植物学报 ›› 2015, Vol. 50 ›› Issue (5): 535-537.doi: 10.11983/CBB15115

• 热点评 •    下一篇

中国科学家在生长素信号转导领域取得突破性研究进展

于倩倩, 孔祥培, 丁兆军*()   

  1. 山东大学生命科学学院, 植物细胞工程与种质创新教育部重点实验室, 济南 250100
  • 收稿日期:2015-07-02 接受日期:2015-07-31 出版日期:2015-09-01 发布日期:2015-10-09
  • 通讯作者: 丁兆军 E-mail:dingzhaojun@sdu.edu.cn
  • 作者简介:? 共同第一作者

Chinese Scientists Made Breakthrough Progress in Study on Auxin Signaling Transduction in Plants

Qianqian Yu, Xiangpei Kong, Zhaojun Ding*   

  1. The Key Laboratory of Plant Cell Engineering and Germplasm Innovation, Ministry of Education, College of Life Sciences, Shandong University, Jinan 250100, China
  • Received:2015-07-02 Accepted:2015-07-31 Online:2015-09-01 Published:2015-10-09
  • About author:? These authors contributed equally to this paper

摘要:

生长素(IAA)作为一种重要的植物激素, 参与调节植物生长发育的许多过程, 其作用机理长期以来备受人们的关注。最近, 中国科学家在生长素信号转导的分子机理研究领域取得了突破性进展。

关键词: 生长素, 信号转导, 亲环素, Aux/IAA

Abstract:

Auxin is one of the most important phytohormones and participates in a variety of growth and development processes in plants. Recently, Chinese scientists have made breakthrough advances toward our understanding on the molecular mechanisms of auxin signaling transduction.

Key words: auxin, signaling transduction, cyclophilin, Aux/IAA

1 刘振华, 于延冲, 向凤宁 (2011). 生长素响应因子与植物的生长发育. 遗传 33, 1335-1346.
2 翟开恩, 潘伟槐, 叶晓帆, 潘建伟 (2015). 高等植物局部生长素合成的生物学功能及其调控机制. 植物学报 50, 149-158.
3 Calderon Villalobos LI, Lee S, De Oliveira C, Ivetac A, Brandt W, Armitage L, Sheard LB, Tan X, Parry G, Mao H, Zheng N, Napier R, Kepinski S, Estelle M (2012). A combinatorial TIR1/AFB-Aux/IAA co-receptor system for differential sensing of auxin.Nat Chem Biol 8, 477-485.
4 Ding Z, Friml J (2010). Auxin regulates distal stem cell differentiation in Arabidopsis roots. Proc Natl Acad Sci USA 107, 12046-12051.
5 Ding Z, Galvan-Ampudia CS, Demarsy E, Langowski L, Kleine-Vehn J, Fan Y, Morita MT, Tasaka M, FankHaus-
6 er C, Offringa R, Friml J (2011). Light-mediated polariza-tion of the PIN3 auxin transporter for the phototropic response in Arabidopsis. Nat Cell Biol 13, 447-452.
7 Fruman D, Burakoff S, Bierer B (1994). Immunophilins in protein folding and immunosuppression.FASEB J 8, 391-400.
8 Ivanchenko MG, Zhu J, Wang B, Medvecka E, Du Y, Azzarello E, Mancuso S, Megraw M, Filichkin S, Dubrovsky JG, Friml J, Geisler M (2015). The cyclophilin A DIAGEOTROPICA gene affects auxin transport in both root and shoot to control lateral root formation.Development 142, 712-721.
9 Jing H, Yang X, Zhang J, Liu X, Zheng H, Dong G, Nian J, Feng J, Xia B, Qian Q, Li J, Zuo J (2015). Peptidyl-prolyl isomerization targets rice Aux/IAAs for proteasomal degradation during auxin signaling.Nat Commun 6, 7395.
10 Lavy M, Prigge MJ, Tigyi K, Estelle M (2012). The cyclophilin DIAGEOTROPICA has a conserved role in auxin signaling.Deelopment 139, 1115-1124.
11 Peer WA (2013). From perception to attenuation: auxin signaling and responses.Curr Opin Plant Biol 16, 561-568.
12 Su SH, Gray WM, Masson PH (2015). Auxin: shape matters.Nat Plants 1, 15097.
13 Vasudevan D, Gopalan G, Kumar A, Garcia VJ, Luan S, Swaminathan K (2014). Plant immunophilins: a review of their structure-function relationship. Biochim Biophys Acta doi:10.1016/j.bbagen.2014.12.017.
14 Yang ZB, Geng X, He C, Zhang F, Wang R, Horst WJ, Ding Z (2014). TAA1-regulated local auxin biosynthesis in the root-apex transition zone mediates the aluminum-induced inhibition of root growth in Arabidopsis.Plant Cell 26, 2889-2904.
15 Zheng H, Li S, Ren B, Zhang J, Ichii M, Taketa S, Tao Y, Zuo J, Wang H (2013). LATERAL ROOTLESS2, a cyc- lophilin protein, regulates lateral root initiation and auxin signaling pathway in rice.Mol Plant 6, 1719-1721.
[1] 贺祯媚 李东明 齐艳华. 植物ABCB亚家族生物学功能研究进展[J]. 植物学报, 2019, 54(6): 0-0.
[2] 胡孔琴,丁兆军. 非TIR1受体依赖型激活生长素信号的新机制[J]. 植物学报, 2019, 54(3): 293-295.
[3] 王雅静, 张欣莹, 黄桂荣, 刘晓英, 郭瑞, 顾峰雪, 钟秀丽, 梅旭荣. 植物磷脂酸的特性及其在ABA诱导气孔运动中的作用[J]. 植物学报, 2019, 54(2): 245-254.
[4] 张倩倩, 郑童, 予茜, 葛磊. 生长素与植物根尖干细胞巢的维持[J]. 植物学报, 2018, 53(1): 126-138.
[5] 帅海威, 孟永杰, 陈锋, 周文冠, 罗晓峰, 杨文钰, 舒凯. 植物荫蔽胁迫的激素信号响应[J]. 植物学报, 2018, 53(1): 139-148.
[6] 刘广超, 丁兆军. 生长素介导环境信号调控植物的生长发育[J]. 植物学报, 2018, 53(1): 17-26.
[7] 牛艳丽, 柏胜龙, 王麒云, 刘凌云. 单细胞组学技术及其在植物保卫细胞研究中的应用[J]. 植物学报, 2017, 52(6): 788-796.
[8] 张盛春, 李清明, 阳成伟. 拟南芥金属蛋白酶FtSH4通过生长素与活性氧调控叶片衰老[J]. 植物学报, 2017, 52(4): 453-464.
[9] 张玲玲, 吴丹, 赵子捷, 赵立群. 植物一氧化氮信号分子的研究进展[J]. 植物学报, 2017, 52(3): 337-345.
[10] 景艳军, 林荣呈. 我国植物光信号转导研究进展概述[J]. 植物学报, 2017, 52(3): 257-270.
[11] 商业绯, 李明, 丁博, 牛浩, 杨振宁, 陈小强, 曹高燚, 谢晓东. 生长素调控植物气孔发育的研究进展[J]. 植物学报, 2017, 52(2): 235-240.
[12] 曾后清, 张亚仙, 汪尚, 张夏俊, 王慧中, 杜立群. 植物钙/钙调素介导的信号转导系统[J]. 植物学报, 2016, 51(5): 705-723.
[13] 袁园园, 王丽, 赵盼盼, 王林嵩. 棉花类结瘤素MtN21基因家族生物信息学分析[J]. 植物学报, 2016, 51(4): 515-524.
[14] 彭雄波, 孙蒙祥. 中国科学家在植物受精过程中雌雄配子体信号识别机制研究中取得突破性进展[J]. 植物学报, 2016, 51(2): 145-147.
[15] 曹文杰, 李贵生. 生长素输出载体PIN蛋白的质膜定位机制[J]. 植物学报, 2016, 51(2): 265-273.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
[1] 杨福囤, 何海菊. 高寒草甸地区常见植物热值的初步研究[J]. 植物生态学报, 1983, 7(4): 280 -288 .
[2] Ji Young Jang, Kyung Jin Kwak and Hunseung Kang. Expression of a High Mobility Group Protein Isolated from Cucumis sativus Affects the Germination of Arabidopsis thaliana under Abiotic Stress Conditions[J]. Journal of Integrative Plant Biology, 2008, 50(5): 593 -600 .
[3] 杨伟, 叶其刚, 李作洲, 黄宏文. 中华水韭残存居群的数量性状分化和地方适应性及其对保育遗传复壮策略的提示[J]. 植物生态学报, 2008, 32(1): 143 -151 .
[4] Michael Staab, Joel Methorst, Jan Peters, Nico Blüthgen, Alexandra-Maria Klein. Tree diversity and nectar composition affect arthropod visitors on extrafloral nectaries in a diversity experiment[J]. Journal of Plant Ecology, 2017, 10(1): 201 -212 .
[5] LIU Ying-Hua, HE Kai-Ze , YANG Min, MENG Yi-Wen, PU Qiang. Structure of a Bioactive Fructan from the Root of Cyathula officinalis[J]. Journal of Integrative Plant Biology, 2004, 46(9): 1128 -1134 .
[6] 杨浩, 罗亚晨. 糙隐子草功能性状对氮添加和干旱的响应[J]. 植物生态学报, 2015, 39(1): 32 -42 .
[7] 梅文莉 瞿书华 陈昌祥 吴高芬  . 锡兰肉桂中的黄酮类化合物[J]. Plant Diversity, 2001, 23(03): 1 -3 .
[8] 张新新 王茜 胡颖 周玮 陈晓阳 胡新生. 植物边缘种群遗传多样性研究进展[J]. , 2019, 43(5): 383 -395 .
[9] Hendrik Wünsche, Ian T. Baldwin and Jianqiang Wu. Silencing NOA1 Elevates Herbivory-Induced Jasmonic Acid Accumulation and Compromises Most of the Carbon-Based Defense Metabolites in Nicotiana attenuata[J]. Journal of Integrative Plant Biology, 2011, 53(8): 619 -631 .
[10] 魏晓华, 代力民. 森林溪流倒木生态学研究进展[J]. 植物生态学报, 2006, 30(6): 1018 -1029 .