2006年,四川农业大学农学院,学士学位
2011年,四川农业大学,水稻研究所,博士学位
2009-2011年,耶鲁大学,分子细胞发育生物学系,访问博士生
2012-2014年,beat365官方网站-耶鲁大学植物分子遗传及农业生物技术联合中心,博士后
2012-2015年,四川农业大学,水稻研究所,助理研究员
2015-2023年,beat365官方网站,副教授
2023年-至今,beat365官方网站,教授
B.S. 2006, Sichuan Agricultural University, Biotechnology;
Ph.D. 2011, Sichuan Agricultural University, Crop Genetics and Breeding;
Visiting Fellow, Yale University, 2009-2011;
Postdoctor, Peking University/Yale University, 2012-2014;
Associate Professor, School of Life Sciences, Xiamen University, 2015 to 2023;
Professor, School of Life Sciences, Xiamen University, 2023 to Present.
基础研究:
作物的纬度适应性是指在特定的生态环境,作物全生育期与该生态区作物生长季节保持一致,从而实现产量最大化。作物纬度适应性对于品种选育与引种、杂交种制种与产量都极为重要。团队近年来围绕水稻光周期网络调控纬度适应性的科学问题开展研究工作获得如下成果:
1)鉴定到水稻光周期网络调控纬度适应性的核心模块关键组分Hd1-DTH8(Molecular Plant, 2017);
2) 建立日长识别预测系统(DEAS)定量描述了水稻的感光性,阐明了核心模块Hd1-DTH8-Ghd7-DTH7等位组合决定日长识别方式,从而调控水稻纬度适应性(Nature Food, 2021; Frontier in Plant Science, 2021; Plants, 2023);
3)解析了杂交籼稻通过携带特定光周期模块产生渐变日长识别方式,配合耕作制度优化实现纬度广适性。纬度广适的高产杂交籼稻通过大面积推广,迅速提升全国水稻单产水平,实现我国水稻产量全面提升(Plant Communications, 2023; Seed Biology; 2023)。
近年,团队正围绕“三性”(感光性、感温性和基本营养生长性)互作调控水稻纬度适应性的科学问题开展工作,拟通过挖掘关键基因、阐明调控机理、建立预测模型,实现水稻纬度适应性的精准预测和分子改良。
应用研究:
beat365官方网站植物遗传育种团队长期致力于优质双季稻育种40年,先后育出佳禾早占、佳辐占等优质籼稻18个,累积推广面积达到1200万亩,增创社会经济效益20多亿元。“优质早稻新品种佳辐占的选育与应用”获2006年福建省科学技术奖一等奖。2008年至今, beat365官方网站选育早稻和常规稻品种推广面积均位于福建省第一位。近年来,团队又先后育成佳禾165、佳禾336等10多个高产优质水稻新品种通过审定。其中,佳禾165被推选为2023年福建省农业主导品种。
近年来,随着国家农业战略布局调整,南方稻区在原有双季稻-蔬菜(或冬闲)耕作模式基础上,逐渐增加稻-稻-油、稻-再-油、烟草-稻等耕作新模式,因此,双季稻纬度适应性需要重新调整以满足多样化的耕作制度。团队结合水稻纬度适应性基础研究与优质双季稻育种的双重优势,拟通过生育期精准调控实现水稻纬度适应性的分子改良,培育具有丰产性、优质性、抗性、广适性的水稻新品种,服务国家战略需求。
代表性论文(# co-first author, * Corresponding author):
1. Xiaoying Wang#; Haicheng Huang#; Ming Lu#; Yuchao Cui; Rongyu Huang; Xiangfeng Wang; Ran Fu; Wei Liang*; Xinhao Ouyang*; Expanding crop adaptability to increase planting area: a promising strategy for enhancing agricultural production, Seed Biology, 2023 (广适增产理论)
2. Leilei Qiu#; Peng Zhou#; Xiaoying Wang; Cheng Zhang; Chengxing Du; Shujun Tian; Qinqin Wu; Litian Wei; Xiaoying Wang; Yiming Zhou; Rongyu Huang; Xi Huang; Xinhao Ouyang*; Photoperiod Genes Contribute to Daylength-Sensing and Breeding in Rice, Plants, 2023 (光周期网络非核心基因在纬度适应性改良中的应用潜力)
3. Xiaoying Wang#; Jiupan Han#; Rui Li; Leilei Qiu; Cheng Zhang; Ming Lu; Rongyu Huang; Xiangfeng Wang; Jianfu Zhang; Huaan Xie; Shigui Li; Xi Huang; and Xinhao Ouyang*; Gradual Daylength Sensing Coupled with Optimum Cropping Modes Enhanced Multi-Latitude Adaptation of Rice and Maize, Plant Communications, 2023 (杂交籼稻纬度广适性的形成机制)
4. Wei Tian; Xi Huang; and Xinhao Ouyang*; Genome-wide prediction of activating regulatory elements in rice by combining STARR-seq with FACS, Plant Biotechnology Journal, 2022 (水稻全基因组增强子捕获技术)
5. Xiaoying Wang; Peng Zhou; Rongyu Huang; Jianfu Zhang and Xinhao Ouyang* ; A Daylength Recognition Model of Photoperiodic Flowering, Frontiers in Plant Science, 2021. (综述水稻日长识别模型)
6. Leilei Qiu; Qinqin Wu; Xiaoying Wang; Jiupan Han; Gui Zhuang; Hao Wang; Zhiyun Shang; Wei Tian; Zhuo Chen; Zechuan Lin; Hang He; Jie Hu; Qiming Lv; Juansheng Ren; Jun Xu; Chen Li; Xiangfeng Wang; Yang Li; Shaohua Li; Rongyu Huang; Xu Chen; Cheng Zhang; Ming Lu; Chengzhi Liang; Peng Qin; Xi Huang; Shigui Li; and Xinhao Ouyang*; Forecasting of Rice Latitude Adaptation through a Daylength-sensing-based Environment Adaptation Simulator (DEAS), Nature Food, 2021.(创建日长识别预测系统定量描述感光性,建立水稻光周期核心模块-日长识别方式-纬度适应性的联动关系)
7. Xinhao Ouyang; Hui Ren; Xi Huang*; Optogenetic tools controlled by ultraviolet-B light, aBIOTECH, 2021.(综述光遗传学工具)
8. Leilei Qiu; Xiaoying Wang; Gui Zhuang; Xinhao Ouyang*; Xi Huang*; Chromosomal Looping-Based Expression Activation System in Yeast, Small Methods, 2021. (创建光遗传学工具操控增强子与启动子互作)
9. Anping Du; Wei Tian; Menghao Wei; Wei Yan; Hang He; Da Zhou; Xi Huang; Shigui Li*; Xinhao Ouyang*; The DTH8-Hd1 Module Mediates Day-Length-Dependent Regulation of Rice Flowering, Molecular Plant, 2017.(水稻光周期网络调控纬度适应性核心模块关键组分的鉴定与功能分析)
10. Xinhao Ouyang#; Xi Huang#; Xiao Jin; Zheng Chen; Panyu Yang; Hao Ge; Shigui Li; Xing Wang Deng*; Coordinated photomorphogenic UV-B signaling network captured by mathematical modeling, PNAS, 2014.(微分方程组数学模型在植物光信号中的利用)
11. Xinhao Ouyang #; Jigang Li#; Gang Li#; Bosheng Li#; Beibei Chen; Huaishun Shen; Xi Huang; Xiaorong Mo; Xiangyuan Wan; Rongcheng Lin; Shigui Li; Haiyang Wang; Xing Wang Deng*; Genome-wide binding site analysis of FAR-RED ELONGATED HYPOCOTYL3 reveals its novel function in Arabidopsis development, Plant Cell, 2011.(植物光信号关键转录因子的功能研究)
12. Xi Huang#; Xinhao Ouyang#; Panyu Yang; Onsun Lau; Gang Li; Jigang Li; Haodong Chen; Xing Wang Deng*; Arabidopsis FHY3 and HY5 positively mediate induction of COP1 transcription in response to photomorphogenic UV-B light, Plant Cell, 2012. (*equal contribution) (植物光信号关键转录因子的功能研究)
13. Junming Zhao#; Xi Huang#; Xinhao Ouyang#*; Weilan Chen; Anping Du; Lin Zhu; Shiguang Wang; Xing Wang Deng; Shigui Li*; OsELF3-1, an ortholog of Arabidopsis EARLY FLOWERING 3 regulates rice circadian rhythm and photoperiodic flowering, PLos One, 2012. (*equal contribution) (水稻生物节律钟关键因子OsELF3-1的克隆与功能分析)
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