杨仲南团队

实验室负责人：杨仲南 教授

杨仲南，上海师范大学生命科学学院教授，博士生导师。1985年毕业于南京大学，获学士学位；1993年毕业于中国科学院上海植物生理研究所，获博士学位；之后前往美国德州农工大学从事博士后研究。2002年，作为引进人才任教于上海师范大学。2002年获得上海市曙光学者，2008年获得上海市优秀学科带头人称号，2009年获得国家杰出青年基金。2015年入选国家百千万人才工程，并被授予“有突出贡献中青年专家”荣誉称号。2016年获上海市五一劳动奖章。2009年至2012年，任上海市植物生理学会副理事长。长期从事植物发育生物学、雄性不育与育性调控的研究。在植物生殖发育和光合作用领域已发表SCI论文40余篇，并多发表于Nature Plant, Nature Communication, Plant Cell,  Plant Journal，Plant Physiology和Molecular Plant等国际刊物。 2009年至2010年，还兼任Journal of Integrative Plant Biology编委。此外，曾多次主持国家自然科学基金重点项目、科技部973课题及子课题等、授权中国发明专利2项，日本发明专利1项。现任上海师范大学生命科学学院院长。

学术团队

教  授： 杨仲南、朱骏、余庆波、娄悦

副教授： 姚小贞、崔永兰、薛景石

讲  师： 张丞、王娜

实验师： 周鹊

研究方向：

植物雄性不育及育性调控机理：雄性不育分子机制开展了系统、全面的研究工作，通过研究众多雄性不育新基因的生物学功能，揭示与绒毡层发育相关的重要转录调控通路、花粉壁模式形成的分子机理以及花粉壁成分的组成。同时通过克隆模式植物/作物光温敏基因，并解析这些基因的功能，阐明光温敏不育的分子机理。这些研究不仅有助于了解植物雄性不育的分子机制，更为今后人工控制植物育性研究提供扎实的理论基础。

代表性科研项目：

1. 国家自然科学基金重点项目：温度调控花粉壁发育的机理。2020-2024.

2. 上海市教育委员会科研创新计划自然科学重大项目：植物光温敏育性调控机理。2018-2023.

3. 国家杰出青年科学基金：模式植物拟南芥花粉壁形成的分子机理。2010-2013.

4. 上海市优秀学科带头人计划：CDKG1调控花药发育的分子机理。 2011-2013.

5. 科技部重大科学研究计划：植物授粉细胞识别的分子机理及信号通路，第一课题：花粉表面识别物质的鉴定。2007-2011。

6. 国家自然科学基金重点项目：转录因子MYB103调控花粉发育的分子机理。2006-2009.

代表性论文：

1. Wu SY, Hou LL, Zhu J, Wang YC, Zheng YL, Hou JQ, Yang ZN, Lou Y* (2023)Ascorbic acid-mediated ROS homeostasis modulates the switch from tapetal cell division to cell differentiation in Arabidopsis. Plant Cell. 35(5):1474-1495.

2. Xue JS, Qiu S, Jia XL, Shen SY, Shen CW, Wang S, Xu P, Tong Q, Lou YX, Yang NY, Cao JG, Hu JF, Shen H, Zhu RL, Murray JD, Chen WS, Yang ZN* (2023) Stepwise changes in flavonoids in spores/pollen contributed to terrestrial adaptation of plants. Plant Physiol 193: 627-642.

3. Hu Z-Z, Jia X-L, Chen X, Yang ZN, Mao LM, Xue JS* (2023) Fluorescence lifetime imaging of sporopollenin: An alternative way to improve taxonomic level of identifying dispersed pollen and spores. Rev Palaeobot Palyno. 316: 104946.

4. Zhu BS, Zhu YX, Zhang YF, Zhong X, Pan KY, Jiang Y, Wen CK, Yang ZN*, Yao X*.(2022)Ethylene Activates the EIN2-EIN3/EIL1 Signaling Pathway in Tapetum and Disturbs Anther Development in Arabidopsis.Cells.11(19):3177.

5. Yang NY, Jia XL, Sui CX, Shen SY, Dai XL, Xue JS*, Yang ZN*. (2022) Documenting the Sporangium Development of the Polypodiales Fern Pteris multifida. Front Plant Sci.13:878693.

6. Xiong HB^#, Pan HM^#, Long QY^#, Wang ZY, Qu WT, Mei T, Zhang N, Xu XF, Yang ZN*, Yu QB*. (2022) AtNusG, a chloroplast nucleoid protein of bacterial origin linking chloroplast transcriptional and translational machineries, is required for proper chloroplast gene expression in Arabidopsis thaliana. Nucleic Acids Res. 50(12):6715-34.

7. Wang ZY, Qu WT, Mei T, Zhang N, Yang NY, Xu XF, Xiong HB, Yang ZN*, Yu QB*. (2022) AtRsmD Is Required for Chloroplast Development and Chloroplast Function in Arabidopsis thaliana. Front Plant Sci. 13:860945.

8. Zhang ZB, Zhan HD, Lu JY, Xiong SX, Yang NY, Yuan HY, Yang ZN^*. (2021) Tapetal 3-Ketoacyl-Coenzyme A synthases are involved in pollen coat lipid accumulation for pollen-stigma interaction in Arabidopsis. Front Plant Sci.12:770311.

9. Jia XL^#, Xue JS^#, Zhang F, Yao C, Shen SY, Sui CX, Peng YJ, Xu QL, Feng YF, Hu WJ, Xu P^*, Yang ZN^*. (2021) A dye combination for the staining of pollen coat and pollen wall. Plant Reprod. 34(2):91-101.

10. Zhang L, Chen J, Zhang L, Wei Y, Li Y, Xu X, Wu H, Yang ZN, Huang J, Hu F, Huang W^#, Cui YL^#. (2021)The pentatricopeptide repeat protein EMB1270 interacts with CFM2 to splice specific group II introns in Arabidopsis chloroplasts. J Integr Plant Biol. 63(11):1952-1966.

11. Kong M, Wu Y, Wang Z, Qu W, Lan Y, Chen X, Liu Y, Shahnaz P, Yang Z, Yu Q^#, Mi H^#. (2021) A Novel Chloroplast Protein RNA Processing 8 Is Required for the Expression of Chloroplast Genes and Chloroplast Development in Arabidopsis thaliana. Front Plant Sci. 12:700975.

12. Shi QS, Lou Y, Shen SY, Wang SH, Zhou L, Wang JJ, Liu XL, Xiong SX, Han Y, Zhou HS, Huang XH, Wang S, Zhu J*, Yang ZN*. 2021. A cellular mechanism underlying the restoration of thermo/photoperiod-sensitive genic male sterility. Mol Plant https://doi.org/10.1016/j.molp.2021.08.019.

14. Zhu J, Lou Y, Shi QS, Zhang S, Zhou WT, Yang J, Zhang C, Yao XZ, Xu T, Liu JL, Zhou L, Hou JQ, Wang JQ, Wang S, Huang XH and Yang ZN*. 2020. Slowing development restores the fertility of thermo-sensitive male-sterile plant lines. Nat. Plants 6:360-367.

15. Zhang C, Xu T, Ren MY, Zhu J, Shi QS, Zhang YF, Qi YW, Huang MJ, Song L, Xu P* and Yang ZN*. 2020. Slow development restores the fertility of photoperiod-sensitive male-sterile plant lines. Plant Physiol. 184: 923-932.

16. Lu JY, Xiong SX, Yin WZ, Teng XD, Lou Y, Zhu J, Zhang C, Wilson ZA* and Yang ZN*. 2020. MS1, a direct target of MS188, regulates the expression of key sporophytic pollen coat protein genes in Arabidopsis. J. Exp. Bot 71(16) 4877–4889.

17. Xiong SX, Zeng QY, Hou JQ, Hou LL, Zhu J, Yang M, Yang, ZN and Lou Y*. 2020. The temporal regulation of TEK contributes to pollen wall exine patterning. PLoS Genet16(5): e1008807.

18. Xue JS, Zhang B, Zhan H, Lv YL, Jia XL, Wang T, Yang NY, Lou YX, Zhang ZB, Hu WJ, Gui J, Cao J, Xu P, Zhou Y, Hu Jf, Li L* and Yang ZN*. 2020. Phenylpropanoid Derivatives Are Essential Components of Sporopollenin in Vascular Plants. Mol. Plant 13(11):1644-1653.

19. Xiong HB, Wang J, Huang C, Rochaix JD, Lin FM, Zhang JX, Ye LS, Shi XH, Yu QB* and Yang ZN*. 2020. mTERF8, a Member of the Mitochondrial Transcription Termination Factor Family, is Involved in the Transcription Termination of Chloroplast Gene psbJ. Plant Physiol 182(1): 408-423.

20. Xu XF, Wang B, Feng YF, Xue JS, Qian XX, Liu SQ, Zhou J, Yu YH, Yang NY, Xu P, Yang ZN*. (2019) AUXIN RESPONSE FACTOR17 directly regulates MYB108 for anther dehiscence. Plant Physiol 181, 645–655.

21. Yao XZ, Chen JL, Zhou J, Yu Han, Ge CN, Zhang M, Gao XH, Dai XH, Yang ZN, Zhao YD*. 2019. An essential role for microRNA167 genes in maternal control of embryonic and seed development. Plant Physiol 180 (1): 453-464.

22. Wang K, Guo ZL, Zhou WT, Zhang C, Zhang ZY, Lou Y, Xiong SX, Yao X, Fan JJ, Zhu J*, Yang ZN*. 2018. The regulation of sporopollenin biosynthesis genes for rapid pollen wall formation. Plant Physiol. 178(1):283-294.

23. Zhang C, Teng XD, Zheng QQ, Zhao YY, Lu JY, Wang Y, Guo H*, Yang ZN*. 2018. Ethylene signaling is critical for synergid cell functional specification and pollen tube attraction. Plant J. 96(1):176-187.

24. Yao XZ, Tian L, Yang J, Zhao YN, Zhu YX, Dai X, Zhao Y*, Yang ZN*. 2018. Auxin production in diploid microsporocytes is necessary and sufficient for early stages of pollen development. PLoS Genet. 14(5):e1007397.

25. Zhan HD, Xiong HB, Wang S, Yang ZN* 2018. Anther Endothecium-Derived Very-Long-Chain Fatty Acids Facilitate Pollen Hydration in Arabidopsis. Mol Plant. 11(8):1101-1104.

26. Lou Y, Zhou HS, Han Y, Zeng QY, Zhu J*, Yang, ZN* 2018. Positive regulation of AMS by TDF1 and the formation of a TDF1-AMS complex are required for anther development in Arabidopsis thaliana. New Phytologist 217(1):378-391.

27. Huang C Yu QB, Li ZR, Ye LS, Xu L, Yang ZN* 2017. Porphobilinogen deaminase HEMC interacts with the PPR-protein AtECB2 for chloroplast RNA editing. Plant J. 92(4):546-556.

28. Xiong SX, Lu JY, Lou Y, Teng XD, Gu JN, Zhang C, Shi QS, Yang ZN, Zhu J*. 2016. The transcription factors MS188 and AMS form a complex to activate the expression of CYP703A2 for sporopollenin biosynthesis in Arabidopsis thaliana. Plant J. 88(6):936-946.

29. Xu XF, Lou Y, Wang B, Lu JY, Li DD, Li LG, Zhu J*, Yang ZN*. 2015. The Magnesium Transporter5 Plays an Important Role in Mg Transportation from Tapetum to Microspores in Arabidopsis. Plant J. 84(5):925-936.

30. Jia QS, Zhu J, Xu XF, Lou Y, Zhang ZL, Zhang ZP and Yang ZN*. 2015.TEK directly regulates the expression of arabinogalactan proteins (AGPs) for nexine layer formation of pollen wall in Arabidopsis. Mol Plant 8:251-260.  

31. Gu JN, Zhu J, Yu Y, Teng XT, Lou Y, Xu XF, Liu JL, Yang ZN*. 2014. DYT1 Directly Regulates the Expression of TDF1 for Tapetum Development and Pollen Wall Formation in Arabidopsis. Plant J. 80: 1005-1013.

32. Lou Y, Xu XF, Zhu J, Gu JN, Blackmore S, Yang ZN*. 2014. The Tapetal AHL family protein TEK determines nexine formation in the pollen wall. Nature Communications 5:3855

33. Yu QB, Kong MM, Zhu J, Jia QS, Jiang Y, Mi HL, Chong K, Yang ZN*. 2014. AtECB1/MRL7, a Thioredoxin-like Fold Protein with Disulfide Reductase Activity, Regulates Chloroplast Gene Expression and Chloroplast Biogenesis in Arabidopsis thaliana. Mol Plant 7(1):206-217

34. Yang J, Tian L, Huang XY, Sun MX, Zhu J, Guan YF, and Yang ZN*. 2013.Auxin Response Factor17 is essential for auxin signaling in primexine formation and pollen development. Plant Physiol. 162:720-731.

3. Huang XY, Niu J, Sun MX, Zhu J, Gao JF, Yang J, Zhou Q, and Yang ZN*. 2013. CDKG1 is Associated with Splicesome to Regulate CalS5 Splicing and Pollen Wall Formation in Arabidopsis thaliana. Plant Cell 25(2) :637-648.