Multifaceted modes of γ-tubulin complex recruitment and microtubule nucleation at mitotic centrosomes

The Journal of Cell Biology Pub Date : 2023-05-18 DOI:10.1101/2022.09.23.509043

Zihan Zhu, Isabelle Bécam, Corinne A. Tovey, Eugenie C. Yen, F. Bernard, A. Guichet, Paul T. Conduit

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Abstract

Microtubule nucleation is mediated by γ-tubulin ring complexes (γ-TuRCs). In most eukaryotes, a GCP4/5/4/6 “core” complex promotes γ-tubulin small complex (γ-TuSC) association to generate cytosolic γ-TuRCs. Unlike γ-TuSCs, however, this core complex is non-essential in various species and absent from budding yeasts. In Drosophila, Spindle defective-2 (Spd-2) and Centrosomin (Cnn) redundantly recruit γ-tubulin complexes to mitotic centrosomes. Here we show that Spd-2 recruits γ-TuRCs formed via the GCP4/5/4/6 core, but that Cnn can recruit γ-TuSCs directly via its well-conserved CM1 domain, similar to its homologues in budding yeast. When centrosomes fail to recruit γ-tubulin complexes, they still nucleate microtubules via the TOG domain protein Mini-spindles (Msps), but these microtubules have different dynamic properties. Our data therefore help explain the dispensability of the GCP4/5/4/6 core and highlight the robustness of centrosomes as microtubule organising centres. They also suggest that the dynamic properties of microtubules are influenced by how they were nucleated.

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有丝分裂中心体γ-微管复合体募集和微管成核的多方面模式

微管成核由γ-微管蛋白环复合物(γ-TuRCs)介导。在大多数真核生物中，GCP4/5/4/6“核心”复合体促进γ-微管蛋白小复合体(γ-TuSC)结合产生细胞质γ- turc。然而，与γ-TuSCs不同的是，这种核心复合物在许多物种中都不是必需的，在出芽酵母中也不存在。在果蝇中，纺锤体缺陷-2 (Spd-2)和中心体蛋白(Cnn)冗余地向有丝分裂中心体募集γ-微管蛋白复合物。我们发现Spd-2可以通过GCP4/5/4/6核心招募γ-TuRCs，而Cnn可以通过其保守的CM1结构域直接招募γ-TuSCs，类似于其在芽殖酵母中的同源物。当中心体无法募集到γ-微管蛋白复合物时，中心体仍通过TOG结构域蛋白微纺锤体(Msps)形成微管，但这些微管具有不同的动力学特性。因此，我们的数据有助于解释GCP4/5/4/6核心的可有可无，并强调中心体作为微管组织中心的稳健性。他们还认为微管的动态特性受其成核方式的影响。

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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The Journal of Cell Biology

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