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王一州

性别:男
职称:百人计划研究员(自然科学C类(其他))
单位:农业与生物技术学院

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发表论文

Peer-Reviewed Journals

*Equal Contribution

  1. Wang, Y.*, Hills, A.*, Vialet-Chabrand, S.*, Papanatsiou, M.*, Griffiths, H., Rogers, S., Lawson, T., Lew, V.L. and Blatt, M.R. (2017). Unexpected Interactions between Humidity and Ion Transport Discovered using a Model to Bridge Guard Cell-to-Leaf Scales. The Plant Cell, 2017, 29 (11) 2921-2939.

  2. Vialet-Chabrand, S.*, Hills, A.*, Wang, Y.*, Griffiths, H., Lew, V.L., Lawson, T., Blatt, M. R., & Rogers, S. (2017). Global Sensitivity Analysis of OnGuard Models Identifies Key Hubs for Transport Interaction in Stomatal Dynamics. Plant physiology, 174(2), 680-688. 

  3. Cai, S., Chen, G., Wang, Y., Huang, Y., Marchant, D. B., Wang, Y., Yang, Q., Dai, F., Hills, A., Franks, P. J., Nevo, E., Soltis, D.E., Soltis, P.S., Sessa, E., Wolf, P.G., Xue, D., Zhang, G., Pogson, B.J., Blatt, M.R., & Chen, Z. (2017). Evolutionary Conservation of ABA Signaling for Stomatal Closure in Ferns.Plant physiology, 174(2), 732-747. 

  4. Chen, Z. H., Chen, G., Dai, F., Wang, Y., Hills, A., Ruan, Y. L., Zhang, G., Franks, P. J., Nevo, E., & Blatt, M. R. (2017) Molecular Evolution of Grass Stomata. Trends in Plant Science, 22(2), 124-139.

  5. Vialet-Chabrand S., Matthews, J, Brendel O., Blatt M., Wang Y., Hills, A., Griffths, H., Rogers, S. & Lawson, T. (2016) Modelling water use efficiency in a dynamic environment: An example using Arabidopsis thaliana. Plant Science, 251, 65-74.

  6. Zhao, C., Cai, S., Wang, Y. & Chen, Z.H. (2016). Loss of nitrate reductases NIA1 and NIA2 impairs stomatal closure by altering genes of core ABA signalling components in Arabidopsis. Plant signaling & behavior, 11(6), 1456-1469.

  7. Chen, Z. H.*, Wang, Y.*, Wang, J. W., Babla, M., Zhao, C., Garcia-Mata, C., Sani E., Differ C., Mak M. Hills A., Amtmann, A.& Blatt, M. R. (2016). Nitrate reductase mutation alters potassium nutrition as well as nitric oxide-mediated control of guard cell ion channels in Arabidopsis. New Phytologist, 209 (4), 1456-1469.

  8. Minguet-Parramona, C.*, Wang, Y.*, Hills, A., Vialet-Chabrand, S., Griffiths, H., Rogers, S., Lawson,T., Lew, V. & Blatt, M. R. (2015). An optimal frequency in Ca2+ oscillations for stomatal closure is an emergent property of ion transport in guard cells. Plant physiology, 170(1), 33-42.

  9. Zhang, B., Karnik, R., Wang, Y., Wallmeroth, N., Blatt, M. R., & Grefen, C. (2015). The Arabidopsis R-SNARE VAMP721 interacts with KAT1 and KC1 K+ channels to moderate K+ current at the plasma membrane. The Plant Cell, 27(6), 1697-1717.

  10. Grefen, C., Karnik, R., Larson, E., Lefoulon, C., Wang, Y., Waghmare, S., Zhang, B., Hills, A. & Blatt, M. R. (2015). A vesicle-trafficking protein commandeers Kv channel voltage sensors for voltage-dependent secretion. Nature Plants, 1(8), 15108.

  11. Blatt, M. R., Wang, Y., Leonhardt, N., & Hills, A. (2014). Exploring emergent properties in cellular homeostasis using OnGuard to model K+ and other ion transport in guard cells. Journal of plant physiology, 171(9), 770-778.

  12. Wang, Y., Hills, A., & Blatt, M. R. (2014). Systems analysis of guard cell membrane transport for enhanced stomatal dynamics and water use efficiency. Plant physiology, 164(4), 1593-1599.

  13. Wang, Y., Chen, Z. H., Zhang, B., Hills, A., & Blatt, M. R. (2013). PYR/PYL/RCAR abscisic acid receptors regulate K+ and Cl- channels through reactive oxygen species-mediated activation of Ca2+channels at the plasma membrane of intact Arabidopsis guard cells. Plant physiology,163(2), 566- 577.

  14. Blatt, M. R., Hills, A., Chen, Z. H., Wang, Y., Papanatsiou, M., & Lew, V. L. (2013). The conceptual approach to quantitative modeling of guard cells. Plant signaling & behavior, 8(1), 1235-51.

  15. Wang, Y., Papanatsiou, M., Eisenach, C., Karnik, R., Williams, M., Hills, A., Lew, V. & Blatt, M. R. (2012). Systems dynamic modeling of a guard cell Cl- channel mutant uncovers an emergent homeostatic network regulating stomatal transpiration. Plant physiology, 160(4), 1956-1967.

  16. Wang, Y., & Blatt, M. R. (2011). Anion channel sensitivity to cytosolic organic acids implicates a central role for oxaloacetate in integrating ion flux with metabolism in stomatal guard cells.Biochemical Journal, 439(1), 161-170.

Book Chapters: 
  1. Minguet-Parramona, C.*, Wang, Y.*, Hills, A., Vialet-Chabrand, S., Griffiths, H., Rogers, S., Lawson, T., Lew, V.L., & Blatt, M. R. (2015). Emergent Oscillatory Properties in Modelling Ion Transport of Guard Cells. Rhythms in Plants (pp. 323-342). Springer International Publishing.