HYCCIN2 招募 SH3P2-DRP1A 推动拟南芥胚胎细胞板形成过程中的膜管形成

Ya-wen Hsu, Chine-Ta Juan, Cian-Ling Guo, Huei-Jing Wang, Guang-Yuh Jauh
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摘要

当细胞质发生分裂产生两个子细胞时,细胞分裂标志着细胞分裂达到顶峰。这一错综复杂的过程包含各种生物现象,包括细胞骨架的组织和囊泡的动力学。细胞板的发育与细胞骨架结构的变化和来自跨高尔基体的囊泡的变化相一致,最终形成平面细胞板。然而,这些过程在植物体内的协调关系仍有待确定。在此,我们介绍了 HYCCIN-CONTAINING2 (HYC2),它是一种关键的细胞骨架交联蛋白,聚集在韧皮部,在细胞板的形成过程中起着至关重要的作用。一项涉及拟南芥无丝分裂后消耗 HYC2 的遗传研究揭示了 HYC2 在细胞板形成中的功能。HYC2与细胞板形成过程中膜管形成所必需的达因明相关蛋白1A(DRP1A)和含SH3结构域的蛋白2(SH3P2)相互作用。在同源突变的hyc2-2球状胚胎中,SH3P2和DRP1A被招募到细胞板和膈膜组织中。我们的研究结果揭示了HYC2在组装细胞板过程中的细胞骨架功能,它可能通过引导含有SH3P2-DRP1A的囊泡到达平面细胞板。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recruitment of SH3P2–DRP1A by HYCCIN2 Drives Membrane Tubulation in Arabidopsis Embryonic Cell Plate Formation
Cytokinesis marks the culmination of cell division when the cytoplasm undergoes division to yield two daughter cells. This intricate process encompasses various biological phenomena, including the organization of the cytoskeleton and the dynamics of vesicles. The development of the cell plate aligns with alterations in the cytoskeleton structure and vesicles derived from the trans–Golgi, ultimately resulting in the formation of the planar cell plate. Nevertheless, the coordination of these processes in plants remains to be determined. Here, we introduce HYCCIN–CONTAINING2 (HYC2) as a pivotal cytoskeleton cross–linking protein that accumulates at phragmoplasts and plays a crucial role in cell plate formation. A genetic study involving the depletion of HYC2 post–anaphase in Arabidopsis revealed HYC2′s function in cell plate formation. HYC2 interacted with dynamin–related protein 1A (DRP1A) and SH3 domain–containing protein 2 (SH3P2), essential for membrane tubulation during cell plate formation. The recruitment of SH3P2 and DRP1A to the cell plate and phragmoplast organization was compromised in homozygous hyc2–2 mutant globular embryos. Our results shed light on the cytoskeletal function of HYC2 in assembling the cell plate, potentially by guiding vesicles containing SH3P2–DRP1A to the planar cell plate.
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