PERSONAL INFORMATION
E-mail: xinxinzhang@ibcas.ac.cn
Address: State Key Laboratory of Systematic and Evolutionary Botany (LSEB), Institute of Botany, The Chinese Academy of Sciences, Beijing, 100093
EDUCATION BACKGROUND
Peking University, China
School of Advanced Agricultural Sciences and School of Life Sciences
Major: Molecular Biology Postdoc Sep, 2018-present
Westf?lische-Wilhelms Universit?t Münster, Münster, Germany
Institut für Biologie und Biotechnologie der Pflanzen.
Major: Cell Biology PhD. Sep, 2013-June, 2018
Institute of Botany, Chinese Academy of Sciences, Beijing, China
State Key Laboratory of Vegetation and Environmental Change
Major: Cell Biology Master. 2010 – 2013.
Qingdao Agricultural University, Qingdao, China
College of Botany Science and Technology
Major: Seed Science and Engineering Bachelor. 2006 – 2010.
RESEARCH EXPERIENCE
(1)The role of alternative splicing of DK in responding to gravity Peking University Postdoc (2018.09-Pres)
(2)The study of anther dehiscence in rice National University of Singapore 2018.06
(3)Calcium-dependent phosphorylation modulates Universit?t Münster root hair development by ROS Ph.D. (2013.09-2018.05)
(4)Root hair phenotype assays and pollen tube germination Universiteit Antwerpen Integrated Molecular Plant Physiology research (IMPRES) (2017.11.07-2017.12.07)
(5)Calcium-dependent phosphorylation modulates Universit?t Münster Root development Ph.D. (2013-2018)
(6)Screening of Arabidopsis cDNA library using proteome-wide yeast-2-hybrid Validation of the interaction by BIFC in N. benthamiana epidermal cells and protoplast of Arabidopsis leaves.
(7)The regulation of iron acquisition in rice and Arabidopsis Institute of Botany Obtain the overexpression lines of rice and Arabidopsis Master (2010-2013) Measurement of iron and chlorophyll (CHL) content
PUBLICATIONS
(1)Zhang, X., Zhang, X., Wang, T. and Li, C. (2021) Metabolic response of soybean leaves induced by short-term exposure of ozone. Ecotoxicol. Environ. Saf. 213: 112033.
(2)Zhang, X., Zhang, X., Zhang, L., Zhang, Y., Zhang, D., Gu, X., et al. (2020) Metabolite profiling for model cultivars of wheat and rice under ozone pollution. Environ. Exp. Bot. 179: 104214.
(3)Zhang, X., Zhang, D.; Sun, W.; Wang, T (2019). The Adaptive Mechanism of Plants to Iron Deficiency via Iron Uptake, Transport, and Homeostasis. Int. J. Mol. Sci. 2019, 20, 2424
(4)Zhang, X., K?ster, P., Schlücking, K., Balcerowicz, D., Hashimoto, K., Kuchitsu, K., Vissenberg, K., Kudla, J. (2018). CBL1-CIPK26 mediated phosphorylation enhances RBOHC activity, but is dispensable for root hair growth. FEBS Lett. 592, 2582-2593.
(4) *Tian, Q., *Zhang, X., Gao, Y., Bai, W., Ge, F., Ma, Y., and Zhang, W.H. (2013). Wheat genotypes differing in aluminum tolerance differ in their growth response to CO2 enrichment in acid soils. Ecology and Evolution 3, 1440-1448. (*Co-first author).
(5) Steinhorst, L., M?hs, A., Ischebeck, T., Zhang, C., Zhang, X., Arendt, S., Schültke, S., Heilmann, I., and Kudla, J. (2015). Vacuolar CBL-CIPK12 Ca2+-Sensor-Kinase Complexes Are Required for Polarized Pollen Tube Growth. Curr. Biol. 25, 1475-1482.
(6) Qu, Y., Wang, Q., Guo, J., Wang, P., Song, P., Jia, Q., Zhang, X., Kudla, J., Zhang, W., and Zhang, Q. (2017). Peroxisomal CuAOζ and its product H2O2 regulate the distribution of auxin and IBA-dependent lateral root development in Arabidopsis. J. Exp. Bot. 68, 4851-4867.
(7) Tian, Q., Zhang, X., Ramesh, S., Gilliham, M., Tyerman, S.D., and Zhang, W.-H. (2014). Ethylene negatively regulates aluminium-induced malate efflux from wheat roots and tobacco cells transformed with TaALMT1. J. Exp. Bot. 65, 2415-2426.
(8) Tian, Q., Zhang, X., Yang, A., Wang, T., and Zhang, W.-H. (2016). CIPK23 is involved in iron acquisition of Arabidopsis by affecting ferric chelate reductase activity. Plant Sci. 246, 70-79.
CONFERENCES
(1)2017 Plant Calcium Signaling Conference. Norwich, UK. 2017.09.05-2017.09.07
Poster presentation.
Zhang, X., Zhang, Q., K?ster, P., Edel, K., Schlücking, K., Manishankar, p., Kudla, J. (2017). Calcium dependent phosphorylation modulates root development in Arabidopsis.
(2)About Rooting 2017. Umea, Sweden. 2017.05.29-2017.06.02
Poster presentation.
Zhang, X., Zhang, Q., K?ster, P., Edel, K., Schlücking, K., Manishankar, p., Kudla, J. (2017). Calcium dependent phosphorylation modulates root development in Arabidopsis.
(3)Calcium Signaling Meeting. Freising, Germany. 2016.09.13-2016.09.16
Poster presentation.
Han, J., K?ster, P., Zhang, X., Hake, K., Wallrad, L., Scholz, M., Edel, K., Hashimoto K., Romeis, T., Kudla, J. (2016). Activation of NADPH-Oxidases by Ca2+ regulated kinases,
(4)As one of 100 top-talented students of European universities selected by
Roche Continents to take one week of interdisciplinary challenges and
inspiration in Salzburg, Austria. 2015.08.11-2015.08.17
(5)Plant Calcium Signaling 2014 (PCS 2014), muenster, Germany.
2014.06.22-2014.06.25
(6)Coordination of Signaling and Regulation Processes in Plant Environment
Interactions, muenster, Germany 2013.09.05-2013.09.11
(7)Workshop “Writing papers and theses in the life Sciences”, muenster, Germany
