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杨 健

发布时间 :2022年05月17日 浏览量 :8781

杨健,博士,副研究员,硕士生导师,长期从事水稻磷素养分高效利用的分子机理解析研究工作,期望为推动水稻遗传改良、促进肥料减施增效提供重要理论支撑。先后主持国家自然科学基金青年项目、面上项目和四川省重大科技专项子课题等科研项目。研究成果以第一作者或通讯作者身份在Plant CellNew PhytologistPlant Journal等国际一流期刊发表论文多篇。独立授课两门:《生物统计》和《生物化学实验》,参与授课一门《生命奥秘探索》。

工作和学习经历

2016-至今 四川大学,生命科学学院

2015-2016年 浙江大学,生命学学学院,博士后

2010-2015年 浙江大学,生命科学学院,博士学位

2006-2010年 四川农业大学,学士学位

研究方向:

从磷素根系吸收、磷素叶片利用、及磷素根叶互作三个方面入手,分别解析根系磷素吸收的细胞学及生理学机理、叶片光合及磷素回流再利用效率、叶与根的碳磷平衡,推动水稻磷素养分高效利用的产业化应用。

项目:

1、国家自然科学基金面上项目,项目名称:水稻MAPK级联信号通过CK2调控磷素吸收的分子机制研究,研究起止年月:2021-012024-12

2、国家自然科学基金青年项目,项目名称:水稻OsPHO2通过蛋白磷酸酶OsPHPP1调控磷吸收及转运的机制研究,研究起止年月:2018-012020-12

3、四川省应用基础面上项目,项目名称:磷素转运体OsPHO1;3调控水稻磷素养分高效利用的分子机理,研究起止年月:2022-012023-12

4、四川省重点研发计划子课题,项目名称:川猪养殖污染控制与废弃物资源化利用,研究起止年月:2021-012026-12

联系方式: yangjiancls@sina.com 或yangjian-scu@scu.edu.cn

研究论文:#,第一作者;*,通讯作者

1 Yan M., Chen S.Q., Deng T.Y., Cheng Y.C., Lin H.H.*, Yang J.* (2022) Combined metabolomic and transcriptomic analysis evidences the interaction between sugars and phosphate in rice, Journal of Plant Physiology, DOI:10.1016/j.jplph.2022.153713

2 Deng, S., Li, J., Du, Z., Wu, Z., Yang, J., Cai, H., Wu, G., Xu, F., Huang, Y., Wang, S., & Wang, C. (2022). Rice ACID PHOSPHATASE 1 regulates Pi stress adaptation by maintaining intracellular Pi homeostasis. Plant, Cell & Environment, 45, 191– 205.

3 Yang Z.L. #, Yang J.#,*, Wang Y., Wang Fei, Mao W.X., He Q.J., Xu J.M, Wu Z.C. and Mao C.Z.* (2020) PROTEIN PHOSPHATASE95 regulates phosphate homeostasis by affecting phosphate transporter trafficking in Rice, The Plant Cell. 32: 740-757.

4 Liu X.L. #, Wang L. #, Wang X.W., Yan Y., Yang X.L,, Xie M.Y., Hu Z., Shen X., Ai H., Lin H.H, Xu G.H., Yang J.* and Sun S.B.* (2020) Mutation of the chloroplast-localized phosphate transporter OsPHT2;1 reduces flavonoids accumulation and UV tolerance in rice, The Plant Journal, 102: 53-67.

5 Li M.-Q., Yang J.#,*, Wang X., Li D.X., Zhang C.B., Tian Z.H., You M.H., Bai S.Q. and Lin H.H.* (2020) Transcriptome profiles identify the common responsive genes to drought stress in two Elymus species, Journal of Plant Physiology, 250, 153183

6 Yang J.*, Xie M., Yang X., Liu B. and Lin H.H.* (2019) Phosphoproteomic profiling reveals the importance of CK2, MAPKs and CDPKs in response to phosphate starvation in rice, Plant and Cell Physiology 60: 2785–2796.

7 Xie M. #, Tian Z.; Yang X., Liu B., Yang J. #,* and Lin H.H* (2019) The role of OsNLA1 in regulating arsenate uptake and tolerance in rice, Journal of Plant Physiology, 236: 15~22.

8 Huang F., Deng L., Yang H., Yang J.* and Wang L.* (2019) Kinetics of temperature effects on autotrophic nitrogen removal from digested swine wastewater. Desalination and Water Treatment. 163: 317-324.

9 Yang J, Xie M.Y., Wang L., Yang Z.L., Tian Z.H., Wang Z.Y., Xu J.M., Liu B.H., Deng L.W., Mao C.Z and Lin H.H (2018) A phosphate-starvation induced RING-type E3 ligase maintains phosphate homeostasis partially through OsSPX2 in rice, Plant and Cell Physiology 59: 2564~2575.

10 Yang J., Wang L., Mao C.Z and Lin H.H* (2017) Characterization of the rice NLA family reveals a key role for OsNLA1 in phosphate homeostasis. Rice (NY) 10: 52.

11 Yang J., Gao M.X., Hu H., Ding X.M., Lin H.W., Wang L., Xu J.M., Mao C.Z, Zhao F.J. and Wu Z.C. (2016). OsCLT1, a crt-like transporter 1, is required for glutathione homeostasis and arsenic tolerance in rice. New Phytologist, 211: 658-670.

12 Chen, J., Wang, Y., Wang, F., Yang, J., Gao, M., Li, C. Liu Y., Yamaji N, Ma J.F, Paz-Ares J, Nussaume L, Zhang S, Yi K, Wu Z, Wu Ping. (2015). The rice CK2 kinase regulates trafficking of phosphate transporters in response to phosphate levels. Plant Cell 27: 711-23.

13 Wang L., Zheng P. Xing Y., Li W., Yang J., & Ghulam A., et al. (2014). Effect of particle size on the performance of autotrophic nitrogen removal in the granular sludge bed reactor and microbiological mechanisms. Bioresource Technology 157: 240-246.

14 Xu JM, Yang J, Wu ZC, Liu HL, Huang FL, Wu YR , Carrie C. , Narsai R., Murcha M., Whelan J., Wu Ping. (2013) Identification of a dual-targeted protein belonging to the mitochondrial carrier family that is required for early leaf development in rice, Plant Physiology, 161 (4) ,2036-2048