454,SCI检索(影响因子:1.52) 60.Yingpeng Han, Yunfu Tan, Haibo Hu, Wei Chang, Limin Dong, Zizhen Wang, Xue Zhao, Wenbin Li, Weili Teng (2017) Quantitative trait loci with additive and epistatic effects underlying resistance to two HG types of soybean cyst nematode. Plant Breeding, DOI: 10.1111/pbr.12484,第一作者, SCI检索(影响因子:1.52) 61.Xue Zhao, Weili Teng, Yinghui Li, Dongyuan Liu, Guanglu Cao, Dongmei Li, Lijuan Qiu, Hongkun Zheng, Yingpeng Han*, Wenbin Li (2017) Loci and candidate genes conferringresistance to soybean cyst nematode HG type 2.5.7. BMC Genomics 18:462.通讯作者, SCI检索(影响因子:4.04) 62.Huancheng Liu, Guanglu Cao,Depeng Wu, Zhenfeng Jiang,Yingpeng Han, Wenbin Li (2017) Quantitative trait loci underling soybean seed tocopherolcontent with main additive, epistatic and QTLXenvironmenteffects.Plant Breeding, DOI: 10.1111/pbr.12534,SCI检索(影响因子:1.52) 63.Wei li Teng, Binbin Zhang, Qi Zhang, Wen Li, Depeng Wu, Hui Yang, Xue Zhao, Yingpeng Han, Wenbin Li (2017)Identification of quantitative trait loci underlying seed oil contentof soybean including main, epistatic and QTL environmenteffects in different regions of Northeast China.Crop and pasture science,2017, 68, 625–631doi.org/10.1071/CP17169 64.Ning Xia, DepengWu , Xia Li ,Weili Teng , Xue Zhao , Haiyan Li , and Yingpeng Han (2017)Identification of quantitative trait loci underlying fatty acidcontent of soybean (Glycine max), including main, epistaticand QTL environment effects across multiple environment.Crop and pasture science, doi.org/10.1071/CP17241 65.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 Zheng and Wenbin Li(2016)Domestication footprints anchor genomic regions of agronomic importance in soybeans. New Phytologist, 209(2):871-884.第一作者, SCI检索(影响因子:7.67) 66.Yingpeng Han, Dongmei Li, Guiyun Zhao, Xue Zhao, Zhenfeng JiangHaibo Hu, Lin Wu, Yan Wang, Yuan Gao, Yongguang Li, Guoliang Zeng, Fanli Meng, Weili Teng, Wenbin Li (2016) Dynamic quantitative trait loci underlies isoflavone accumulation in soybean seed. Plant Breeding, 135(3):335-341.第一作者, SCI检索(影响因子:1.52) 67.Haiyan Li, Yan Wang, Yingpeng Han, Weili Teng, Xue Zhao, Yongguang Li, Wenbin Li (2016) Mapping quantitative trait loci (QTLs) underlying seed vitamin E content in soybean with main, epistatic and QTL × environment effects. Plant Breeding, 135:208-216.SCI检索(影响因子:1.52) 68.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) 69.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 16:598.第一作者, SCI检索(影响因子:4.04) 70.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.第一作者, SCI检索(影响因子:4.04) 71.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.SCI检索(影响因子:1.52) 72.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:4.04) 73.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): e0118447.SCI收录,(影响因子:3.05) 74.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, SCI收录,影响因子:1.52 75.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:3.04 76.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:3.75 77.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: 0.53 78.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:3.66 79.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:2.00 80.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:1.64 81.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: 0.53 82.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:0.34 83.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:3.75 84.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:1.60 85.W Chang, L Dong, Z Wang, H Hu, Y Han, W Teng, H Zhang, M Guo, W Li (2011) QTL underlying resistance to two HG types of Heterodera glycines found in soybean cultivar ‘L-10’ BMC Genomics 13:12,SCI收录,影响因子:4.04 86.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:3.75 87.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:3.251 88.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:0.994 89.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: 0.52 90.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: 2.81 91.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: 3.75 92.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:4.39 93.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: 3.75 94.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:2.51 95.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:1.643 96.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:1.643 97.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:1.65 98.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:1.65 99.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: 0.52 100.W Teng, Y Han, Y Du1, D Sun, Z Zhang, L Qiu, G Sun, W Li (2009) QTL analyses of seed weight during the development of soybean (Glycine max L. Merr.)。Heredity 102:372–381. 101.G Zeng, D Li, Y Han, W Teng, J Wang, L Qiu, W Li (2009) Identification of QTL underlying isofavone contents in soybean seeds among multiple environments. Theor Appl Genet 118:1455–1463, 102.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:1.60 103.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:1.60 104.W Li, Y Han, D Zhang, M Yang, W Teng, Z Jiang, L Qiu, G Sun (2008)Genetic diversity in soybean genotypes from north-eastern China and identification ofcandidate markers associated with maturity rating.PlantBreeding127:494-500.SCI收录,影响因子:1.52 Pengfei Xu, Yingpeng Han, Junjiang Wu, Huiying Lv, Lijuan Qiu, Ruzhen Chang, Limei Jin, Jinsheng Wang, Anliang Yu, Chen Chen, Haiyang Nan, Xiuhong Xu, Ping Wang, Dayong Zhang, Shuzhen Zhang , Wenbin Li1, Weiyuan Chen (2007) Phylogenetic Analysis of the Sequences of rDNA Internal Transcribed Spacer (ITS) of Phytophthora sojae. Journal of Genetics and Genomics并列第一作者SCI收录,影响因子:3.07 |
成果: 1.审定大豆新品种东农豆127(排名第1),2022; 2.审定大豆新品种东农豆91(排名第1),2023; 3.审定大豆新品种东农豆128(排名第3),2023; 4.审定大豆新品种东农63(排名第2),2015; 5.审定大豆新品种东农65(排名第5),2015。 专利: 1.一种辅助鉴定大豆抗花叶病毒病基因的方法及其应用”(排名第1),ZL2014.1.03734276,2016; 2.大豆基因GmTCM1及其获得方法与应用”(排名第2),ZL202011641417.8,2022; 3.大豆的GmMT1基因和含有GmMT1基因的载体及其制备方法与应用”(排名第2),ZL202011530095.X,2022; 4.一种与大豆抗胞囊线虫病抗性位点连锁的分子标记的筛选方法、分子标记、引物及应用”(排名第1),ZL201910063781.1,2022; 5.一种抗大豆菌核病基因GmPR5转基因植株的构建与应用”(排名第3),ZL201911309597.7,2022; 6.辅助筛选具有较低株高性状的大豆的方法及其专用引物”(排名第2),ZL200910236418.1,2012 7.控制大豆百粒重和大豆产量的数量遗传位点(QTL)及其应用,ZL200710144997.8,2012年,发明专利,排名第二, 8.一种大豆胞囊线虫病抗性基因及其应用,ZL201110106658.7,2013年, 发明专利,排名第三; 9.大豆18SrDNA基因及其应用,ZL201110372645.4,2013年,发明专利,排名第三; 10.一种获得EST-SSR标价的方法,ZL200910090407.7,2012年,发明专利,排名第四; 11.采用大豆赤霉素结合蛋白基因条件光周期的方法,2010 1 0180021.8,2012年,发明专利,排名第四; 12.一种植物光周期相关启动子及应,2009 1 024517.9,2011年,发明专利,排名第四; 13.大豆研磨机,ZL201020222535.0,实用新型专利,排名第3; 14.暗操作箱,ZL201020222535.0,实用新型专利,排名第2; 15.用于养殖大豆食心虫的养虫盒,ZL201020222535.0,2011年,实用新型专利,排名第3; 16.用于养殖大豆食心虫的养虫笼,ZL201550508u,2011年, 实用新型专利,排名第3; 获奖: 1.大豆优异种质挖掘、创新与利用,国家科技进步二等奖(排名第3),2018; 2.优异大豆资源引进创新及新品种选育推广,黑龙江省科技进步二等奖(排名第1),2021 3、优质食用大豆新品种选育与示范推广,黑龙江省科技进步二等奖(排名第2),2019. 4、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,黑龙江省科技进步三等奖(排名第1),2015 5、大豆优质、高产、多抗分子聚合育种的研究及新品种选育与推广,黑龙江省科学进步一等奖(排名第3),2011 6、大豆抗疫霉根腐病机制研究及资源利用黑龙江省自然科学奖二等奖(排名第3),2010 7、首届王连铮大豆青年科技奖获得者,2017 人才称号: 1、国家“万人计划”科技创新领军人才,2018年; 2、黑龙江省杰出青年基金获得者,2018年; 3、科技部中青年科技创新领军人才,2016年; 国家大豆产业技术体系岗位科学家,2018年 社会兼职: 中国作物学会大豆专业委员会常务理事兼副秘书长 黑龙江省作物学会理事 哈尔滨市政协常委 中国作物学会分子育种分会常务理事 《Frontier in Genetics》编委 《BMC Genomics》编委 《International Journal of Molecular Science》编委 《中国农业科学(中英文版)》编委 《广东农业科学》编委 《土壤与作物》编委 |