破坏苔藓中极化细胞扩展和发育的新小分子。

IF 1.4 4区生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Plant Biotechnology Pub Date : 2025-06-25 DOI:10.5511/plantbiotechnology.25.0209a

Prerna Singh, Naoya Kadofusa, Ayato Sato, Satoshi Naramoto, Tomomichi Fujita

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引用次数: 0

摘要

茎尖生长对植物生长发育至关重要，但调控这一过程的调控机制尚不完全清楚。在这项研究中，我们鉴定了试剂F4，这是一种新的小分子，它可以破坏苔藓，直斑原胞浆菌的尖端生长和极化细胞扩张。通过无偏化学筛选，我们发现试剂F4诱导原细胞形态异常，其特征是细胞伸长减少，细胞扩增受阻。我们的分析表明，F4处理触发肌动蛋白解聚，破坏顶端肌动蛋白病灶，这对启动和维持尖端生长至关重要。此外，急性和长时间的F4暴露都会导致ROP GTPase定位错误，而ROP GTPase是细胞极性的关键调节因子。F4处理的原体转录组学分析显示，参与脂质不对称的基因显著下调，这是极化生长所必需的过程。这些发现证实了F4试剂是一种有价值的工具，可以用来研究鸢尾叶尖生长的分子机制，并强调脂质不对称在协调细胞骨架组织和膜极性方面的潜在作用。

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Novel small molecules disrupting polarized cell expansion and development in the moss, Physcomitrium patens.

Tip growth is vital for plant growth and development, yet the regulatory mechanisms governing this process remain incompletely understood. In this study, we identify Reagent F4, a novel small molecule that disrupts tip growth and polarized cell expansion in the moss, Physcomitrium patens protonemata. Through unbiased chemical screening, we found that Reagent F4 induces abnormal protonemal morphology, characterized by reduced cell elongation and stunted cell expansion. Our analyses revealed that F4 treatment triggers actin depolymerization and disrupts apical actin foci, which are critical for initiating and maintaining tip growth. Additionally, both acute and prolonged F4 exposure led to mislocalization of ROP GTPase, a key regulator of cell polarity. Transcriptomic analyses of F4 treated protonemata show significant downregulation of genes involved in lipid asymmetry, a process essential for polarized growth. These findings establish Reagent F4 as a valuable tool to investigate the molecular mechanisms governing tip growth in P. patens and highlight the potential role of lipid asymmetry in coordinating cytoskeletal organization and membrane polarity.

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来源期刊

Plant Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-PLANT SCIENCES

CiteScore

2.90

自引率

18.80%

发文量

审稿时长

6-12 weeks

期刊介绍： Plant Biotechnology is an international, open-access, and online journal, published every three months by the Japanese Society for Plant Biotechnology. The journal, first published in 1984 as the predecessor journal, “Plant Tissue Culture Letters” and became its present form in 1997 when the society name was renamed to Japanese Society for Plant Cell and Molecular Biology, publishes findings in the areas from basic- to application research of plant biotechnology. The aim of Plant Biotechnology is to publish original and high-impact papers, in the most rapid turnaround time for reviewing, on the plant biotechnology including tissue culture, production of specialized metabolites, transgenic technology, and genome editing technology, and also on the related research fields including molecular biology, cell biology, genetics, plant breeding, plant physiology and biochemistry, metabolic engineering, synthetic biology, and bioinformatics.