安學麗檢視原始碼討論檢視歷史
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安學麗,女,北京科技大學化學與生物工程學院教授。
人物簡歷
1996-2000.06:河南科技學院農學系,農學學士;2000-2003:西南大學(原西南農業大學)農學與生命科學學院,作物遺傳育種碩士;2003-2006:首都師範大學生命科學學院,植物學博士;2006-2012:中科院遺傳與發育生物學研究所,助理研究員;2012-2016:主要農作物種質創新國家重點實驗室/北京首佳利華科技有限公司,教授級高級工程師;2016年至今:北京科技大學化學與生物工程學院/融合創新研究院,生物與農業研究中心,教授、博士生導師。
科研方向
(1)玉米生物技術與基因編輯
(2)作物雄性不育基因挖掘與機理研究
社會職務
(1)國家農業生物技術產業技術創新戰略聯盟 副秘書長(2014年03月-至今)
(2)中國生物工程學會科普委員會委員(2020年10月-至今)
科研業績
已主持或主要參與完成國家和省部級項目15項,目前在研的國家和省部級項目:1)玉米雄性不育基因ZmMs33/ZmGPAT6調控花葯和花粉發育的分子機理研究,2020-2023年,國家自然科學基金面上項目,56萬元,課題負責人;2)玉米優異種質和新品種培育及示範應用,2019-2021年,北京市科技計劃,300萬元,課題主持人;3)黃淮冬麥區北片高產優質節水小麥新品種培育,2017-2021年,國家重點研發計劃,40萬元,課題主要參加人)。已在Nature、Molecular Plant、Proc Natl Acad Sci、Plant Biotechnology Journal等期刊發表論文45篇;申請發明專利41項,21項已獲授權。
學術成果
論文論著
已發表文章45篇,其中SCI論文32篇,出版專著1部。部分代表性論著如下: (1)Yilin Jiang#, Xueli An#, Ziwen Li#, Tingwei Yan#, Taotao Zhu, Ke Xie, Shuangshuang Liu, Quancan Hou, Lina Zhao, Suowei Wu, Xinze Liu, Shaowei Zhang, Wei He, Fan Li, Jinping Li, Xiangyuan Wan*. CRISPR/Cas9-based Discovery of Maize Transcription Factors Regulating Male Sterility and Their Functional Conservation in Plants. Plant Biotechnology Journal, 2021, 19: doi: 10.1111/pbi.13590. 【TOP1區期刊,SCI影響因子:8.154】, (# equal contribution).
(2)Ziwen Li#, Taotao Zhu#, Shuangshuang Liu#, Yilin Jiang, Haoyun Liu, Yuwen Zhang, Ke Xie, Jinping Li, Xueli An*, Xiangyuan Wan*. Genome-wide Analyses on Transcription Factors and Their Potential microRNA Regulators involved in Maize Male Fertility. The Crop Journal, 2021, doi:10.1016/j.cj.2021.03.016. 【TOP1區期刊,SCI影響因子:3.395】, (* correspondence) (3)Xueli An#, Biao Ma#, Meijuan Duan#, Zhenying Dong#, Ruogu Liu, Dingyang Yuan, Quancan Hou, Suowei Wu, Danfeng Zhang, Dongcheng Liu, Dong Yu, Yuwen Zhang, Ke Xie, Taotao Zhu, Ziwen Li, Simiao Zhang, Youhui Tian, Chang Liu, Jinping Li, Longping Yuan*, Xiangyuan Wan*. Molecular regulation of ZmMs7 required for maize male fertility and development of a dominant male-sterility system in multiple species. Proceedings of the National Academy of Sciences of the United States of America, 2020,117 (38): 23499-23509. 【TOP1區期刊,SCI影響因子:9.412】, (# equal contribution).
(4)Taotao Zhu#, Ziwen Li#, Xueli An#, Yan Long#, Xiaofeng Xue, Ke Xie, Biao Ma, Danfeng Zhang, Yijian Guan, Canfang Niu, Zhenying Dong, Quancan Hou, Lina Zhao, Suowei Wu, Jinping Li, Weiwei Jin, Xiangyuan Wan*. Chloroplasts in Endothecium Cells Are Critical for Anther Development via the Coordinated Interaction with Tapetal Cells in Maize. Molecular Plant, 2020,13 (11): 1624-1643. 【封面文章,Cell子刊,TOP1區期刊,SCI影響因子:12.084】,(# equal contribution). (5)Xueli An#, Zhenying Dong#, Youhui Tian#, Ke Xie#, Suowei Wu, Taotao Zhu, Danfeng Zhang, Yan Zhou, Canfang Niu, Biao Ma, Quancan Hou, Jianxi Bao, Simiao Zhang, Ziwen Li, Yanbo Wang, Tingwei Yan, Xiaojing Sun, Yuwen Zhang, Jinping Li, Xiangyuan Wan*. ZmMs30 Encoding a Novel GDSL Lipase is Essential for Male Fertility and Valuable for Hybrid Breeding in Maize. Molecular Plant, 2019, 12(3): 343- 359.【封面文章;Cell子刊,TOP1區期刊,SCI影響因子:12.084】,(# equal contribution).
(6)Ziwen Li#, Xueli An#, Taotao Zhu, Tingwei Yan, Suowei Wu, Youhui Tian, Jinping Li, Xiangyuan Wan*. Discovering and Constructing ceRNA-miRNA-Target Gene Regulatory Networks during Anther Development in Maize. International Journal of Molecular Sciences, 2019, 20 (14): 3480.【TOP2區期刊,SCI影響因子:4.556】,(# equal contribution).
(7)Danfeng Zhang#, Suowei Wu#, Xueli An#, Ke Xie#, Zhenying Dong#, Yan Zhou, Liwen Xu, Wen Fang, Shensi Liu, Shuangshuang Liu, Taotao Zhu, Jinping Li, Liqun Rao, Jiuran Zhao*, Xiangyuan Wan*. Construction of a multi-control sterility system for a maize male-sterile line and hybrid seed production based on the ZmMs7 gene encoding a PHD-finger transcription factor. Plant Biotechnology Journal, 2018, 16: 459-471. 【封面文章,TOP1區期刊,SCI影響因子:8.154】,(# equal contribution).
(8)Yiwen Li#, Xueli An#, Ran Yang#, Xiaomin Guo, Guidong Yue, Renchun Fan, Bin Li, Kunpu Zhang, Zhenying Dong, Luyan Zhang, Jiankang Zhang, Xu Jia, Hongqing Ling, Aimin Zhang*, Xiangqi Zhang*, Daowen Wang*. Dissecting and Enhancing the Contributions of High-Molecular-Weight Glutenin Subunits to Dough Functionality and Bread Quality. Molecluar Plant, 2015, 8: 332-334. 【Cell子刊,TOP1區期刊,SCI影響因子:12.084】,(# equal contribution).[1]