 | 姓名:张敬波 性别:男 职称:教授/博士生导师 email:[email protected] 办公电话:010-62734554 办公地址:资环楼二区425室 |
教育背景
2003.09-2007.07 山东农业大学 农业资源与环境 农学学士
2007.09-2009.07 中国农业大学 植物营养系 农学硕士
2009.11-2014.04 瑞士苏黎世大学 植物科学系 理学博士
工作履历
2014.04-2014.07 瑞士苏黎世大学 博士后
2014.07-2015.01 加州大学伯克利分校 博士后
2015.01-2019.05 加州大学圣地亚哥分校 博士后
2019.07- 中国农业大学 资源环境学院 教授
学术兼职
美国植物生物学学会(aspb)会员
美国生物物理学学会(bps)会员
生命科学学术评价机构faculty1000植物学部 副评论员(associate faculty)
担任nature, nature communications, current biology, the plant cell等国际期刊审稿人及项目基金评审评委
研究领域
植物逆境胁迫与养分高效:
1. 植物养分高效吸收利用的分子生物学机制
2. co2信号传导调控植物气孔运动与发育的分子机理
3. 植物液泡膜离子通道功能与生物物理学特性
奖励与荣誉
中国农业大学杰出人才(2019)
中国农业大学人才培育计划“青年新星a”(2020)
主持项目
1.中国农业大学高层次引进人才启动基金(2019-2024)
2.中国农业大学人才培育计划“青年科学家创新团队”(2020)
3.国家自然科学基金面上项目(2021-2024)
学术成果
一、发表论文
2020年:
1. takahashi y, zhang j, hsu p-k, ceciliato pho, zhang l, dubeaux g, munemasa s, ge c, zhao y, hauser f, schroeder ji (2020) map3kinase-dependent snrk2-kinase activation is required for abscisic acid signal transduction and rapid osmotic stress response. nature communications 11: 12
2019年:
1. ceciliato, p.h.o., zhang, j., liu, q., shen, x., hu, h.h., liu, c., schaffner, a.r., and
schroeder, j.i. (2019). intact leaf gas exchange provides a robust method for measuring the
kinetics of stomatal conductance responses to abscisic acid and other small molecules in
arabidopsis and grasses. plant methods 15.
2018年:
1. zhang, j., ceciliato, p.h.o., takahashi, y., schulze, s., dubeaux, g., hauser, f., azoulay-shemer, t., toldsepp, k., kollist, h., rappel, w.j., and schroeder, j.i. (2018) insights into the molecular mechanisms of co2-mediated regulation of stomatal movements current biology, 28, r1356-r1363.
2. zhang, j., wang, n., miao, y., hauser, f., mccammon, j.a., rappel, w.j., and
schroeder,j.i. (2018). identification of slac1 anion channel residues required for
co2/bicarbonate sensing and regulation of stomatal movements. proc. natl. acad. sci. usa.
44, 11129-11137.
3. wang, c., *zhang, j., wu, j.y., brodsky, d.e., and schroeder, j.i. (2018). cytosolic
malate and oxaloacetate activate s-type anion channels in arabidopsis guard cells. new
phytologist 220, 178-186. (*co-first author)
4. toldsepp, k., *zhang, j., takahashi, y., sindarovska, y., horak, h., ceciliato, p.h.o.,
koolmeister, k., wang, y.s., vaahtera, l., jakobson, l., yeh, c.y., park, j., brosche, m.,
kollist, h., and schroeder, j.i. (2018). mitogen-activated protein kinases mpk4 and mpk12
are key components mediating co2-induced stomatal movements. the plant journal
96.1018-1035. (*co-first author)
5. zhang, j., wang, n., miao, y., hauser, f., rappel, w-j., mccammon, j.a., and
schroeder, j.i. (2018) gaussian-accelerated molecular dynamics modeling leads to
identification of slac1 anion channel residues for co2 signaling in arabidopsis guard
cell. biophysical journal 114: 302a
6. he, j., zhang, r.-x., peng, k., tagliavia, c., li, s., xue, s., liu, a., hu, h., zhang, j., hubbard, k. e., held, k., mcainsh, m. r., gray, j. e., kudla, j., schroeder, j. i., liang, y.k. and hetherington, a. m. (2018), the big protein distinguishes the process of co2-induced stomatal closure from the inhibition of stomatal opening by co2. new phytologist doi:10.1111/nph.14957
2017年:
1. eisenach, c., baetz, u., huck, n.v., zhang, j., de angeli, a., beckers, gjm., and
martinoia, e. (2017) aba-induced stomatal closure involves almt4, a phosphorylation
dependent vacuolar anion channel of arabidopsis. plant cell 29(10): 2552-2569.
2. wang, c., zhang, j., 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): e2114.
2014年:
1. zhang, j., martinoia, e., and de angeli, a. (2014) cytosolic nucleotides block and regulate the arabidopsis vacuolar anion channel atalmt9. j. biol. chem. 289, 25581-25589
2013年:
1. de angeli, a., *zhang, j., meyer, s. and martinoia e. (2013) atalmt9 is a malate-activated vacuolar chloride channel required for stomatal opening in arabidopsis. nature communications. 4:1804. doi: 10.1038/ncomms2815. (*co-first author)
2. zhang, j., bätz, u., krügel, u., martinoia, e. and de angeli a. (2013) identification of a probable pore forming domain in the multimeric vacuolar anion channel atalmt9. plant physiology. 163 (2): 830-843.
3. de angeli, a., baetz, u., francisco, r., zhang, j., chaves, m.m., and regalado, a. (2013) the vacuolar channel vvalmt9 mediates malate and tartrate accumulation in berries of vitis vinifera. planta. 238 (2):283-291.