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朱自强

姓名:朱自强

职称:教授

学位:理学博士

Email: zqzhuATnjnu.edu.cn (发邮件时请将AT换成@)

电话:025-85891837

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学习及工作经历:

20196-至今,澳门新葡亰平台官网生命科学官网,教授(破格)

20147-20196月,澳门新葡亰平台官网生命科学官网,副教授

20142-20147月,澳门新葡亰平台官网生命科学官网,讲师

20118-20139月,美国加州大学洛杉矶分校,博士后(合作导师Chentao Lin教授)

20079-20117月,北京大学,理学博士(导师郭红卫教授)

20039-20067月,北京师范大学,理学硕士(导师刘宁副教授、郭岩研究员)

19999-20037月,澳门新葡亰平台官网,理学学士

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荣誉奖励:

2018年:江苏省优秀学术学位硕士学位论文指导教师

2017年:首届江苏省“青年科技人才托举工程”资助人选

2016年:江苏省“青蓝工程”优秀中青年骨干教师

2016年:澳门新葡亰平台官网“青蓝工程”优秀中青年骨干教师

2016年:澳门新葡亰平台官网校百名青年领军人才

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会议发言:

第一届全国植物光生物学大会,特邀分会报告,厦门,201810

Plant Biology 2016,特邀分会报告,美国奥斯丁,20167

第十届国际植物激素乙烯大会,特邀分会报告,重庆,201511

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科研工作概述:

植物发育具有高度可塑性,具体表现在植物细胞的全能性和植物发育的环境适应性。拟南芥幼苗在不同激素处理或环境因子(如光、高温等)作用下,其顶端弯钩发育、下胚轴伸长以及根伸长都表现出不同的表型,这一特性使得拟南芥幼苗发育成为研究植物可塑性发育的一个理想模型。本课题组长期从事植物可塑性发育的分子机理研究,主要研究成果包括(1)解析茉莉酸和乙烯协同调控植物对根伸长抑制的分子机制;(2)解析茉莉酸和乙烯拮抗调控黄化苗顶端弯钩发育的分子机制;(3)解析茉莉酸抑制植物暗形态建成的分子机制;(4)解析环境高温抑制乙烯对黄化苗顶端弯钩发育的分子机制(图1)。今后的研究方向除了进一步研究植物发育的环境适应性,还将开展植物细胞全能性以及植物时序性发育对细胞全能性的调控机理,以期深入解析植物可塑性发育的作用机制。

lab intro 2018-08

1.课题组在植物发育环境适应性方面的研究成果简述

主持的科学研究项目:

  1. 国家自然科学基金面上项目,2020-2023
  2. 霍英东教育基金会第十六届高等院校青年教师基金,2018-2020
  3. 国家自然科学基金面上项目,2015-2018
  4. 澳门新葡亰平台官网校百名青年领军人才基金, 2016-2020
  5. 江苏省基础研究计划(自然科学基金)-青年基金项目,2014-2017
  6. 江苏省高校自然科学研究面上项目,2014-2016
  7. 澳门新葡亰平台官网高层次人才科研启动基金,2014-2017

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主持的教学改革项目:

  1. 2019年江苏省研究生教育教学改革课题(快速上升发展学科研究生科研能力的探索与实践--以植物学学科为例)

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主要学术兼职:

江苏省植物生理学会理事、植物生长发育与生长物质专业委员会副主任;江苏省植物学会青年工作委员会委员; Nature Plants, Nature Communications, Molecular Plant, The Plant Cell, Plant Cell Physiology, Small Methods, Journal of Integrative Plant Biology等期刊审稿人;教育部学位与研究生教育发展中心学位论文评审专家。

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代表性论文 (§通讯作者,*第一作者)

  1. Jin H and Zhu Z§ (2019). Dark, light and temperature: key players in plant morphogenesis. Plant Physiology, 180: 1793-1802.
  2. Jin H and Zhu Z§ (2019) HOOKLESS1 is a positive regulator in Arabidopsis thermomorphogenesis. SCIENCE CHINA Life Sciences, 3: 423-425.
  3. Jin H, Pang L, Fang S, Chu J, Li R and Zhu Z§ (2018) High ambient temperature antagonizes ethylene-induced exaggerated apical hook formation in etiolated Arabidopsis seedlings. Plant Cell Environment, 41: 2858-2868. (cover story)
  4. Zheng Y, Cui X, Su L, Fang S, Chu J, Gong Q, Yang J and Zhu Z§ (2017) Jasmonate Inhibits COP1 Activity to Suppress Hypocotyl Elongation and Promote Cotyledon Opening in Etiolated Arabidopsis Seedlings. The Plant Journal, 90: 1144-1155. (Highlighted in “Research Advances in Plant Science in China in 2017. Chinese Bulletin of Botany 53: 391-440”)
  5. Zhu Z§ (2014) Molecular basis for jasmonate and ethylene signal interactions in Arabidopsis. Journal of Experimental Botany, 65: 5743-5748.
  6. Zhang X*, Zhu Z*, An F, Hao D, Li P, Song J, Yi C, Guo H§ (2014) Jasmonate-Activated MYC2 Represses ETHYLENE INSENSITIVE3 Activity to Antagonize Ethylene Promoted Apical Hook Formation in Arabidopsis. The Plant Cell, 26: 1105-1117.
  7. Zhu Z*, An F*, Feng Y, Li P, Xue L, A M, Jiang Z, Kim JM, To TK, Li W, Zhang X, Yu Q, Dong Z, Chen WQ, Seki M, Zhou JM, Guo H§ (2011) Derepression of ethylene-stabilized transcription factors (EIN3/EIL1) mediates jasmonate and ethylene signaling synergy in Arabidopsis. Proc Natl Acad Sci U S A, 108: 12539-12544. (Highly cited paper)

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其他论文 (§通讯作者,*第一作者)

  1. Jin H and Zhu Z§ (2019) Dis-RUP for COP1 role-switch under UV-B light. Trends in Plant Science, 24: 569-571.
  2. Ai Y and Zhu Z§ (2018) Melatonin antagonizes jasmonate-triggered anthocyanin biosynthesis in Arabidopsis thaliana. Journal of Agriculture and Food Chemistry, 66: 5392-5400.
  3. Sun K and Zhu Z§ (2018) Illuminating the nucleus: UVR8 interacts with more. Trends in Plant Science, 23: 279-281.
  4. Feng Y, Xu P, Li B, Li P, Wen X, An F, Gong Y, Xin Y, Zhu Z, Wang Y§ and Guo H§ (2017) Ethylene promotes root hair growth through coordinated EIN3/EIL1 and RHD6/RSL1 activity in Arabidopsis. Proc Natl Acad Sci U S A,114: 13834-13839.
  5. Zheng Y*, Lan Y*, Shi T§ and Zhu Z§ (2017) Diverse contributions of MYC2 and EIN3 in the regulation of Arabidopsis jasmonate-responsive gene expression. Plant Direct, doi: 10.1002/pld3.15.
  6. Jin H and Zhu Z§ (2017) Role of PINOID-mediated COP1 phosphorylation in Arabidopsis photomorphogenesis is overemphasized. Proc Natl Acad Sci U S A, doi: 10.1073/pnas.1711822114. (Letter)
  7. Sun K, Zheng Y and Zhu Z§ (2017) Luciferase complementation imaging assay in Nicotiana Benthamiana leaves for transiently determine protein-protein interaction dynamics. Journal of Visualized Experiments, 129: e56641.
  1. Yao L, Zheng Y and Zhu Z§ (2017) Jasmonate suppresses seedling soil? emergence in Arabidopsis thaliana. Plant Signaling & Behavior, 12: e1330239.
  2. Jin H and Zhu Z§ (2017) Temporal and Spatial View of Jasmonate Signaling. Trends in Plant Science, 22: 451-454.
  3. Zhu Z§ and Napier R§ (2017) Jasmonate – a blooming decade. Journal of Experimental Botany, 68: 1299-1302.
  4. Zheng Y, Gao Z and Zhu Z§ (2016) DELLA-PIF Modules: Old Dogs Learn New Tricks. Trends in Plant Science, 21: 813-815.
  5. Shen W, Ye L, Ma J, Yuan Z, Zheng B, Lv C, Zhu Z, Chen X, Gao Z§ and Chen G§ (2016) The Existence of C4-bundle-sheath-like Photosynthesis in the Mid-vein of C3 Rice. Rice, 9: 20.
  6. Zhu Z§ and Lin C (2016) Photomorphogenesis: When blue meets red. Nature Plants, 2: 16019.
  7. Zhu Z, Xian Z, Li Z§, and Guo H§. (2016) Ethylene biology blooms from fundamental research to postharvest applications. Molecular Plant, 9: 187-188.
  8. Zheng Y and Zhu Z§ (2016) Relaying the ethylene signal: new roles for EIN2. Trends in Plant Science, 21: 2-4.
  9. Ke M, Zheng Y and Zhu Z§ (2015) Rethinking the origin of auxin biosynthesis in plants. Frontiers in Plant Science, 6: 1093.
  10. Zhu Z§ and Lee B (2015) Friends or Foes: New Insights in Jasmonate and Ethylene Co-Actions. Plant Cell Physiology, 56: 414-420.
  11. Wang Q, Zhu Z, Ozkardesh K, Lin C§ (2013) Phytochromes and Phytohormones: The Shrinking Degree of Separation. Molecular Plant, 6: 5-7.
  12. An F, Zhang X, Zhu Z, Ji Y, He W, Jiang Z, Li M, Guo H§ (2012) Coordinated regulation of apical hook development by gibberellins and ethylene in etiolated Arabidopsis seedlings. Cell Research, 22: 915-927.
  13. Hua D, Wang C, He J, Liao H, Duan Y, Zhu Z, Guo Y, Chen Z, Gong Z§ (2012) A plasma membrane receptor kinase, GHR1, mediates abscisic acid- and hydrogen peroxide-regulated stomatal movement in Arabidopsis. The Plant Cell, 24: 2546-2561.
  14. Zhu Z, Guo H§ (2008) Genetic basis of ethylene perception and signal transduction in Arabidopsis. Journal of Integrative Plant Biology, 50: 808-815.

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参编著作

Zhu Z§ and Guo H§. (2015) “Interactions of ethylene and other signals.” In Ethylene in Plants, (C.-K. Wen Ed), Springer Netherlands. 135-152

教学论文

朱自强. 互联网时代研究生“植物分子生物学”课程教学探索. 生命的化学, 2016, 36 (2): 263-265

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实验室成员:

刘娜娜(研究生)

薛祥文(研究生)

林靖雅(研究生)

孙丽丽(研究生)

? 苒(研究生)

? 旸(研究生)

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已毕业研究生:

郑玉玉(2014级硕士研究生)

? 玉(2015级硕士研究生)

孙凯文(2016级硕士研究生)

晋欢欢(2016级硕士研究生)

姚璐璐(2016级硕士研究生)

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201910月发布

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