Bud14 function is crucial for spindle pole body size maintenance.

Turkish journal of biology = Turk biyoloji dergisi Pub Date : 2024-08-05 eCollection Date: 2024-01-01 DOI:10.55730/1300-0152.2702

Sevilay Münire Girgin, Ayşe Koca Çaydaşi

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Abstract

Background/aim: Spindle pole bodies (SPB), the functional equivalent of centrosomes in yeast, duplicate through generation of a new SPB next to the old one. However, SPBs are dynamic structures that can grow and exchange, and mechanisms that regulate SPB size remain largely unknown. This study aims to elucidate the role of Bud14 in SPB size maintenance in Saccharomyces cerevisiae.

Materials and methods: We employed quantitative fluorescence microscopy to assess the relative and absolute amounts of SPB structural proteins at SPBs of wildtype cells and in cells lacking BUD14 (bud14Δ). Quantifications were performed using asynchronous cell cultures, as well as cultures synchronously progressing through the cell cycle and upon different cell cycle arrests. We also utilized mutants that allow the separation of Bud14 functions.

Results: Our results indicate that higher levels of SPB inner, outer, and central plaque proteins are present at the SPBs of bud14Δ cells compared to wildtype cells during anaphase, as well as during nocodazole-induced M-phase arrest. However, during α-factor mediated G1 arrest, inner and outer plaque proteins responded differently to the absence of BUD14. A Bud14 mutant that cannot interact with the Protein Phosphatase 1 (Glc7) phenocopied bud14Δ in terms of SPB-bound levels of the inner plaque protein Spc110, whereas disruption of Bud14-Kel1-Kel2 complex did not alter Spc110 levels at SPBs. In cells synchronously released from α-factor arrest, lack of Bud14-Glc7 caused increase of Spc110 at the SPBs at early stages of the cell cycle.

Conclusion: We identified Bud14 as a critical protein for SPB size maintenance. The interaction of Bud14 with Glc7, but not with the Kelch proteins, is indispensable for restricting levels of Spc110 incorporated into the SPBs.

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Bud14 功能对保持主轴杆身尺寸至关重要。

背景/目的：纺锤体极体（SPB）在功能上相当于酵母中的中心体，通过在旧的纺锤体极体旁边生成新的纺锤体极体进行复制。然而，SPB是一种可以生长和交换的动态结构，而调节SPB大小的机制在很大程度上仍然未知。本研究旨在阐明Bud14在维持酿酒酵母SPB大小中的作用：我们采用定量荧光显微镜评估了野生型细胞和缺乏BUD14（bud14Δ）的细胞中SPB结构蛋白的相对量和绝对量。我们使用非同步细胞培养物、细胞周期同步进展的培养物以及不同细胞周期停滞的培养物进行了定量分析。我们还利用了可分离芽14功能的突变体：结果：我们的研究结果表明，与野生型细胞相比，芽14Δ细胞的SPB内部、外部和中央斑块蛋白水平在无丝分裂期以及诺考达唑诱导的M期停滞期间更高。然而，在α因子介导的G1期停滞过程中，内斑块蛋白和外斑块蛋白对BUD14缺失的反应不同。不能与蛋白磷酸酶1（Glc7）相互作用的BUD14突变体在内层斑块蛋白Spc110的SPB结合水平方面与BUD14Δ相似，而破坏BUD14-Kel1-Kel2复合物并不会改变SPB上的Spc110水平。在从α因子停滞同步释放的细胞中，缺乏Bud14-Glc7会导致细胞周期早期SPB上的Spc110增加：我们发现Bud14是维持SPB大小的关键蛋白。结论：我们发现Bud14是维持SPB大小的关键蛋白。Bud14与Glc7的相互作用，而不是与Kelch蛋白的相互作用，对于限制SPB中Spc110的结合水平是不可或缺的。

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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Turkish journal of biology = Turk biyoloji dergisi

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