Not just binary: embracing the complexity of nuclear division dynamics.

Nucleus (Austin, Tex.) Pub Date : 2024-12-01 Epub Date: 2024-06-06 DOI:10.1080/19491034.2024.2360601

Madison E Walsh, Grant A King, Elçin Ünal

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Abstract

Cell division presents a challenge for eukaryotic cells: how can chromosomes effectively segregate within the confines of a membranous nuclear compartment? Different organisms have evolved diverse solutions by modulating the degree of nuclear compartmentalization, ranging from complete nuclear envelope breakdown to complete maintenance of nuclear compartmentalization via nuclear envelope expansion. Many intermediate forms exist between these extremes, suggesting that nuclear dynamics during cell division are surprisingly plastic. In this review, we highlight the evolutionary diversity of nuclear divisions, focusing on two defining characteristics: (1) chromosome compartmentalization and (2) nucleocytoplasmic transport. Further, we highlight recent evidence that nuclear behavior during division can vary within different cellular contexts in the same organism. The variation observed within and between organisms underscores the dynamic evolution of nuclear divisions tailored to specific contexts and cellular requirements. In-depth investigation of diverse nuclear divisions will enhance our understanding of the nucleus, both in physiological and pathological states.

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不仅仅是二进制：拥抱核分裂动态的复杂性。

细胞分裂给真核细胞带来了挑战：染色体如何才能在膜状核室的范围内有效分离？不同的生物通过调节核分隔的程度进化出了不同的解决方案，从完全破坏核包膜到通过核包膜扩张完全维持核分隔，不一而足。在这两个极端之间还存在许多中间形式，这表明细胞分裂过程中的核动力学具有惊人的可塑性。在这篇综述中，我们强调了核分裂的进化多样性，重点关注两个决定性特征：(1) 染色体区隔化和 (2) 核胞质运输。此外，我们还着重介绍了最近的证据，即在同一生物体的不同细胞环境中，分裂过程中的核行为会有所不同。在生物体内和生物体之间观察到的变化突出表明，核分裂是根据特定环境和细胞要求进行的动态进化。对各种核分裂的深入研究将增进我们对生理和病理状态下细胞核的了解。

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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Nucleus (Austin, Tex.)

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