基本信息
刘志勇 男 博导 中国科学院遗传与发育生物学研究所
电子邮件: zyliu@genetics.ac.cn
通信地址: 北京市朝阳区北辰西路1号院
邮政编码: 100101
电子邮件: zyliu@genetics.ac.cn
通信地址: 北京市朝阳区北辰西路1号院
邮政编码: 100101
研究领域
1. 小麦抗病基因(白粉病、条锈病、叶枯病等)发掘、克隆和功能研究
2. 小麦抗病性的分子机制
3. 小麦农艺性状基因/QTL发掘、克隆和功能研究
4. 小麦性状发育的分子机理
5. 小麦种质创新和新品种创制
招生信息
招生专业
071007-遗传学090102-作物遗传育种学
招生方向
小麦功能基因组植物分子遗传育种 作物分子育种改良
教育背景
1996-09--1999-08 中国农业大学 博士研究生1980-09--1984-06 河北农业大学昌黎分校 本科生
学历
1996.9-1999.6:中国农业大学,博士研究生
1993.9-1996.6:中国农业大学,硕士研究生
1980.9-1984.6::河北农业大学昌黎分校,本科生
学位
1999.6:中国农业大学,农学博士学位
1996.6:中国农业大学,农学硕士学位
1985.6::河北农业技术师范学院,学士学位工作经历
工作简历
2016-01~现在, 中国科学院遗传与发育生物学研究所, 研究员2004-06~2015-12,中国农业大学, 教授2001-03~2004-06,Hawaii Agriculture Research Center, USA, Research Associate1999-10~2001-03,Swiss Federal Institute of Technology Zurich, Research Associate1993-09~1996-08,中国农业大学, 硕士研究生1984-07~1993-08,河北科技师范学院, 助教,讲师
专利与奖励
奖励信息
(1) 小麦抗病优质多样化基因资源发掘、创新和利用, 二等奖, 国家级, 2015
专利成果
[1] 刘志勇, 吴秋红, 陈永兴, 张盼盼, 张怀志, 郭广昊, 谢菁忠, 董玲丽, 陆平, 李淼淼. 小麦白粉病抗性相关蛋白MlWE18和MlIW172及其应用. CN: CN114539371A, 2022-05-27.[2] 刘志勇, 李淼淼, 王振忠, 李贝贝, 董玲丽, 陆平, 吴秋红, 陈永兴. 抗白粉病相关蛋白Pm41及其编码基因与应用. CN: CN111732644B, 2021-11-16.[3] 刘志勇, 郭广昊, 谢菁忠, 王勇, 吴秋红, 陆平, 陈永兴, 董玲丽. 植物白粉病抗性相关蛋白Pm5e及其编码基因和应用. CN: CN111763249B, 2021-11-16.[4] 刘志勇, 陆平, 王振忠. 小麦白粉病抗性相关蛋白Pm24及其编码基因和应用. CN: CN112010953B, 2021-11-12.[5] 刘志勇, 郭广昊, 谢菁忠, 王勇, 吴秋红, 陆平, 陈永兴, 董玲丽. 一种与小麦白粉病抗病基因Pm5e共分离的SNP及其应用. CN: CN111719008B, 2021-11-09.[6] 刘志勇, 吴秋红, 崔钰, 王国鑫, 陈永兴, 张盼盼, 郭广昊, 张怀志, 陆平, 李淼淼, 董玲丽. 短柄草Bsr1蛋白及其编码基因与应用. CN: CN112608370A, 2021-04-06.[7] 刘志勇, 李淼淼, 王振忠, 李贝贝, 董玲丽, 陆平, 吴秋红, 陈永兴. 小麦抗白粉病相关基因Pm41的功能型分子标记及其应用. CN: CN112176083A, 2021-01-05.[8] 孙其信, 臧新山, 彭惠茹, 倪中福, 姚颖垠, 解超杰, 尤明山, 梁荣奇, 杜金昆, 胡兆荣, 刘志勇. 植物耐逆相关蛋白TaOEP16-2及其编码基因和应用. CN: CN103848907A, 2014-06-11.[9] 孙其信, 臧新山, 彭惠茹, 倪中福, 姚颖垠, 解超杰, 尤明山, 梁荣奇, 杜金昆, 胡兆荣, 刘志勇. 植物耐逆相关蛋白TaPEPKR2及其编码基因和应用. CN: CN103848908A, 2014-06-11.[10] 孙其信, 王飞, 彭惠茹, 倪中福, 姚颖垠, 解超杰, 尤明山, 梁荣奇, 杜金昆, 胡兆荣, 刘志勇. 植物耐热相关蛋白TaOPR3及其编码基因和应用. CN: CN103819548A, 2014-05-28.[11] 孙其信, 梁荣奇, 倪中福, 李保云, 尤明山, 彭惠茹, 解超杰, 秦丽燕, 王树斌, 姚颖垠, 杜金昆, 刘志勇. 一种与植物耐热性相关的蛋白及其编码基因与应用. CN: CN103665128A, 2014-03-26.[12] 梁荣奇, 倪中福, 许兰杰, 张小华, 侯起岭, 尤明山, 解超杰, 李保云, 彭惠茹, 姚颖垠, 杜金昆, 刘志勇, 胡兆荣, 孙其信. 表达抑制麦长管蚜脂蛋白酯酶的发卡RNA的DNA分子及其应用. CN: CN103667294A, 2014-03-26.[13] 梁荣奇, 倪中福, 许兰杰, 段晓亮, 吕延华, 尤明山, 解超杰, 李保云, 彭惠茹, 姚颖垠, 杜金昆, 刘志勇, 胡兆荣, 孙其信. 表达抑制麦长管蚜羧酸酯酶的发卡RNA的DNA分子及其应用. CN: CN103589728A, 2014-02-19.[14] 孙其信, 彭惠茹, 谢颂朝, 田雪军, 倪中福, 姚颖垠, 解超杰, 尤明山, 梁荣奇, 杜金昆, 胡兆荣, 刘志勇. 植物耐逆相关蛋白TaUCP1及其编码基因和应用. CN: CN103524609A, 2014-01-22.[15] 梁荣奇, 段晓亮, 沈红霞, 倪中福, 孙其信, 刘志勇, 解超杰, 尤明山. 人工合成的抗虫相关蛋白及其编码基因与应用. CN: CN103224953A, 2013-07-31.[16] 解超杰, 孙其信, 杨作民, 倪中福, 刘志勇, 辛明明, 沈红霞. 辅助鉴定抗白粉病植物的方法及其专用引物. CN: CN102559911A, 2012-07-11.[17] 彭惠茹, 周春蕾, 孙其信, 倪中福, 姚颖垠, 梁荣奇, 解超杰, 刘志勇, 杜金昆, 秦丹丹. 与植物耐热性相关的蛋白及其编码基因与应用. CN: CN101585870B, 2011-11-16.[18] 梁荣奇, 孙其信, 倪中福, 李保云, 尤明山, 彭惠茹, 解超杰, 秦丽燕, 王树彬, 姚颖垠, 杜金昆, 刘志勇. 表达抑制小麦SBEIIa的发卡RNA的DNA分子及其应用. CN: CN102212523A, 2011-10-12.[19] 梁荣奇, 孙其信, 倪中福, 李保云, 尤明山, 彭惠茹, 解超杰, 赵琰, 隋晓燕, 姚颖垠, 杜金昆, 刘志勇. 一种培育籽粒中铁含量提高的转基因小麦的方法. CN: CN102181478A, 2011-09-14.[20] 孙其信, 秦丹丹, 彭惠茹, 倪中福, 姚颖垠, 梁荣奇, 解超杰, 刘志勇, 杜金昆. 耐热性相关蛋白及其编码基因与应用. CN: CN101585871A, 2009-11-25.[21] 孙其信, 佟少明, 聂秀玲, 倪中福, 彭惠茹, 姚颖垠, 解超杰, 刘志勇. 一种植物抗逆锌指蛋白及其编码基因与应用. CN: CN1908011A, 2007-02-07.
出版信息
发表论文
[1] Yusheng Zhao, Zhiyong Liu. Ring the yield: regulation of spike architecture by an E3 ubiquitin ligase in crops. JOURNAL OF EXPERIMENTAL BOTANY. 2023, 74(17): 4889-4891, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10498019/.[2] Yang, Jian, Zhang, Yue, Hu, Weiguo, Zhou, Yanjie, Wang, Xicheng, Zhao, Hong, Zhou, Shenghui, Liu, Zhiyong, Cao, Tingjie. Characterization of a QTL on 7B for tiller number at the seedling stage in wheat landrace Yanda 1817. EUPHYTICA[J]. 2023, 219(4): http://dx.doi.org/10.1007/s10681-023-03168-3.[3] Zhao, Xuebo, Guo, Yafei, Kang, Lipeng, Yin, Changbin, Bi, Aoyue, Xu, Daxing, Zhang, Zhiliang, Zhang, Jijin, Yang, Xiaohan, Xu, Jun, Xu, Song, Song, Xinyue, Zhang, Ming, Li, Yiwen, Kear, Philip, Wang, Jing, Liu, Zhiyong, Fu, Xiangdong, Lu, Fei. Population genomics unravels the Holocene history of bread wheat and its relatives. NATURE PLANTS[J]. 2023, 9(3): 403-+, http://dx.doi.org/10.1038/s41477-023-01367-3.[4] Zhu, Shanying, Liu, Cheng, Gong, Shuangjun, Chen, Zhaozhao, Chen, Rong, Liu, Tianlei, Liu, Renkang, Du, Haonan, Guo, Rui, Li, Genying, Li, Miaomiao, Fan, Renchun, Liu, Zhiyong, Shen, QianHua, Gao, Anli, Ma, Pengtao, He, Huagang. Orthologous genes Pm12 and Pm21 from two wild relatives of wheat show evolutionary conservation but divergent powdery mildew resistance. PLANT COMMUNICATIONS[J]. 2023, 4(2): http://dx.doi.org/10.1016/j.xplc.2022.100472.[5] Shengnan Li, Dexing Lin, Yunwei Zhang, Min Deng, Yongxing Chen, Bin Lv, Boshu Li, Yuan Lei, Yanpeng Wang, Long Zhao, Yueting Liang, Jinxing Liu, Kunling Chen, Zhiyong Liu, Jun Xiao, Jin-Long Qiu, Caixia Gao. Genome edited powdery mildew resistance in wheat without growth penalties. Nature[J]. 2022, 602: 455-460, [6] Zhu, Keyu, Li, Miaomiao, Wu, Haibin, Zhang, Deyun, Dong, Lingli, Wu, Qiuhong, Chen, Yongxing, Xie, Jingzhong, Lu, Ping, Guo, Guanghao, Zhang, Huaizhi, Zhang, Panpan, Li, Beibei, Li, Wenling, Dong, Lei, Wang, Qifei, Zhu, Jinghuan, Hu, Wenli, Guo, Liqiao, Wang, Rongge, Yuan, Chengguo, Li, Hongjie, Liu, Zhiyong, Hua, Wei. Fine mapping of powdery mildew resistance gene MlWE74 derived from wild emmer wheat (Triticum turgidum ssp. dicoccoides) in an NBS-LRR gene cluster. THEORETICAL AND APPLIED GENETICS[J]. 2022, 135(4): 1235-1245, http://dx.doi.org/10.1007/s00122-021-04027-2.[7] Fei Zhao, 刘志勇, yijing zhang. Utility of Triti-Map for bulk-segregated mapping of causal genes and regulatory elements in Triticeae. Plant Communications[J]. 2022, [8] Jun Xiao, Bao Liu, Yingyin Yao, Zifeng Guo, Haiyan Jia, Lingrang Kong, Aimin Zhang, Wujun Ma, Zhongfu Ni, Shengbao Xu , Fei Lu, Yuannian Jiao, Wuyun Yang , 刘志勇, 种康. Wheat genomic study for genetic improvement of traits in China. Science China Life Sciences[J]. 2022, 65(9): 1718-1775, https://www.sciengine.com/SCLS/doi/10.1007/s11427-022-2178-7;JSESSIONID=c28b0ff2-f0cc-4f05-9816-cd6aa4cae687.[9] Hu, Jinghuang, Gebremariam, Tesfay Gebrekirstos, Zhang, Peng, Qu, Yunfeng, Qiu, Dan, Shi, Xiaohan, Li, Yahui, Wu, Qiuhong, Luo, Ming, Yang, Lijian, Zhang, Hongjun, Yang, Li, Liu, Hongwei, Zhou, Yang, Liu, Zhiyong, Wang, Baotong, Li, Hongjie. Resistance to Powdery Mildew Is Conferred by Different Genetic Loci at the Adult-Plant and Seedling Stages in Winter Wheat Line Tianmin 668. PLANT DISEASE. 2022, http://dx.doi.org/10.1094/PDIS-11-22-2633-RE.[10] Qiuhong Wu, Yongxing Chen, Beibei Li, Jing Li, Panpan Zhang, Jingzhong Xie, Huaizhi Zhang, Guanghao Guo, Ping Lu, Miaomiao Li, Keyu Zhu, Wenling Li, Tzion Fahima, Eviatar Nevo, Hongjie Li, Lingli Dong, Zhiyong Liu. Functional characterization of powdery mildew resistance gene MlIW172, a new Pm60 allele and its allelic variation in wild emmer wheat. JOURNAL OF GENETICS AND GENOMICS[J]. 2022, 49(8): 787-795, http://dx.doi.org/10.1016/j.jgg.2022.01.010.[11] Li, Yahui, Lin, Ruiming, Hu, Jinghuang, Shi, Xiaohan, Qiu, Dan, Wu, Peipei, Goitom, Gebremedhin Habteab, Wang, Siqi, Zhang, Hongjun, Yang, Li, Liu, Hongwei, Wu, Qiuhong, Xie, Jingzhong, Zhou, Yang, Liu, Zhiyong, Li, Hongjie. Mapping of wheat stripe rust resistance gene Yr041133 by BSR-Seq analysis. CROP JOURNAL[J]. 2022, 10(2): 447-455, http://dx.doi.org/10.1016/j.cj.2021.06.009.[12] Dan Qiu, Dan Qiu, 刘志勇. The Pm5e Gene Has No Negative Effect on Wheat Agronomic Performance: Evidence From Newly Established Near-Isogenic Lines. Frontiers in Plant Science[J]. 2022, [13] 李淼淼, 刘志勇. Provoking a silent R gene in wheat genome confers resistance to powdery mildew. Plant Biotechnology Journal[J]. 2022, [14] Habteab Goitom Gebremedhin, Yahui Li, Jinghuang Hu, Dan Qiu, Qiuhong Wu, Hongjun Zhang, Li Yang, Yang Zhou, Yijun Zhou, Zhiyong Liu, Peng Zhang, Hongjie Li. Development of KASP and SSR Markers for PmQ , a Recessive Gene Conferring Powdery Mildew Resistance in Wheat Landrace Qingxinmai. AGRICULTURE[J]. 2022, 12: https://doaj.org/article/d18d701a72ab445bac5a743a93666a5c.[15] 刘志勇. The CC–NB–LRR protein BSR1 from Brachypodium confers resistance to Barley stripe mosaic virus in gramineous plants by recognising TGB1 movement protein. New Phytologist[J]. 2022, 236: 2233-2248, [16] Xiaoyu Zhang, Haiyan Jia, Li Tian, Jizheng Wu, 刘志勇, Brett F. Carver, Liuling Yan. TaCol-B5 modifies spike architecture and enhances grain yield in wheat. Science[J]. 2022, [17] Elena Salina, 刘志勇. Dissection of Structural Reorganization of Wheat 5B Chromosome Associated With Interspecies Recombination Suppression. Frontiers in Plant Science[J]. 2022, [18] Keyu Zhu, Miaomiao Li, 刘志勇, Wei Hua. Fine mapping of powdery mildew resistance gene MlWE74 derived from wild emmer wheat (Triticum turgidum ssp. dicoccoides) in an NBS‑LRR gene cluster. Theor Appl Gentic[J]. 2022, [19] Li, Yinghui, Wei, ZhenZhen, Fatiukha, Andrii, Jaiwar, Samidha, Wang, Hanchao, Hasan, Samiha, Liu, Zhiyong, Sela, Hanan, Krugman, Tamar, Fahima, Tzion. TdPm60 identified in wild emmer wheat is an ortholog of Pm60 and constitutes a strong candidate for PmG16 powdery mildew resistance (Jun, 10.1007/s00122-021-03858-3, 2021). THEORETICAL AND APPLIED GENETICS. 2021, http://dx.doi.org/10.1007/s00122-021-03894-z.[20] Wu, Qiuhong, Chen, Yongxing, Xie, Jingzhong, Dong, Lingli, Wang, Zhenzhong, Lu, Ping, Wang, Rongge, Yuan, Chengguo, Zhang, Yan, Liu, Zhiyong, 刘志勇. A 36 Mb terminal deletion of chromosome 2BL is responsible for a wheat semi-dwarf mutation. CROP JOURNAL[J]. 2021, 9(4): 873-881, [21] Xiaocui Yan, Miaomiao Li, Peipei Zhang, Guihong Yin, Huaizhi Zhang, Takele Weldu Gebrewahid, Jianping Zhang, Lingli Dong, Daqun Liu, Zhiyong Liu, Zaifeng Li, 刘志勇. High-temperature wheat leaf rust resistance gene Lr13 exhibits pleiotropic effects on hybrid necrosis. MOLECULAR PLANT[J]. 2021, 14(7): 1029-1032, http://dx.doi.org/10.1016/j.molp.2021.05.009.[22] Wu, Peipei, Yang, Li, Guo, Guanghao, Hu, Jinghuang, Qiu, Dan, Li, Yahui, Shi, Xiaohan, Zhang, Hongjun, Liu, Hongwei, Zhao, Juntao, Sun, Guozhong, Zhou, Yang, Liu, Zhiyong, Li, Hongjie. Molecular mapping and identification of a candidate gene for new locus Hg2 conferring hairy glume in wheat. PLANT SCIENCE[J]. 2021, 307: http://dx.doi.org/10.1016/j.plantsci.2021.110879.[23] Li, Yinghui, Wei, ZhenZhen, Fatiukha, Andrii, Jaiwar, Samidha, Wang, Hanchao, Hasan, Samiha, Liu, Zhiyong, Sela, Hanan, Krugman, Tamar, Fahima, Tzion. TdPm60 identified in wild emmer wheat is an ortholog of Pm60 and constitutes a strong candidate for PmG16 powdery mildew resistance. THEORETICAL AND APPLIED GENETICS[J]. 2021, 134(9): 2777-2793, http://dx.doi.org/10.1007/s00122-021-03858-3.[24] Shi, Xiaohan, Wu, Peipei, Hu, Jinghuang, Qiu, Dan, Qu, Yunfeng, Li, Yahui, Liu, Yi, Gebremariam, Tesfay Gebrekirstos, Xie, Jingzhong, Wu, Qiuhong, Zhang, Hongjun, Liu, Hongwei, Yang, Li, Sun, Guozhong, Zhou, Yang, Liu, Zhiyong, Li, Hongjie. Molecular Characterization of All-Stage and Adult-Plant Resistance Loci Against Powdery Mildew in Winter Wheat Cultivar Liangxing 99 Using BSR-Seq Technology. PLANT DISEASE[J]. 2021, 105(11): 3443-3450, http://dx.doi.org/10.1094/PDIS-03-21-0664-RE.[25] Wu, Qiuhong, Zhao, Fei, Chen, Yongxing, Zhang, Panpan, Zhang, Huaizhi, Guo, Guanghao, Xie, Jingzhong, Dong, Lingli, Lu, Ping, Li, Miaomiao, Ma, Shengwei, Fahima, Tzion, Nevo, Eviatar, Li, Hongjie, Zhang, Yijing, Liu, Zhiyong. Bulked segregant CGT-Seq-facilitated map-based cloning of a powdery mildew resistance gene originating from wild emmer wheat (Triticum dicoccoides). PLANT BIOTECHNOLOGY JOURNAL[J]. 2021, 19(7): 1288-1290, http://dx.doi.org/10.1111/pbi.13609.[26] Li, Miaomiao, Dong, Lingli, Li, Beibei, Wang, Zhengzhong, Xie, Jingzhong, Qiu, Dan, Li, Yahui, Shi, Wenqi, Yang, Lijun, Wu, Qiuhong, Chen, Yongxing, Lu, Ping, Guo, Guanghao, Zhang, Huaizhi, Zhang, Panpan, Zhu, Keyu, Li, Yiwen, Zhang, Yan, Wang, Rongge, Yuan, Chengguo, Liu, Wei, Yu, Dazhao, Luo, MingCheng, Fahima, Tzion, Nevo, Eviatar, Li, Hongjie, Liu, Zhiyong. A CNL protein in wild emmer wheat confers powdery mildew resistance. NEW PHYTOLOGIST[J]. 2020, 228(3): 1027-1037, https://www.webofscience.com/wos/woscc/full-record/WOS:000550808600001.[27] Yang, Jian, Zhou, Yanjie, Hu, Weiguo, Zhang, Yue, Zhou, Yong, Chen, Yongxing, Wang, Xicheng, Zhao, Hong, Cao, Tingjie, Liu, Zhiyong, 刘志勇. Unlocking the relationships among population structure, plant architecture, growing season, and environmental adaptation in Henan wheat cultivars. BMC PLANT BIOLOGY[J]. 2020, 20(1): http://dx.doi.org/10.1186/s12870-020-02674-z.[28] Xie, Jingzhong, Guo, Guanghao, Wang, Yong, Hu, Tiezhu, Wang, Lili, Li, Jingting, Qiu, Dan, Li, Yahui, Wu, Qiuhong, Lu, Ping, Chen, Yongxing, Dong, Lingli, Li, Miaomiao, Zhang, Huaizhi, Zhang, Panpan, Zhu, Keyu, Li, Beibei, Deal, Karin R, Huo, Naxin, Zhang, Yan, Luo, MingCheng, Liu, Sanzhen, Gu, Yong Qiang, Li, Hongjie, Liu, Zhiyong. A rare single nucleotide variant inPm5econfers powdery mildew resistance in common wheat. NEW PHYTOLOGIST[J]. 2020, 228(3): 1011-1026, https://www.webofscience.com/wos/woscc/full-record/WOS:000552640100001.[29] Xu, Xiaodan, Liu, Wei, Liu, Zhiyong, Fan, Jieru, Zhou, Yilin. Mapping Powdery Mildew Resistance Gene pmYBL on Chromosome 7B of Chinese Wheat (Triticum aestivum L.) Landrace Youbailan. 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科研活动
科研项目
( 1 ) 短柄草抗大麦条纹花叶病毒基因Bsr1克隆及其与BSMV互作研究, 主持, 国家级, 2013-01--2017-12( 2 ) 小麦抗叶枯病基因Sb2图位克隆, 主持, 国家级, 2016-01--2020-12( 3 ) 玉米小麦等抗病基因克隆, 主持, 国家级, 2016-01--2020-12( 4 ) 小麦抗白粉病基因克隆与功能验证, 主持, 国家级, 2014-01--2016-12( 5 ) 小麦种质创新与基因克隆, 主持, 部委级, 2016-01--2016-12( 6 ) 增加粒重的遗传基础及其调控网络, 主持, 国家级, 2016-07--2020-12( 7 ) 小麦基因发掘、种质创新和新品种培育, 主持, 市地级, 2017-01--2020-12( 8 ) 高产多抗优质广适小麦新品种创新培育, 主持, 部委级, 2018-01--2019-06
指导学生
现指导学生
陈智斌 博士研究生 071007-遗传学
张怀志 博士研究生 071007-遗传学
郭广昊 博士研究生 071007-遗传学
张盼盼 博士研究生 071007-遗传学
李雯玲 博士研究生 071007-遗传学
李贝贝 硕士研究生 071007-遗传学
朱科宇 博士研究生 071007-遗传学