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个人简介



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  • 性别:男
  • 职称:讲师
  • 学历:博士研究生
  • 学科:
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  • 电子邮件:phefor@163.com
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  • 简历更新:2020-07-12
个人简历
教育经历
2013/07-2015/10,中山大学,生命科学大学院,博士后 2008/09-2013/06,中山大学,生命科学学院,博士, 2000/09-2004/06,太原理工大学,材料科学与工程学院 ,本科
工作经历
2017/11-至今,华南师范大学,生命科学学院,讲师 2015/11-2017/10,福建农林大学,生命科学学院,讲师
研究方向
(1) 水稻生殖发育的分子机制 生殖发育是植物完成世代交替的关键过程,与种子作物的产量直接相关。对生殖发育的研究具有重要的理论和实践意义。本实验室主要以水稻为实验材料,研究雌雄配子体发生的分子机制。 (2) 水稻成花转变的分子机制 成花转变是指植物由营养生长期转入生殖生长期。本实验室采用正向和反向遗传学的方法挖掘参与水稻成花转变的关键基因,并揭示其作用机制。
讲授课程
分子生物学,本科生,必修课 植物生理性实验,本科生,必修课 植物学与人类生活,本科生,选修课
承担课题
1. 广州市科技计划项目,201804010034,JAZ16调控水稻花药发育的分子机理研究,2018/04-2021/03,20万元,在研,主持 2. 广东省自然科学基金,2017A030313104,JAZ蛋白COS2调控水稻花药发育的分子机制,2017/05-2020/05,10万元,在研,主持 3. 福建省自然科学基金,2017J01427,水稻化感物质稻壳酮 B 抑草的分子机制,2017/04-2020/03,9万元,在研,主持
论文专著

论文专著(#第一作者,*通讯作者)

按照以下格式,按照时间倒序列出,论文中所有作者都要列出。

[1]    Pan, X. #, Yan, W. #, Chang, Z., Xu, Y., Luo, M., Xu, C., Chen, Z. *, Wu, J.*and Tang, X. * (2020) OsMYB80 regulates anther development and pollen fertility by targeting multiple biological pathways. Plant Cell Physiol.

[2]    Shuting, Y. #, Chunjue, X. #, Wei, Y., Zheny, C., Xingwang, D., Zhufeng, C. *, Jianxin, W*. and Xiaoyan, T. *2020 Alternative Splicing of OsRAD1 Defines A C-Terminal Domain Essential for Protein Function in Meiosis. 水稻科学, 2.

[3]    Chang, Z. #, Xu, C. #, Huang, X., Yan, W., Qiu, S., Yuan, S., Ni, H., Chen, S., Xie, G., Chen, Z. *, Wu, J.*and Tang, X. * (2019) The plant-specific gene ABERRANT GAMETOGENESIS 1 is essential for meiosis in rice. J Exp Bot.

[4]    Peng, X. #, Wang, M. #, Li, Y., Yan, W., Chang, Z., Chen, Z., Xu, C., Yang, C., Wang Deng, X., Wu, J. * and Tang, X. * (2019) Lectin receptor kinase OsLecRK-S.7 is required for pollen development and male fertility. J Integr Plant Biol.

[5]    Chang, Z.#, Jin, M.#, Yan, W., Chen, H., Qiu, S., Fu, S., Xia, J., Liu, Y., Chen, Z.*, Wu, J.* and Tang, X. *(2018) The ATP-binding cassette (ABC) transporter OsABCG3 is essential for pollen development in rice. Rice (N Y), 11, 58.

[6]    Zheng, P. #, Wu, J.X. #, Sahu, S.K., Zeng, H.Y., Huang, L.Q., Liu, Z., Xiao, S. and Yao, N. * (2018) Loss of alkaline ceramidase inhibits autophagy in Arabidopsis and plays an important role during environmental stress response. Plant Cell Environ, 41, 837-849.

[7]    Li, J. #, Yin, J. #, Rong, C. #, Li, K.E. #, Wu, J.X. #, Huang, L.Q., Zeng, H.Y., Sahu, S.K. and Yao, N. * (2016) Orosomucoid Proteins Interact with the Small Subunit of Serine Palmitoyltransferase and Contribute to Sphingolipid Homeostasis and Stress Responses in Arabidopsis. The Plant cell, 28, 3038-3051.

[8]    Li, J.#, Bi, F.C.#, Yin, J., Wu, J.X., Rong, C., Wu, J.L. and Yao, N.* (2015) An Arabidopsis neutral ceramidase mutant ncer1 accumulates hydroxyceramides and is sensitive to oxidative stress. Front Plant Sci, 6, 460.

[9]    Wu, J.X., Li, J., Liu, Z., Yin, J., Chang, Z.Y., Rong, C., Wu, J.L., Bi, F.C. and Yao, N.* (2015) The Arabidopsis ceramidase AtACER functions in disease resistance and salt tolerance. The Plant journal : for cell and molecular biology, 81, 767-780.

[10]    Wu, J.X., Wu, J.L., Yin, J., Zheng, P. and Yao, N.* (2015) Ethylene Modulates Sphingolipid Synthesis in Arabidopsis. Front Plant Sci, 6, 1122.

[11]    Bi, F.C. #, Liu, Z. #, Wu, J.X., Liang, H., Xi, X.L., Fang, C., Sun, T.J., Yin, J., Dai, G.Y., Rong, C., Greenberg, J.T., Su, W.W. and Yao, N. (2014) Loss of ceramide kinase in Arabidopsis impairs defenses and promotes ceramide accumulation and mitochondrial H2O2 bursts. The Plant cell, 26, 3449-3467.


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