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State Key Laboratory of Plant Physiology and Biochemistry
College of Biological Sciences
China Agricultural University
No.2 West Yuan Ming Yuan Rd.
Beijing 100193, China
Tel.: 86-10-62733815
E-mail: yiwang@cau.edu.cn
http://cbs.cau.edu.cn/art/2020/4/22/art_31826_676530.html
Area of expertise: Nutrient; potassium; nitrogen; uptake; channel; transporter; electrophysiology
Selected Publications:
Wang, F., Tan, Y., Wallrad, L., Du, X., Eickelkamp, A., Wang, Z., He, G., Rehms, F., Li, Z., Han, J., Schmitz-Thom, I., Wu, W., Kudla, J., and Wang, Y. (2021). A potassium-sensing niche in Arabidopsis roots orchestrates signaling and adaptation responses to maintain nutrient homeostasis. Dev. Cell 56: 781-794.
Wang, Y., Chen, Y., and Wu, W. (2021). Potassium and phosphorus transport and signaling in plants. J. Integr. Plant Biol. 63: 34-52.
Zhang, M., Huang, P., Ji, Y., Wang, S., Wang, S., Li, Z., Guo, Y., Ding, Z., Wu, W., and Wang, Y. (2020). KUP9 maintains root meristem activity by regulating K+ and auxin homeostasis in response to low K. EMBO Rep. 21: e50164.
Du, X., Wang, F., Li, H., Jing, S., Yu, M., Li, J., Wu, W., Kudla, J., and Wang, Y. (2019). The transcription factor MYB59 regulates K+/NO3- translocation in the Arabidopsis response to low K+ stress. Plant Cell. 31: 699-714.
Wang, Y., Wu, W. (2017). Regulation of potassium transport and signaling in plants. Curr Opin Plant Biol. 39: 123-128.
Li, H., Yu, M., Du, X., Wang, Z., Wu, W., Quintero, F.J., Jin, X., Li, H., and Wang, Y. (2017). NRT1.5/NPF7.3 functions as a proton-coupled H+/K+ antiporter for K+ loading into the xylem in Arabidopsis. Plant Cell. 29: 2016-2026.
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