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根基本组织成熟过程中不对称细胞分裂的调控

Control of Asymmetric Cell Divisions during Root Ground Tissue Maturation.

作者信息

Choi Ji Won, Lim Jun

机构信息

Department of Systems Biotechnology, Konkuk University, Seoul 05029, Korea.

出版信息

Mol Cells. 2016 Jul;39(7):524-9. doi: 10.14348/molcells.2016.0105. Epub 2016 Jun 16.

DOI:10.14348/molcells.2016.0105
PMID:27306644
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4959016/
Abstract

Controlling the production of diverse cell/tissue types is essential for the development of multicellular organisms such as animals and plants. The Arabidopsis thaliana root, which contains distinct cells/tissues along longitudinal and radial axes, has served as an elegant model to investigate how genetic programs and environmental signals interact to produce different cell/tissue types. In the root, a series of asymmetric cell divisions (ACDs) give rise to three ground tissue layers at maturity (endodermis, middle cortex, and cortex). Because the middle cortex is formed by a periclinal (parallel to the axis) ACD of the endodermis around 7 to 14 days post-germination, middle cortex formation is used as a parameter to assess maturation of the root ground tissue. Molecular, genetic, and physiological studies have revealed that the control of the timing and extent of middle cortex formation during root maturation relies on the interaction of plant hormones and transcription factors. In particular, abscisic acid and gibberellin act synergistically to regulate the timing and extent of middle cortex formation, unlike their typical antagonism. The SHORT-ROOT, SCARECROW, SCARECROW-LIKE 3, and DELLA transcription factors, all of which belong to the plant-specific GRAS family, play key roles in the regulation of middle cortex formation. Recently, two additional transcription factors, SEUSS and GA- AND ABA-RESPONSIVE ZINC FINGER, have also been characterized during ground tissue maturation. In this review, we provide a detailed account of the regulatory networks that control the timing and extent of middle cortex formation during post-embryonic root development.

摘要

控制多种细胞/组织类型的产生对于动植物等多细胞生物的发育至关重要。拟南芥根沿纵向和径向轴包含不同的细胞/组织,已成为研究遗传程序和环境信号如何相互作用以产生不同细胞/组织类型的理想模型。在根中,一系列不对称细胞分裂(ACD)在成熟时产生三个基本组织层(内皮层、中皮层和皮层)。由于中皮层是在发芽后7至14天左右由内皮层的平周(与轴平行)ACD形成的,因此中皮层的形成被用作评估根基本组织成熟度的参数。分子、遗传和生理学研究表明,根成熟过程中中皮层形成的时间和程度的控制依赖于植物激素和转录因子的相互作用。特别是,脱落酸和赤霉素协同作用来调节中皮层形成的时间和程度,这与它们典型的拮抗作用不同。SHORT-ROOT、SCARECROW、SCARECROW-LIKE 3和DELLA转录因子均属于植物特有的GRAS家族,在中皮层形成的调控中起关键作用。最近,另外两个转录因子SEUSS和GA-AND ABA-RESPONSIVE ZINC FINGER在基本组织成熟过程中也得到了表征。在这篇综述中,我们详细阐述了在胚后根发育过程中控制中皮层形成时间和程度的调控网络。

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本文引用的文献

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Mol Plant. 2016 Jun 6;9(6):870-84. doi: 10.1016/j.molp.2016.02.009. Epub 2016 Mar 10.
2
SEUSS Integrates Gibberellin Signaling with Transcriptional Inputs from the SHR-SCR-SCL3 Module to Regulate Middle Cortex Formation in the Arabidopsis Root.SEUSS将赤霉素信号与来自SHR-SCR-SCL3模块的转录输入整合起来,以调控拟南芥根中皮层的形成。
Plant Physiol. 2016 Mar;170(3):1675-83. doi: 10.1104/pp.15.01501. Epub 2016 Jan 27.
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Cortex proliferation in the root is a protective mechanism against abiotic stress.
Front Plant Sci. 2022 May 3;13:882517. doi: 10.3389/fpls.2022.882517. eCollection 2022.
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Dialog between Kingdoms: Enemies, Allies and Peptide Phytohormones.王国之间的对话:敌人、盟友与肽类植物激素
Plants (Basel). 2021 Oct 21;10(11):2243. doi: 10.3390/plants10112243.
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A coupled mechano-biochemical model for cell polarity guided anisotropic root growth.一种用于细胞极性导向的各向异性根生长的机械-生化耦合模型。
Elife. 2021 Nov 1;10:e72132. doi: 10.7554/eLife.72132.
6
A PHABULOSA-Controlled Genetic Pathway Regulates Ground Tissue Patterning in the Arabidopsis Root.PHABULOSA 调控的遗传途径调控拟南芥根的基本组织模式。
Curr Biol. 2021 Jan 25;31(2):420-426.e6. doi: 10.1016/j.cub.2020.10.038. Epub 2020 Nov 10.
7
The APC/C E3 Ubiquitin Ligase Complex Mediates the Antagonistic Regulation of Root Growth and Tillering by ABA and GA.APC/C E3 泛素连接酶复合物介导 ABA 和 GA 对根生长和分蘖的拮抗调控。
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The Arabidopsis Hypoxia Inducible Long Non-Coding RNA also Contributes to Plant Defense and Root Elongation Coordinating with WRKY Genes under Low Levels of Salicylic Acid.拟南芥缺氧诱导长链非编码RNA在低水平水杨酸条件下也与WRKY基因协同作用,参与植物防御和根伸长。
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10
SCARECROW reinforces SHORT-ROOT signaling and inhibits periclinal cell divisions in the ground tissue by maintaining SHR at high levels in the endodermis.SCARECROW 通过维持内皮层中 SHR 的高水平来增强SHORT-ROOT 信号并抑制基本组织中的平周细胞分裂。
Plant Signal Behav. 2012 Dec;7(12):1573-7. doi: 10.4161/psb.22437. Epub 2012 Oct 16.