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王存

作者:    来源:     发布日期:2018-05-24     浏览次数:

     

  

  王 存

  一、个人简介

  王存,1985年8月出生于山东蒙阴,西北农林科技大学,教授,博士生导师。

  二、学习和工作经历

  2003.09---2007.06 内蒙古大学(生物学基地班),学士学位;

  2007.09---2013.02 中国农业大学(武维华 中国科学院院士),博士学位;

  2013.02---2016.11 美国加州大学圣地亚哥分校(Julian I. Schroeder 美国科学院院士),博士后;

  2016.11---西北农林科技大学生命科学学院,旱区作物逆境生物学国家重点实验室固定人员。

  三、科研领域与方向

  主要研究离子通道在干旱、离子营养和重金属胁迫条件下的分子机制和调控机理。综合采用电生理学、生化化学、分子遗传学和植物生理学等手段鉴定离子通道信号转导途径中新的机制和网络图,希望为小麦的抗逆遗传改良奠定理论基础。近五年来,在The Plant Cell、PLos Biology、Molecular Plant、eLife、Plant Physiology和The Plant Journal等国际权威学术期刊发表研究论文14篇(IF>8的文章7篇),包括中科院一区论文11篇,第一作者或并列第一作者论文8篇,ESI 1%高被引用论文3篇,F1000 Prime推荐论文2篇,目前他引总数超过500次。

  四、主持项目

  西北农林科技大学教授科研启动经费“植物离子通道分子机制和调控”   300万,2017.01-2021.12;

  国家自然科学基金面上项目“光和CO2调控气孔运动的交叉互作机理”       60万,2018.01-2021.12。

  五、联系方式

  西北农林科技大学南校区科研楼2206-2208,cunwang@nwafu.edu.cn

  六、文章列表

  1. Wang, C#., Zhang, J.B#., Wu, J.Y#., Brodsky, D., and Schroeder, J.I. (2018). Cytosolic Malate and Oxaloacetate Activate S-type Anion Channels in Arabidopsis Guard Cells. New Phytologist (accepted).

  2. Wang, C#., Zhang, J.B and Schroeder, J.I. (2017). Two-electrode Voltage-clamp Recordings in Xenopus laevis Oocytes: Reconstitution of Abscisic Acid Activation of SLAC1 Anion Channel via PYL9 ABA Receptor. Bio-protocol. 7(2).

  3. Wang, C#., Hu, H.H#., Qin, X., Xu, Brian, E., D.Y., Boron, W.F., Rappel, W.J., and Schroeder, J.I. (2016). Reconstitution of CO2 regulation of SLAC1 anion channel and function of CO2-permeable PIP2;1 aquaporin as carbonic anhydrase4 interactor in Arabidopsis . The Plant Cell, 28(2), 568-582.

  4. Yamamoto, Y#., Negi, J#., Wang, C#., Isogai, Y., Schroeder, J.I., and Iba, K. (2016). The transmembrane region of guard cell SLAC1 channels perceives CO2 signals via an ABA-independent pathway in Arabidopsis. The Plant Cell, 28(2), 557-567 (#co-first author).

  5. Hõrak, H#., Sierla, M#., Tõldsepp, K#., Wang, C#., Nuhkat, M., Wang, Y.H., Valk, E., Pechter, P., Merilo, E., Overmyer, K., Loog, M., Brosché, M., Schroeder, J.I., Kangasjärvi, J., and Kollist, H (2016). A dominant mutation in HT1 uncovers MPK12 and GHR1 in CO2-induced stomatal closure. The Plant Cell, 28(10), 2493-2509 (#co-first author).

  6. Zou, J. J#., Li, X. D#., Ratnasekera, D#., Wang, C#., Liu, W. X., Song, L. F., and Wu, W. H. (2015). Arabidopsis Cacium-dependent protein kinase8 and catalase3 function in abscisic acid-mediated signaling and H2O2 homeostasis in stomatal guard cells under drought stress. The Plant Cell, 27(5), 1445-1460 (#co-first author).

  7. Feng, C. Z#., Chen, Y#., Wang, C#., Kong, Y. H., Wu, W. H., and Chen, Y. F. (2014). Arabidopsis RAV1 transcription factor, phosphorylated by SnRK2 kinases, regulates the expression of ABI3, ABI4, and ABI5 during seed germination and early seedling development. The Plant Journal, 80(4), 654-668 (#co-first author).

  8. Hua, D#., Wang, C#., He, J., Liao, H., Duan, Y., Zhu, Z., Guo, Y., Chen, Z.Z., and Gong, Z.Z. (2012). A plasma membrane receptor kinase, GHR1, mediates abscisic acid-and hydrogen peroxide-regulated stomatal movement in Arabidopsis . The Plant Cell, 24(6), 2546-2561 (#co-first author).

  合作作者文章:

  9. Shemer, T.A., Bagheri, A., Wang, C., Palomares, A., Stephan,A.B., Kunz,H.H., and Schroeder, J.I (2016). Starch biosynthesis in guard cells but not in mesophyll cells is involved in CO2-induced stomatal closing. Plant Physiology, 171(2):788-798.

  10. Jakobsona, L#., Vaahterab, L#., KTõldseppa, K#., Nuhkata, M., Wang, C., Wang, Y.S., Hõrak, H., Valk, E., Pechter, P., Sindarovska, Y., Tang, J., Xiao, H.L., Xu, Y., Talas, U.G., Remm, M., Kangasjärvi, S., Roelfsema, M.R.G., Hu, H.H., Kangasjärvi, J., Loog, M., Schroeder, J.I.,  Kollist, H., and Brosché, M., (2016). Natural variation in Arabidopsis Cvi-0 accession uncovers regulation of guard cell CO2 signaling by MPK12. PLos Biology.

  11. Suzuki, K., Yamaji, N., Costa, A., Okuma, E., Kobayashi, N. I., Kashiwagi, T., Kashiwagi, M., Wang, C., Tanoi, k., Murata, Y., Schroeder, J. I., Ma, J.F., and Horie, T., (2016). OsHKT1; 4-mediated Na+ transport in stems contributes to Na+ exclusion from leaf blades of rice at the reproductive growth stage upon salt stress. BMC Plant Biology, 16(1), 1.

  12. Brandt, B#., Munemasa S#., Wang, C., Nguyen, G., Yong, T.M., Yang, P.G., Poretsky, E., Belknap, T.F., Waadt, R., Aleman, F., and Schroeder, J.I. (2015). Calcium specificity signaling mechanisms in abscisic acid signal transduction in Arabidopsis guard cells. eLife, 4, e03599.

  13. Zhang, Z.H., Xie, Q.Q., Jobe, T.O., Kau, A.R., Wang, C., Li, Y.C., Qiu, B.S., Wang, Q.Q., Mendoza, D.G., and Schroeder, J.I. (2015). Identification of AtOPT4 as a plant glutathione transporter. Molecular Plant, 9(3), 481–484.

  14. Zou, J. J., Wei, F. J., Wang, C., Wu, J. J., Ratnasekera, D., Liu, W. X., and Wu, W. H. (2010). Arabidopsis calcium-dependent protein kinase CPK10 functions in abscisic acid-and Ca2+-mediated stomatal regulation in response to drought stress. Plant Physiology, 154(3), 1232-1243.

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