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中国科学家在植物细胞骨架研究领域取得突破性进展

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  • 1浙江农林大学, 亚热带森林培育国家重点实验室, 杭州 311300
    2香港中文大学, 生命科学学院, 细胞及发育生物学研究中心, 农业生物技术国家重点实验室, 沙田
    3香港中文大学深圳研究院, 深圳 518057
作者简介:白克智, 1959年开始在中国科学院植物研究所工作, 先后任助理研究员、研究员, 长期从事植物生长发育及其调控的研究。1986年,其主持的“满江红生物学特性研究”荣获中国科学院科技进步二等奖。曾任《植物生理学报》编委、《植物学报》常务编委、中国植物生长调节剂协会主任等职。

收稿日期: 2018-09-02

  网络出版日期: 2018-10-06

Chinese Scientists Make Groundbreaking Discoveries in Plant Cytoskeleton

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  • 1State Key Laboratory of Subtropical Silviculture, Zhejiang A&F University, Hangzhou 311300, China;
    2State Key Laboratory of Agrobiotechnology, Centre for Cell & Developmental Biology, School of Life Sciences, the Chinese University of Hong Kong, Shatian, China;
    3Shenzhen Research Institute, the Chinese University of Hong Kong, Shenzhen 518057, China

Received date: 2018-09-02

  Online published: 2018-10-06

摘要

微管是细胞骨架的重要组成部分, 为真核细胞生命活动所必需。与其它生物体类似, 微管不仅在植物生长发育中起重要作用, 而且参与响应外界环境信号。近期, 中国科学家在解析植物微管精准切割及微管骨架动态重构调控机制的研究中取得突破性进展。

本文引用格式

沈锦波, 姜里文 . 中国科学家在植物细胞骨架研究领域取得突破性进展[J]. 植物学报, 2018 , 53(6) : 741 -744 . DOI: 10.11983/CBB18187

Abstract

Microtubules (MTs) are an essential component of the cytoskeleton in eukaryotic cells. Similar to other living organisms, for MTs, the organization and dynamics are critical for the normal growth and development of plants but are also responsible for environmental responses. Recently, Chinese scientists have made groundbreaking discoveries in illustrating the underlying mechanisms of MTs in precise regulating the dynamic organization of cortical arrays in plants.

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参考文献

[1] Ehrhardt DW (2008). Straighten up and fly right: microtubule dynamics and organization of non-centrosomal arrays in higher plants.Curr Opin Cell Biol 20, 107-116.
[2] Li SD, Bashline L, Zheng YZ, Xin XR, Huang SX, Kong ZS, Kim SH, Cosgrove DJ, Gu Y (2016). Cellulose synthase complexes act in a concerted fashion to synthesize highly aggregated cellulose in secondary cell walls of plants.Proc Natl Acad Sci USA 113, 11348-11353.
[3] Liu T, Tian J, Wang GD, Yu YJ, Wang CF, Ma YP, Zhang XX, Xia GX, Liu B, Kong ZS (2014). Augmin triggers mic- rotubule-dependent microtubule nucleation in interphase plant cells.Curr Biol 24, 2708-2713.
[4] McFarlane HE, D$\ddot{o}$ring A, Persson S (2014). The cell biology of cellulose synthesis.Annu Rev Plant Biol 65, 69-94.
[5] McNally FJ, Vale RD (1993). Identification of katanin, an ATPase that severs and disassembles stable microtu- bules.Cell 75, 419-429.
[6] Nick P (2013). Microtubules, signaling and abiotic stress.Plant J 75, 309-323.
[7] Paredez AR, Somerville CR, Ehrhardt DW (2006). Vis- ualization of cellulose synthase demonstrates functional association with microtubules.Science 312, 1491-1495.
[8] Roll-Mecak A, McNally FJ (2010). Microtubule-severing enzymes.Curr Opin Cell Biol 22, 96-103.
[9] Sharp DJ, Ross JL (2012). Microtubule-severing enzymes at the cutting edge.J Cell Sci 125, 2561-2569.
[10] Shaw SL (2013). Reorganization of the plant cortical microtubule array.Curr Opin Plant Biol 16, 693-697.
[11] Wang CF, Liu WW, Wang GD, Li J, Dong L, Han LB, Wang Q, Tian J, Yu YJ, Gao CX, Kong ZS (2017). KTN80 confers precision to microtubule severing by specific targeting of katanin complexes in plant cells.EMBO J 36, 3435-3447.
[12] Wang GD, Wang CF, Liu WW, Ma YP, Dong L, Tian J, Yu YJ, Kong ZS (2018). Augmin antagonizes Katanin at microtubule crossovers to control the dynamic organi- zation of plant cortical arrays.Curr Biol 28, 1311-1317.
[13] Wasteneys GO, Ambrose JC (2009). Spatial organization of plant cortical microtubules: close encounters of the 2D kind.Trends Cell Biol 19, 62-71.
[14] Watanabe Y, Meents MJ, McDonnell LM, Barkwill S, Sampathkumar A, Cartwright HN, Demura T, Ehrhardt DW, Samuels AL, Mansfield SD (2015). Visualization of cellulose synthases in Arabidopsis secondary cell walls.Science 350, 198-203.
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