MYB3R-SCL28-SMR module with a role in cell size control negatively regulates G2 progression in Arabidopsis.

IF 2.8 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Plant Signaling & Behavior Pub Date : 2023-12-31 Epub Date: 2022-12-28 DOI:10.1080/15592324.2022.2153209

Hirotomo Takatsuka, Yuji Nomoto, Kesuke Yamada, Keito Mineta, Christian Breuer, Takashi Ishida, Ayumi Yamagami, Keiko Sugimoto, Takeshi Nakano, Masaki Ito

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引用次数: 0

Abstract

Cell size control is one of the prerequisites for plant growth and development. Recently, a GRAS family transcription factor, SCARECROW-LIKE28 (SCL28), was identified as a critical regulator for both mitotic and postmitotic cell-size control. Here, we show that SCL28 is specifically expressed in proliferating cells and exerts its function to delay G2 progression during mitotic cell cycle in Arabidopsis thaliana. Overexpression of SCL28 provokes a significant enlargement of cells in various organs and tissues, such as leaves, flowers and seeds, to different extents depending on the type of cells. The increased cell size is most likely due to a delayed G2 progression and accelerated onset of endoreplication, an atypical cell cycle repeating DNA replication without cytokinesis or mitosis. Unlike DWARF AND LOW-TILLERING, a rice ortholog of SCL28, SCL28 may not have a role in brassinosteroid (BR) signaling because sensitivity against brassinazole, a BR biosynthesis inhibitor, was not dramatically altered in scl28 mutant and SCL28-overexpressing plants. Collectively, our findings strengthen a recently proposed model of cell size control by SCL28 and suggest the presence of diversified evolutionary mechanisms for the regulation and action of SCL28.

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在细胞大小控制中发挥作用的 MYB3R-SCL28-SMR 模块负向调节拟南芥的 G2 进程。

细胞大小控制是植物生长和发育的先决条件之一。最近，一种 GRAS 家族转录因子 SCARECROW-LIKE28 （SCL28）被确定为有丝分裂和有丝分裂后细胞大小控制的关键调节因子。在这里，我们发现 SCL28 在拟南芥的增殖细胞中特异性表达，并在有丝分裂细胞周期中发挥其延迟 G2 进展的功能。过表达 SCL28 会导致叶、花和种子等不同器官和组织中的细胞显著增大，增大程度因细胞类型而异。细胞体积增大很可能是由于 G2 进展延迟和内复制（一种重复 DNA 复制而无细胞分裂或有丝分裂的非典型细胞周期）开始加速所致。与 SCL28 的水稻直向同源物 DWARF 和 LOW-TILLERING 不同，SCL28 可能不参与黄铜素（BR）信号转导，因为在 scl28 突变体和 SCL28 超表达植株中，对黄铜素（一种 BR 生物合成抑制剂）的敏感性没有显著改变。总之，我们的发现加强了最近提出的 SCL28 细胞大小控制模型，并表明 SCL28 的调控和作用存在多样化的进化机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Plant Signaling & Behavior Agricultural and Biological Sciences-Plant Science

CiteScore

6.00

自引率

3.40%

发文量

111

期刊介绍： Plant Signaling & Behavior, a multidisciplinary peer-reviewed journal published monthly online, publishes original research articles and reviews covering the latest aspects of signal perception and transduction, integrative plant physiology, and information acquisition and processing.