曹越 博士

来源:生物地球化学与环境修复团队发布时间:2016-08-23编辑:陈焱山



曹越

博士后

邮件:caoyue@ nju.edu.cn

办公室:钱盘生楼B532

电话:025–89680637



教育背景

2010/09–2016/06       南京农业大学            植物营养分子生物学学院                   农学博士

2006/09–2010/06       南京农业大学            农业资源与环境子生物学专业           农学学士


工作经历

2016/07–至今             南京大学环境学院    博士后


研究兴趣

水稻磷代谢

植物砷磷吸收的分子机理


发表论文

[13] Chen, Y.; Hua, C. Y.; Jia, M. R.; Fu, J. W.; Liu, X.; Han, Y. H.; Liu, Y.; Rathinasabapathi, B.; Cao, Y.*; Ma, L. Q., 2017. Heterologous expression of Pteris vittata arsenite antiporter PvACR3;1 reduces arsenic accumulation in plant shoots. Environmental Science & Technology.  51, 10387-10395.     

[12] Han, Y. H.; Jia, M. R.; Liu, X.; Zhu, Y.; Cao, Y.; Chen, D. L.; Chen, Y.*; Ma, L. Q., Bacteria from the rhizosphere and tissues of As-hyperaccumulator Pteris vittata and their role in arsenic transformation. Chemosphere 2017,186, 599-606.

[11]  Cao, Y., H. Ai, A. Jain, X. Wu, L. Zhang, W. Pei, A. Chen, G. Xu, S. Sun*. 2016. Identification and expression analysis of OsLPR family revealed the potential roles of OsLPR3 and 5 in maintaining phosphate homeostasis in rice. BMC Plant Biology. 16: 210, doi: 10.1186/s12870-016-0853-x  

[10]  Cao, Y., Y. Yan, F. Zhang, H. Wang, M. Gu, X. Wu, S. Sun*,G. Xu. 2014. Fine characterization of OsPHO2 knockout mutants reveals its key role in Pi utilization in rice. Journal of Plant Physiology. 171 (2): 340348.

[9]  Chen, Y., Y. H. Han, Y. Cao, Y. G. Zhu, B. Rathinasabapathi*, and L. Q. Ma*. 2017. Arsenic transport in rice and biological solutions to reduce arsenic risk from rice. Frontiers in Plant Science. 8: 268, doi: 10.3389/fpls.2017.00268.

[8]  Han, Y. H., J. W. Fu, P. Xiang, Y. Cao, B. Rathinasabapathi, Y. Chen*, and L. Q. Ma*. 2017.  Arsenic and phosphate rock impacted the abundance and diversity of bacterial arsenic  oxidase and reductase genes in rhizosphere of As-hyperaccumulator Pteris vittata. Journal of Hazardous Materials. 321: 146153.

[7]  Fu, J. W., X. Liu,Y. H. Han, H. Mei, Y. Cao, L. M. de Oliveira, Y. Liu, B. Rathinasabapathi, Y. Chen*, and L. Q. Ma. 2017. Arsenic-hyperaccumulator Pteris vittata efficiently solubilized phosphate rock to sustain plant growth and As uptake. Journal of Hazardous Materials. 330: 6875.

[6]  Liu, X., J. W. Fu, E. Da Silva, X. X. Shi, Y. Cao, B. Rathinasabapathi, Y.  Chen*, and  L. Q. Ma. 2017. Microbial siderophores and root exudates enhanced goethite dissolution and Fe/As uptake by As-hyperaccumulator Pteris vittata. Environmental Pollution. 223: 230237.

[5]  Liu, X., J. W. Fu, D. X. Guan, Y. Cao, J. Luo, B. Rathinasabapathi, Y. Chen*, and L. Q. Ma*. 2016. Arsenic induced phytate exudation, and promoted FeAsO4 dissolution and plant growth in As-hyperaccumulator Pteris vittata. Environmental Science & Technology. 50(17): 9070–9077.

[4]  Wang, H, R. Sun, Y. Cao, W. Pei, Y. Sun, H. Zhou, X. Wu, F. Zhang, L. Luo, Q. Shen, G. Xu, S. Sun. 2015. OsSIZ1, a SUMOE3 ligase gene, is involved in the regulation of the responses to phosphate and nitrogen in rice. Plant Cell and Physiology. 56(12): 2381–2395.
[3]  Zhang, F., Y. Sun, W. Pei, A. Jain, R. Sun,
 
Y. Cao, X. Wu, T. Jiang, L. Zhang, X. Fan, A. Chen, S. Shen, G. Xu, S. Sun*. 2015. Involvement of OsPht1;4 in phosphate acquisition, and mobilization facilitates embryo development in rice. The Plant Journal. 82(4): 556569.

[2]  Sun, S., M. Gu, Y. Cao, X. Huang, X. Zhang, P. Ai, J. Zhao, X. Fan, G. Xu. 2012. A constitutive expressed phosphate transporter, OsPht1;1, modulates phosphate uptake and translocation in Pi-replete rice. Plant Physiology. 159(4): 1571–1581.

[1]  Wang, H., K. Makeen, Y. Yan, Y. Cao, S. Sun*, G. Xu. 2011. OsSIZ1 regulates the vegetative growth and reproductive development in rice. Plant Molecular Biology Reporter. 29: 411417.


主持/参与科研项目

[1]  国家自然科学基金重点项目(21637002): 土壤–水稻体系中砷迁移与阻控及其健康风险研究, 2017/01–2021/12, 在研, 参与;

[2]  国家自然科学基金面上项目(31172014): 水稻类泛素E3连接酶OsSIZ对磷素的响应及调控, 2012/01–2015/12, 已结题, 参与