一、基本信息
韩德俊,男, 1966年1月出生,北京通州人,农学博士,作物遗传育种专业,教授,博士生导师,西北农林科技大学红杏无限破解版入口植物科学系/旱区作物逆境生物学国家重点实验室。
二、学习工作经历
1989年6月毕业于西北农业大学农学系农学专业,获农学学士学位,毕业后留校,在农学系遗传育种专业任教;2006年6月,于西北农林科技大学植物保护学院植物病理专业,获农学博士学位。2008年受聘于旱区作物与逆境生物学学科群,从事科学研究工作。
三、研究方向
研究方向为农作物抗病遗传与分子设计育种,重点开展小麦抗逆基因资源发掘与利用研究,建立小麦基因组-表型组-环境组大数据,为发掘优异基因资源,探索小麦分子设计育种理论和方法搭建平台。主要科研领域包括:
1小麦种质收集、鉴定、筛选,抗病基因克隆;
2基于表型组学和环境组学发掘小麦优异基因;
3 小麦分子设计育种理论与实践。
四、本科教学课程
承担本科生课程:《遗传学》《农业生物技术》《植物表型组学》等。
五、承担科研项目情况
先后主持国家“十四五”重点研发课题;国家转基因专项重点课题;国家自然科学基金面上项目和国际合作等项目。近5年主持的主要科研项目:
1. 小麦抗病优异种质资源精准鉴定(2021YFD1200602),国家十四五重点研发项目(课题),2021.01-2026.11,合同经费550万元,课题主持
2. 小麦锈病兼抗基因发掘与利用(31961143019),国家自然基金国际(地区)合作与交流项目,2020.01-2024.12,合同经费160万元,主持
3. 小麦抗条锈病基因 Yr61 克隆与功能解析(31971890),国家自然科学基金面上项目,2020.01-2023.12,合同经费58万元,主持
4. 小麦重要病害分子育种技术研究与种质创制(2021ZDLNY0-01),陕西省重点研发计划项目-重点产业创新链,2021.01-2023.12,合同经费80万元,主持
5. 西北春麦区小麦抗病高产分子设计育种及示范应用(2022-NK-125),青海省重点研发与转化计划项目,2022.01-2024.12,合同经费300万元,主持
6. 小麦种质资源发掘利用的分子基础与技术开发(Ylzy-xm-01),杨凌种业创新中心2021 年揭榜挂帅项目,2021.01-2023.12,合同经费300万元,主持
7. 烟草病虫害生物防治及生态调控技术研发与应用(KJ-2021-02)2021.01-2023.12,合同经费285万元,主持
8. 基于微生物组的烟草叶部重要病害生防菌剂研发及产品创新(110202101056 LS-16)2022.01-2024.12,合同经费560万元,主要负责人。
六、其他学术成果
(一) 发表论文
近五年发表中英文论文40余篇,主要刊发在Genome Biology、Plant Biotechnology Journal、Theoretical and Applied Genetics、The Crop Journal、Plant disease、Phytopathology等农业科学TOP期刊。(*通讯作者)
1. Huang Shuo#, Zhang Yibo#, Ren Hui#, Li Xiang, Zhang Xin, Zhang Zeyuan, Zhang Chuanliang, Liu Shengjie, Wang Xiaoting, Zeng Qingdong, Wang Qilin, Singh RP, Bhavani S, Wu Jianhui*, Han Dejun*, Kang Zhensheng* (2022) Epistatic interaction effect between chromosome 1BL ( Yr29 ) and a novel locus on 2AL facilitating resistance to stripe rust in Chinese wheat Changwu 357-9. Theoretical and Applied Genetics. 135:2501-2513
2. Liu Shengjie#, Wang Xiaoting#, Zhang Yayun, Jin Yangang, Xia Zhonghua, Xiang Mingjie, Huang Shuo, Qiao Linyi, Zheng Weijun, Zeng Qingdong, Wang Qilin, Yu Rui, Singh Ravi P., Bhavani Sridhar, Kang Zhensheng, Han Dejun*, Wang Changfa*, Wu Jianhui*. 2021. Enhanced stripe rust resistance obtained by combining Yr30 with a widely dispersed, consistent QTL on chromosome arm 4BL. Theoretical and Applied Genetics. 135: 351-365(中科院1区,G3)IF2021="5.699," 2021-10-19
3. Zhou Cai'e#, Liu Dan#, Zhang Xu, Wu Qimeng, Liu Shengjie, Zeng Qingdong, Wang Qilin, Wang Changfa, Li Chunlian, Ravi P. Singh, Sridhar Bhavani, Kang Zhensheng, Han Dejun*, Weijun Zheng*, Wu Jianhui*. 2022. Combined linkage and association mapping reveals two major QTL for stripe rust adult plant resistance in Shaanmai 155 and their haplotype variation in common wheat germplasm. The Crop Journal. 10: 783-792(中科院1区,G3)IF2021="4.407," 2021-10-05
4. Liu Shengjie#, Huang Shuo#, Zeng Qingdong#, Wang Xiaoting, Yu Rui, Wang Qilin, Singh Ravi P., Bhavani Sridhar, Kang Zhensheng*, Wu Jianhui*, Han Dejun*. 2021. Refined mapping of stripe rust resistance gene YrP10090 within a desirable haplotype for wheat improvement on chromosome 6A. Theoretical and Applied Genetics, 134: 2005-2021(中科院1区,G3)IF2021="5.699," 2021-03-08
5. Huang Shuo#, Liu Shengjie#, Zhang Yibo, Xie Yanzhou, Wang Xiaoting, Jiao Hanxuan, Wu Shushu, Zeng Qingdong, Wang Qilin, Singh Ravi P., Bhavani Sridhar, Kang Zhensheng, Wang Chengshe*, Han Dejun*, Wu Jianhui*. 2021. Genome-wide wheat 55K SNP-based mapping of stripe rust resistance loci in wheat cultivar Shaannong 33 and their alleles frequencies in current Chinese wheat cultivars and breeding lines. Plant Disease, 105: 1048-1056(中科院2区,G4)IF2021="4.438," 2020-09-19
6. Zheng Y, Feng Z, Wang J, Huang X, Lei L, Zhang X, Cao H, Fan D, Yao M, Han D, Li X (2021) Wheat-root associated prokaryotic community: Interplay between plant selection and location. Plant Soil 464:183–197
7. Xiaofeng Cao, Yulin Liu, Rui Yu, Dejun Han and Baofeng Su. A Comparison of UAV RGB and Multispectral Imaging in Phenotyping for Stay Green of Wheat Population. Remote Sensing, 2021, 13(24): 5173.
8. Jianhui Wu#, Rui Yu#, Haiying Wang#, Cai’e Zhou, Shuo Huang, Hanxuan Jiao, Shizhou Yu, Xiaojun Nie, Qilin Wang, Shengjie Liu, Weining Song, Ravi. P Singh, Sridhar Bhavani, Zhensheng Kang*, Dejun Han*, Qingdong Zeng*. 2020. A large-scale genomic association analysis identifies the candidate causal genes conferring stripe rust resistance under multiple field environments. Plant Biotechnology Journal. 19: 177-191(中科院1区,G2)IF2021="9.803," 2020-07-17
9. Yu Shizhou#, Wu Jianhui#, Wang Meng#, Shi Weiming, Xia Guangmin, Jia Jizeng, Kang Zhensheng*, Han Dejun*. 2020. Haplotype variations in QTL for salt tolerance in Chinese wheat accessions identified by marker-based and pedigree-based kinship analyses. The Crop Journal. 8: 1011-1024.(中科院1区,G3)IF2021="4.407," 2020-04-23
10. Jianhui Wu#, Xiaoting Wang#, Nan Chen, Haiying Wang, Rui Yu, Shizhou Yu, Qilin Wang, Shuo Huang, Ravi P. Singh, Sridhar Bhavani, Zhensheng Kang, Dejun Han, Qingdong Zeng. 2020. Association analysis identifies new loci for resistance to Chinese Yr26 -virulent races of the stripe rust pathogen in a diverse panel of wheat germplasm. Plant Disease. 104:1751-1762(中科院2区,G4)IF2021="4.438," 2020-01-17
11. Zhou, Caie., Dong, Z., Zhang, T., Wu, J., Yu, S., Zeng, Q., Han Dejun & Tong, Wei. (2020). Genome-Scale Analysis of Homologous Genes among Subgenomes of Bread Wheat (Triticum aestivum L.). International Journal of Molecular Sciences , 2020, 21 (8), 3015; 21 (8), 3015.
12. Hu CH, Zeng QD, Tai L, Zhang PP, Nie XM, Wang PQ, Liu WT, Li WQ, Kang ZS, Han DJ, Chen KM (2020) The interaction between TaNOX7 and TaCDPK13 contributes to plant fertility and drought tolerance by regulating ROS production. Journal of Agricultural and Food Chemistry 68:7333–7347.
13. Gebreslasie Zeray Siyoum, Huang Shuo, Zhan Gangming, Badebo Ayele, Zeng Qingdong, Wu Jianhui, Wang Qilin, Liu Shengjie, Huang Lili, Wang Xiaojing, Kang Zhensheng, Han Dejun*(2020). Stripe rust resistance genes in a set of Ethiopian bread wheat cultivars and breeding lines,Euphytica. 216 (2) :17
14. Zhang, RH, Han, DJ, & Hu, XY. (2020). Analyzing the performance of corn in China using a factor‐analytic variance‐covariance structure with multiple factors. Crop Science , 60 (1), 190-201
15. Mu, Jingmei#; Wu, Jianhui#; Liu, Shengjie#; Dai, Miaofei; Sun, Daojie; Huang, Shuo; Wang, Qilin; Zeng, Qingdong; Yu, Shizhou; Chen, Li; Kang, Zhensheng*; Han, Dejun*. 2019. Genome-wide linkage mapping reveals stripe rust resistance in common wheat ( Triticum aestivum ) Xinong1376. Plant Disease. 103:2742-2750.(中科院2区,G4)IF2021="4.438," 2019-06-10
16. Zeng Qingdong#, Wu Jianhui#, Liu Shengjie#, Huang Shuo, Wang Qilin, Mu Jingmei, Yu Shizhou, Han Dejun*, Kang Zhensheng*. 2019. A major QTL co-localized on chromosome 6BL and its epistatic interaction for enhanced wheat stripe rust resistance. Theoretical and Applied Genetics. 132:1409-1424.(中科院1区,G3)IF2021="5.699," 2019-02-01
17. Qingdong Zeng#, Jianhui Wu#, Shuo Huang#, Fengping Yuan, Shengjie Liu, Qilin Wang, Jingmei Mu, Shizhou Yu, Li Chen, Dejun Han*, Zhensheng Kang*. 2019. SNP-based linkage mapping for validation of adult plant stripe rust resistance QTL in common wheat cultivar Chakwal 86. The Crop Journal. 7:176-186.(中科院1区,G3)IF2021="4.407," 2019-01-11
18. Jingmei Mu, Miaofei Dai, Xiaoting Wang, Xinrui Tang, Shuo Huang, Qingdong Zeng, Qilin Wang, Shengjie Liu, Shizhou Yu, Zhensheng Kang & Dejun Han*. Combining genome-wide linkage mapping with extreme pool genotyping for stripe rust resistance gene identification in bread wheat. Molecular Breeding, 2019, 39(6): 82.
19. Mu, JM, Wang, QL, Wu, JH, Zeng, QD, Huang, S, Liu, SJ, Kang ZS & Han, DJ*. Identification of sources of resistance in geographically diverse wheat accessions to stripe rust pathogen in China. Crop Protection. Volume 122, August 2019, Pages 1-8
20. Mu, JM, Huang, SH, Liu, SJ, Zeng, QD, Dai, MF, Wang, QL, Kang ZS & Han, DJ*. (2019). Genetic architecture of wheat stripe rust resistance revealed by combining QTL mapping using SNP-based genetic maps and bulked segregant analysis. Theoretical and Applied Genetics , 132 (2), 443-455.
21. Huang Shuo#, Wu Jianhui#, Wang Xiaoting, Mu Jingmei, Xu Zhi, Zeng Qingdong, Liu Shengjie, Wang Qilin, Kang Zhensheng*, Han Dejun*. 2019. Utilization of the Genome-wide Wheat55K SNP Array for Genetic Analysis of Stripe Rust Resistance in Common Wheat Line P9936. Phytopathology. 109:819-827. (中科院2区,G4)IF2021="4.025," 2019-01-11
22. Qingdong Zeng#, Jianhui Wu#, Shengjie Liu, Xianming Chen, Fengping Yuan, Pingping Su, Qilin Wang, Shuo Huang, Jingmei Mu, Dejun Han*, Zhensheng Kang*. 2019. Genome-wide mapping for stripe rust resistance loci in common wheat cultivar Qinnong 142. Plant Disease. 103:439-447. (中科院2区,G4)IF2021="4.438," 2018-08-28
23. L.C. Wang, X.R. Tang, J.H. Wu, C. Shen, M.F. Dai, Q.L. Wang, Q.D. Zeng, Z.S. Kang, Y.F. Wu, D.J. Han*. Stripe rust resistance to a burgeoning Puccinia striiformis f. sp. tritici race CYR34 in current Chinese wheat cultivars for breeding and research[J]. Euphytica, 2019, 215(4): 68.
24. Xinli Zhou, Tian Hu,Xin Li,Ma YU,Yuanyuan Li,Suizhuang Yang,Kebing Huang, Dejun Han, Zhensheng Kang (2019). Genome-wide mapping of adult plant stripe rust resistance in wheat cultivar Toni. Theoretical and Applied Genetics , 1-12.
25. Jianhui Wu, Shuo Huang, Qingdong Zeng, Shengjie Liu, Qilin Wang, Jingmei Mu, Shizhou Yu, Dejun Han*, Zhensheng Kang*. 2018. Comparative genome-wide mapping versus extreme pool-genotyping and development of diagnostic SNP markers linked to QTL for adult plant resistance to stripe rust in common wheat. Theoretical and Applied Genetics. 131:1777–1792.(中科院1区,G3)IF2021="5.699," 2018-06-16
26. Jianhui Wu#, Qingdong Zeng#, Qilin Wang#, Shengjie Liu, Shizhou Yu, Jingmei Mu, Shuo Huang, Hanan Sela, Assaf Distelfeld, Lili Huang, Dejun Han*, and Zhensheng Kang*. 2018. SNP-based pool genotyping and haplotype analysis accelerate fine mapping the genomic region associated with stripe rust resistance gene Yr26 . Theoretical and Applied Genetics. 131: 1481-1496.(中科院1区,G3)IF2021="5.699," 2018-04-17
27. Jianhui Wu, Shengjie Liu, Qilin Wang, Qingdong Zeng, Jingmei Mu, Shuo Huang, Shizhou Yu, Dejun Han*, and Zhensheng Kang*. 2018. Rapid identification of an adult plant stripe rust resistance gene in hexaploid wheat by high-throughput SNP array genotyping of pooled extremes. Theoretical and Applied Genetics. 131:43-58.(中科院1区,G3)IF2021="5.699," 2017-09-30
28. Jianhui Wu#, Qilin Wang#, Liangsheng Xu, Xianming Chen, Bei Li, Jingmei Mu, Qingdong Zeng, Lili Huang, Dejun Han*, and Zhensheng Kang*. 2018. Combining SNP genotyping array with bulked segregant analysis to map a gene controlling adult-plant resistance to stripe rust in wheat line 03031-1-5 H62. Phytopathology. 108:103-113. (中科院2区,G4)IF2021="4.025," 2017-08-21
29. McIntosh, R., Mu, J., Han, D., & Kang, Z. (2018). Wheat stripe rust resistance gene Yr24/Yr26: a retrospective review. The Crop Journal , 6 (4), 321-329.
30. 韩德俊,康振生. 中国小麦品种抗条锈病现状及存在问题与对策. 植物保护,2018,44(5):1-12
(二) 专利
1. 一种与小麦抗条锈病基因Yr26紧密连锁的分子标记、引物及其应用. 曾庆东; 吴建辉; 刘胜杰; 王琪琳; 韩德俊; 康振生, 2022-1-30, 中国, CN201910214777.0
2. 小麦抗条锈病基因QYr.nwafu-6BL.2的连锁KASP分子标记、引物及应用. 吴建辉; 曾庆东; 刘胜杰; 韩德俊; 康振生, 2022-2-23, 中国, CN201910182783.2
3. 烯丙胺类化合物用于制备防治小麦真菌病害药物的应用. 曾庆东,李翔,袁凤平,纪凡,刘佳劼,吴建辉,王琪琳,康振生,韩德俊. 2022- 05-20,中国ZL202010897352.7
(三)品种审定
参与选育的小麦新品种西农863,于2022年通过国家品种审定(国审麦20220138)
七、联系方式
通讯地址:陕西杨凌区邰城路3号西北农林科技大学红杏无限破解版入口
邮编:712100
Email: handj@nwafu.edu.cn
(数据截止2022.10)
