Catalytic growth in a shared enzyme pool ensures robust control of centrosome size.

Deb Sankar Banerjee, Shiladitya Banerjee
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Abstract

Accurate regulation of centrosome size is essential for ensuring error-free cell division, and dysregulation of centrosome size has been linked to various pathologies, including developmental defects and cancer. While a universally accepted model for centrosome size regulation is lacking, prior theoretical and experimental works suggest a centrosome growth model involving autocatalytic assembly of the pericentriolar material. Here we show that the autocatalytic assembly model fails to explain the attainment of equal centrosome sizes, which is crucial for error-free cell division. Incorporating latest experimental findings into the molecular mechanisms governing centrosome assembly, we introduce a new quantitative theory for centrosome growth involving catalytic assembly within a shared pool of enzymes. Our model successfully achieves robust size equality between maturing centrosome pairs, mirroring cooperative growth dynamics observed in experiments. To validate our theoretical predictions, we compare them with available experimental data and demonstrate the broad applicability of the catalytic growth model across different organisms, which exhibit distinct growth dynamics and size scaling characteristics.

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共享酶池中的催化生长确保了中心体大小的稳健控制。
中心体大小的精确调节对于确保无错误的细胞分裂至关重要,中心体尺寸的失调与各种病理有关,包括发育缺陷和癌症。虽然缺乏普遍接受的中心体尺寸调节模型,但先前的理论和实验工作表明,中心体生长模型涉及心周物质的自催化组装。在这里,我们表明,自催化组装模型无法解释中心体大小相等的实现,这对于无错误的细胞分裂至关重要。将最新的实验结果纳入控制中心体组装的分子机制中,我们引入了一种新的中心体生长的定量理论,该理论涉及在共享的酶池中的催化组装。我们的模型成功地实现了成熟中心体对之间稳健的大小相等,反映了实验中观察到的合作生长动力学。为了验证我们的理论预测,我们将其与现有的实验数据进行了比较,并证明了催化生长模型在不同生物体中的广泛适用性,这些生物体表现出不同的生长动力学和尺寸尺度特征。
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