欧阳敏
职称 教授
学位 博士
邮箱 ouyangmin@mail.hzau.edu.cn
研究方向 叶绿体发育与水稻高光效育种
教育经历
2000.09-2004.07,武汉大学,理学学士
2004.09-2006.07,武汉大学,理学硕士
2006.09-2010.07,中科院植物研究所,博士
主要职历
2010.07-2018.12,中科院植物研究所,助理研究员、副研究员
2019.01-2022.05,湖北大学,副教授、教授
2022.06-至今,10大菠菜信誉担保网,教授
科研成果
科研方向
主要以高等植物(主要是拟南芥与水稻)的叶绿体为研究对象,通过筛选鉴定调控叶绿体光合作用功能的关键无膜细胞器及其形成的关键调控因子,并以遗传学、分子生物学、生物化学、细胞生物学以及结构生物学相结合的方法,从多个层面对叶绿体生物发生与光合作用分子机制展开深入研究;解析相分离驱动叶绿体无膜细胞器组装调控光合功能的机理,并利用合成生物学方法将控制植物高光效的无膜细胞器应用到水稻高光效种质改良与筛选。主要科研方向包括:(1)蛋白相分离调控叶绿体发育与生物合成(2)高光效光合催化酶的筛选与改造(3)水稻高光效机理研究与分子育种。
学术成绩
研究领域主要包括叶绿体基因表达调控以及相分离调控叶绿体发育与生物合成,并取得了突破性的成果。在Cell、 Nat Plants、Nat commum、PNAS、EMBO J等刊物上发表论文10余篇。研究工作主要集中在相分离调控叶绿体发育:解析了相分离调控叶绿体蛋白运输机制、揭示了蛋白相分离调控蛋白运输是细胞内的一个普遍机制;(Nat Commun 2011;PNAS, 2015; Cell, 2020);阐明了细胞核蛋白酶调控叶绿体基因表达的结构基础;揭示了RNA编辑因子ECD1调控叶绿体早期发育机制;(Nat Plants, 2017; J Exp Bot, 2018)
主持科研项目
1. 湖北省引智创新示范基地(2021EJD025),作物高光效种质筛选学科创新引智基地,在研,主持
2. 国家自然科学基金面上项目(32170254,2022.01-2025.06),分子伴侣通过相分离调控叶绿体内蛋白折叠与运输,58万,在研,主持
3. 国家重点研发计划子课题项目(2017YFA0503701,2017.07–2022.06),叶绿体蛋白转运因子的结构与功能,80万,已结题,主持
4. 中科院人才项目(2013059, 2018.01–2020.12),中国科学院青年创新促进会优秀会员资助项目,180万,已结题,主持
5. 国家自然科学基金面上项目(31471267,2015.01–2018.12):叶绿体双精氨酸依赖转运途径底物分选调控机制研究,80万,已结题,主持
代表性学术论文(#共同第一作者,*通讯作者)
1. Zhang J, Bai Z, Ouyang M, Xu X, Xiong H, Wang Q, Grimm B, Rochaix JD, Zhang L* (2021)The DnaJ proteins DJA6 and DJA5 are essential for chloroplast iron-sulfur cluster biogenesis. EMBO J. 40(13):e106742.
2. Xu X, Ouyang M, Lu D, Zheng C, Zhang L* (2021). Protein Sorting within Chloroplasts. Trends Cell Biol. 31(1):9-16.
3. Ouyang M, Li X, Zhang J, Feng P, Pu H, Kong L, Bai Z, Rong L, Xu X, Chi W, Wang Q, Chen F, Lu C, Shen J, Zhang L (2020) Liquid-Liquid phase transition drives intra-chloroplast cargo sorting. Cell 180, 1144–1159.
4. Zou M, Mu Y, Chai X, Ouyang M, Yu L, Zhang L, Meurer J, Chi W*. (2020) The critical function of the plastid rRNA methyltransferase, CMAL, in ribosome biogenesis and plant development. Nucleic Acids Research 48, 3195–3210.
5. Jiang J, Chai X, Manavski N, Williams-Carrier R, He B, Brachmann A, Ji D, Ouyang M, Liu Y, Barkan A, Meurer J, Zhang L, Chi W*. (2019) An RNA chaperone-like protein plays critical roles in chloroplast mRNA stability and translation in Arabidopsis and maize. The Plant Cell 31, 1308–1327.
6. Jiang T, Zhang J, Rong L, Feng Y, Wang Q, Song Q, Zhang L, Ouyang M* (2018) ECD1 functions as an RNA-editing trans-factor of rps14-149 in plastids and is required for early chloroplast development in seedlings. Journal of Experimental Botany 69, 3037–3051.
7. Ouyang M#, Li X#, Zhao S, Pu H, Shen J, Adam Z, Clausen T, Zhang L*. (2017) The crystal structure of Deg9 reveals a novel octameric-type HtrA protease. Nature Plants 3, 973–982.
8. Song Y, Pu H, Jiang T, Zhang L, Ouyang M*. (2016) Crystal structure of glutamate-1-semialdehyde-2,1-aminomutase from Arabidopsis thaliana. Acta Crystallogr F Struct Biol Commun 72, 448–456.
9. Mao J#, Chi W#, Ouyang M#; He B, Chen F, Zhang L* (2015) PAB is an assembly chaperone that functions downstream of chaperonin 60 in the assembly of chloroplast ATP synthase coupling factor. Proceedings of the National Academy of Sciences USA 112, 4152–4157.
10. Xiao J, Li J, Ouyang M, Yun T, He B, Ji D, Ma j, Chi W, Lu C, Zhang L*. (2012) DAC is involved in the accumulation of the cytochrome b6/f complex in Arabidopsis. Plant Physiology 160, 1911–1922.
11. Ouyang M, Li X, Ma J, Chi W, Xiao J, Zou M, Chen F, Lu C, Zhang L*. (2011) LTD is a protein required for sorting light-harvesting chlorophyll-binding proteins to the chloroplast SRP pathway. Nat Communications 2, 277.
12. Ouyang M, Ma J, Zou M, Guo J, Wang L, Lu C, Zhang L*. (2010) The photosensitive phs1 mutant is impaired in the riboflavin biogenesis pathway. Journal of Plant Physiology 167, 1466–1476.
13. Sun X, Ouyang M, Guo J, Ma J, Lu C, Adam Z, Zhang L*. (2010) The thylakoid protease Deg1 is involved in photosystem-II assembly in Arabidopsis thaliana. The Plant Journal 62, 240–249.
14. Wei L, Guo J, Ouyang M, Sun X, Ma J, Chi W, Lu C, Zhang L*. (2010) LPA19, a Psb27 homolog in Arabidopsis thaliana, facilitates D1 protein precursor processing during PSII biogenesis. Journal of Biological Chemistry 285, 2 1391–21398.
15. Wang L, Ouyang M, Li Q, Zou M, Guo J, Ma J, Lu C, Zhang L*. (2010) The Arabidopsis chloroplast ribosome recycling factor is essential for embryogenesis and chloroplast biogenesis. Plant Molecular Biology 74, 47–59.