一、个人简介
博士、研究员,入选首批 福建省高等学校新世纪优秀人才支持计划。先后与中科院遗传发育所、香港中文大学(2008,2011-2012)、美国卡内基科学研究所斯坦福实验室(2019-2021)开展合作研究。在作物学领域已有二十余年的研究积累,主要从事植物分子遗传、基因工程和分子育种研究。主持国家 863计划、国家转基因重大专项、国家自然科学基金等十余项国家级课题,在国际权威学术期刊发表有关论文30余篇。目前,团队重点聚焦于水稻等作物关键农艺性状形成的遗传基础与作用机制、重要种质资源挖掘/创制与应用研究。
实验室具有一流的研究条件(1500余万元设备),先进的实验平台,安全、舒适的学习、工作环境。实验室与美国卡内基科学研究所斯坦福实验室、美国爱达荷大学、中科院遗传发育所、山东大学等密切合作,鼓励硕士生直接攻读博士学位。
二、主要方向
抗病/虫/逆境、衰老调控、种子发育、雌/雄育性、花器官形成、生育期调节、产量与品质改良等
三、承担的主要课题
(1) 国家自然科学基金, PTO1协调多个转录级联信号通路增强水稻苗期耐冷性的机制研究,65万。
(2) 国家自然科学基金, 水稻反温敏雄性不育基因 RTMS3的功能及其作用机理研究,72万。
(3) 国家自然科学基金,OsRBR1 控制水稻小穗形成的功能与调控机理研究,74万。
(4) 国家自然科学基金, 水稻抽穗期关键基因LBVP(t)的克隆与功能分析,68万。
(5) 国家自然科学基金, 水稻营养生长与花器官发育多效基因DDF1的克隆与功能分析,30万。
(6) 国家自然科学基金, 水稻雌雄蕊发育关键基因 PSD2 的克隆与功能分析,32万。
(7) 国家自然科学基金, 一个水稻生殖发育起始关键基因的克隆,17万。
(8) 国家转基因重大专项, 两个水稻包穗基因的克隆与功能验证,108万。
(9) 国家“863”计划, 水稻花器官发育关键基因及其作用网络的研究,50万。
(10) 国家“863”计划, 水稻重要功能基因Fzp等的克隆,60万。
(11)国家“863”计划, 水稻花发育关键基因的克隆与应用研究,54万。
四、发表的部分论文
(1) The MADS6, JAGGED, and YABBY proteins synergistically determine floral organ development in rice. Plant physiology, 2025, DOI:10.1093/plphys/kiaf076.
(2) JAGGED and DROOPING LEAF synergistically establish sexual organs and terminate floral meristem in rice. Plant Journal, 2025, Accepted.
(3) Thermo-Sensitive Spikelet Defects 1 acclimatizes rice spikelet initiation and development to high temperature. Plant physiology, 2023, 191:1684-1701.
(4) Glucan Synthase-like 2 is Required for Seed Initiation and Filling as Well as Pollen Fertility in Rice. Rice (N Y). 2023, 16:44.
(5) LUX ARRHYTHMO interacts with ELF3a and ELF4a to coordinate vegetative growth and photoperiodic flowering in rice.Frontiers in Plant Science, 2022, 13: 853042.
(6) Retinoblastoma-related Genes Specifically Control Inner Floral Organ Morphogenesis and Pollen Development in Rice. Plant Physiology, 2019, 181(4): 1600-1614.
(7) Screening and analysis of proteins interacting with OsMADS16 in rice. PLos One, 2019, 14(8): 0-e0221473.
(8) Fine mapping of a fertility restoring gene for a new CMS hybrid rice system, Molecular Breeding. 2016, 36(10): 141-145
(9) Fine mapping and candidate identification of SST, a gene controlling seedling salt tolerance in rice (Oryza sativa L.), Euphytica, 2015, 205(1):269-274
(10)Mapping of quantitative trait loci conferring resistance to bacterial wilt in tobacco (Nicotiana tabacum L). Plant Breeding, 2014, DOI: 10.1111/pbr.12202
(11) Toward the Positional Cloning of qBlsr5a, a QTL Underlying Resistance to Bacterial Leaf Streak, Using Overlapping Sub-CSSLs in Rice. PLoS ONE, 2014, 9(4):e95751
(12)Dwarf and deformed flower 1, encoding an F-box protein, is critical for vegetative and floral development in rice. Plant Journal, 2012, 72(5): 829-842.
(13) Characterization of Osmads6-5, a null allele, reveals that OsMADS6 is a critical regulator for early flower development in rice. Plant Molecular Biology, 2012, 80(4-5): 429-442.
(14) Genetic analysis and mapping of an enclosed panicle mutant locus esp1 in rice (Oryza sativa L.). J Int. Agr., 2012, 11(12): 101–108.
(15) Genetic analysis and fine mapping of an enclosed panicle mutant esp2 in rice (Oryza sativa L.). Chinese Science Bulletin, 2011, 56: 1476–1480.
(16) Molecular cloning and functional characterization of a Na+/H+ antiporter gene from halophyte Spartina anglica.Turk J Agric For., 2011, 35: 535–543
(17) Genetic analysis and gene mapping of DDF1, a pleiotropic gene involvingin both vegetable and reproductive growth in rice. HEREDITAS (Beijing),2011,33(12): 1374–1379.
(18) Knockdown of NtMed8, a Med8-like gene, causes abnormal development of vegetative and floral organs in tobacco. Plant Cell Rep., 2011, 30:2117–2129
(19) Molecular cloning and functional characterization of OsJAG gene based on a complete-deletion mutant in rice. Plant Molecular Biology, 2010, 74: 605-615.
(20) Fine mapping of cisc(t), a gene for cold-induced seedling chlorosis, and identification of its candidate in rice. Chinese Science Bulletin, 2010, 55: 3149–3153
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