王存

2003.09---2007.06 內蒙古大學（生物學基地班），學士學位；

2007.09---2013.02 中國農業大學（武維華 中國科學院院士），博士學位；

2013.02---2016.11 美國加州大學聖地亞哥分校（Julian I. Schroeder 美國科學院院士），博士後；

2016.11--- 西北農林科技大學生命科學學院，作物抗逆與高效生產全國重點實驗室固定人員。 ^[2] 

中華全國青年聯合會委員，九三學社中央農林專門委員會委員，九三學社西北農林科技大學副主委，九三學社西北農林科技大學副主委，中國植物生理學與植物分子生物學學會理事，中國植物學會植物整合組學專業委員會委員、植物營養與肥料學會植物營養分子生理專業委員會委員，《植物生理學報》編委等。 ^{[1]  [3-4]  [7]} 

主要以擬南芥和小麥為研究材料，主攻植物水分和礦質元素運輸的分子機理。近年來，以第一或同學作者在Molecular Plant、PNAS、The Plant Cell等國際知名期刊發表研究論文二十餘篇，曾有6篇論文入選ESI1%高被引論文。研究成果受到了國內外同行的廣泛關注和認可，他引次數超900次，受邀在國內外重要學術會議做特邀報告十餘次。 ^{[2]  [7]} 

主講本科生《細胞生物學》，研究生《細胞生物學研究進展》等課程。指導本科生獲全國大學生生命科學競賽一等獎暨陝西省特等獎1項。指導本科生畢業論文1人獲校百篇，2人獲校級優秀畢業論文，5人獲院級優秀畢業論文。指導了多個國家級，省級和校級科創項目。 ^[2] 

西北農林科技大學教授科研啓動經費 “植物離子通道分子機制和調控” ，2017.01-2021.12；

國家自然科學基金面上項目 “光和CO₂調控氣孔運動的交叉互作機理” ，2018.01-2021.12；

國家自然科學基金優秀青年科學基金項目 “植物離子跨膜運輸的分子機理” ，2023.1-2025.12。 ^[5-6] 

10.Zhang, ZQ., Fu, D., Xie,DX., Wang, ZQ., Zhao, YQ., Ma, XN., Huang, PP., Ju, CF., and Wang, C*. (2023). CBL1/9-CIPK23-NRAMP1 axis regulates manganese toxicity. The New Phytologist. 中科院生物學一區, 影響因子IF=10.32

9.Wang, Z#., Zhang, Y#., Liu, Y., Fu, D., You, Z., Huang, P., Gao, H., Zhang, Z., and Wang, C*. (2023). Calcium-dependent protein kinases CPK21 and CPK23 phosphorylate and activate IRT1 to regulate iron deficiency in Arabidopsis. Science China Life Sciences. 中科院生物學一區, 影響因子IF=10.37.

8.Liu, Y., Zhang, Y., Wang, Z., Guo, S., Fang, Y., Zhang, Z., Gao, H., and Wang, C*. (2023). Plasma-membrane-associated calcium signaling regulates arsenate tolerance in Arabidopsis. Plant Physiology. 中科院生物學一區, 影響因子IF=8.005

7.Zhang, Y#., Wang, Z#., Liu, Y., Zhang, T., Liu, J., You, Z., Huang, P., Zhang, Z., and Wang, C*. (2023). Plasma membrane-associated calcium signaling modulates cadmium transport. The New Phytologist, 238(1):313-331. 中科院生物學一區, 影響因子IF=10.32.

6.Wang, T., Li, M., Yang, J., Li, M., Zhang, Z., Gao, H., Wang, C*., and Tian, H*. (2023). Brassinosteroid transcription factor BES1 modulates nitrate deficiency by promoting NRT2.1 and NRT2.2 transcription in Arabidopsis. The Plant Journal. 中科院生物學一區, 影響因子IF=7.09.

5.Fu, D#., Zhang, Z#., Wallrad, L#., Wang, Z., Höller, S., Ju, C., Schmitz-Thom, I., Huang, P., Wang, L., Peiter, E., Kudla, J., Wang, C*. (2022). Ca2+-dependent phosphorylation of NRAMP1 by CPK21 and CPK23 facilitates manganese uptake and homeostasis in Arabidopsis. PNAS, 119, e2204574119. 中科院生物學一區, 影響因子IF=12.77.

4.Ju, C#., Zhang, Z#., Deng, J#., Miao, C., Wang, Z., Wallrad, L., Javed, L., Fu, D., Zhang, T., Kudla, J., Gong, Z., Wang, C*. (2022). Ca2+-dependent successive phosphorylation of vacuolar transporter MTP8 by CBL2/3-CIPK3/9/26 and CPK5 is critical for manganese homeostasis in Arabidopsis. Molecular Plant, 15, 419-437. 中科院生物學一區, 影響因子IF=21.94.

3.Zhang, Z#., Fu, D#., Sun, Z#., Ju, C., Miao, C., Wang, Z., Xie, D., Ma, L., Gong, Z., and Wang, C*. (2021). Tonoplast-associated calcium signaling regulates manganese homeostasis in Arabidopsis. Molecular Plant, 14, 805-819. 中科院生物學一區, 影響因子IF=21.94.

2.Su, H#., Wang, T#., Ju, C#., Deng, J., Zhang, T., Li, M., Tian, H., and Wang, C*. (2021). Abscisic acid signaling negatively regulates nitrate uptake via phosphorylation of NRT1.1 by SnRK2s in Arabidopsis. Journal of Integrative Plant Biology, 63, 597-610. 中科院生物學一區, 影響因子IF=9.10.

1. Gao, H#., Wang, T#., Zhang, Y., Li, L., Wang, C., Guo, S., Zhang, T., and Wang, C*. (2021). GTPase ROP6 negatively modulates phosphate deficiency through inhibition of PHT1;1 and PHT1;4 in Arabidopsis thaliana. Journal of Integrative Plant Biology, 63, 1775-1786. 中科院生物學一區, 影響因子IF=9.10.

8. 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. 220, 178-186.

7. 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).

6. 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 CO₂regulation 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.

5. 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).

4. 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).

3. 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 H₂O₂homeostasis in stomatal guard cells under drought stress. The Plant Cell, 27(5), 1445-1460 (#co-first author).

2. 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).

1. 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).

6. 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.

5. 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 CO₂signaling by MPK12. PLoS Biology.

4. 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.

3. 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.

2. 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.

1. 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 Ca-mediated stomatal regulation in response to drought stress. Plant Physiology, 154(3), 1232-1243. ^[2]