教师基本信息/ PI information:
姓名:王君
职称:青年研究员
职务:课题组长(PI),博士生导师
电子邮箱:junwang90@fudan.edu.cn
办公地点:复旦大学江湾校区生命科学学院E401-9
Name: Jun Wang
Title: Youth Professor
Job: Principal Investigator
Email: junwang90@fudan.edu.cn
Office: E401-9, College of Life Science, Jiangwan Campus, Fudan University
研究方向/ Research interests:
1) 以豆科和十字花科为模式生物,基于多组学数据,细胞生物学,生物化学和遗传学等手段探究调控植物生殖发育的新基因和机制及其在生物育种中的应用;
2) 在被子植物和种子植物等大尺度下,整合进化生物学,基因组学、分子生物学和遗传学等探究生殖发育和环境适应性的进化历程,揭示保守或特异的生殖和进化的机制;
3) 结合计算生物学、高通量组学、细胞生物学、遗传学等方法从事动植物保守的基因转录和转录后表达调控的共性分析。包括表观遗传,染色质和RNA的结构、剪接,修饰等层面的调控等。
1) New genes and mechanisms of reproductive development in soybean and Arabidopsis, and molecular breeding in soybean;
2) Evolution and Development of reproduction and environmental responses;
3) Transcriptional and post-transcriptional regulation in animal and plant, and their conserved mechanisms.
个人简介/ Personal statement:
2024年底起,于复旦大学生命科学学院任青年研究员,独立PI,博士生导师;2022年至2024年,于美国宾夕法尼亚州立大学生物系任助理研究教授;2017年至2022年,于美国宾夕法尼亚州立大学科学学院生物系从事博士后研究;2017年,理学博士毕业于复旦大学(硕博连读)。在NaturePlants (2篇),PlantCell (2篇),PNAS,PLoSGenetics,BMC Plant Biology等国际期刊发表多篇论文,申请美国专利1项,受邀撰写Nature Plants Research Briefing。担任NaturePlants,New Phytologist,Plant Physiology等国际杂志审稿人。入选“国家海外高层次青年人才项目(2024)”和“上海市领军人才海外项目(2023)”。
2024, Youth PI at Fudan University; 2022-2024, Research Assistant Professor at Penn State; 2017-2024, Postdoc at Penn State.
Publications in NaturePlants, PlantCell, PNAS and others.
Reviewers at NaturePlants, New Phytologist, Plant Physiology and others.
授课情况/ Teaching:
一年级本科生创新实验课-授课助理,美国宾西法尼亚州立大学,2023春季
一年级本科生创新实验课-授课助理,美国宾西法尼亚州立大学,2024春季
Assistant teaching in First-Year Research Initiative (FRI), Penn State, 2023 Spring
Assistant teaching in First-Year Research Initiative (FRI), Penn State, 2024 Spring
招生专业/Programs:
生物化学与分子生物学
Biochemistry and Molecular Biology (BMB)
代表性论文和论著/ Publications:
1. Wang J., Ma X.W., Feng G. H. Hu Y., Guo C. C., Zhang X. and Ma H.# (2024). Regulation of micro and small exon retention by GRP20 for flower development.Nature Plants10, 66-86
2. Wang J. and Ma H.# (2024). GRP20 regulates micro exon retention via interaction with the spliceosome during flower development. Nature Plants 10, 1-2
3. Wang J.*, Yu C.*, Zhang S., Ye J., Dai H., Wang H., Huang J., Cao X., Ma J.#, Ma H.#, and Wang Y.X.# (2020). Cell-type-dependent histone demethylase specificity promotes meiotic chromosome condensation in Arabidopsis. Nature Plants6, 823-837.
4. Xue M.*, Wang J.*, Jiang L.*, Wolfe S., Pawlowski W.P.#, Wang Y.X.#, and He Y.# (2018). The number of meiotic double-strand breaks influences crossover number and distribution in Arabidopsis. Plant Cell30, 2628-2638.
5. Wang J., Niu B., Huang J., Wang H., Yang X., Dong A., Makaroff C., Ma H., and Wang Y.X.# (2016). The PHD finger protein MMD1/DUET ensures the progression of male meiotic chromosome condensation and directly regulates the expression of the condensin gene CAP-D3. Plant Cell28, 1894-1909.