神经元的有丝分裂后状态与稳定的核高阶结构相关。

The post-mitotic state in neurons correlates with a stable nuclear higher-order structure.

作者信息

Aranda-Anzaldo Armando

机构信息

Laboratorio de Biología Molecular; Facultad de Medicina; Universidad Autónoma del Estado de México; Toluca, México.

出版信息

Commun Integr Biol. 2012 Mar 1;5(2):134-9. doi: 10.4161/cib.18761.

DOI:10.4161/cib.18761

PMID:22808316

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3376047/

Abstract

Neurons become terminally differentiated (TD) post-mitotic cells very early during development yet they may remain alive and functional for decades. TD neurons preserve the molecular machinery necessary for DNA synthesis that may be reactivated by different stimuli but they never complete a successful mitosis. The non-reversible nature of the post-mitotic state in neurons suggests a non-genetic basis for it since no set of mutations has been able to revert it. Comparative studies of the nuclear higher-order structure in neurons and cells with proliferating potential suggest that the non-reversible nature of the post-mitotic state in neurons has a structural basis in the stability of the nuclear higher-order structure.

摘要

神经元在发育早期就成为终末分化（TD）的有丝分裂后细胞，但它们可能存活并发挥功能数十年。TD神经元保留了DNA合成所需的分子机制，这些机制可能会被不同刺激重新激活，但它们从未完成一次成功的有丝分裂。神经元有丝分裂后状态的不可逆性表明其存在非遗传基础，因为没有一组突变能够使其逆转。对神经元和具有增殖潜力的细胞中核高阶结构的比较研究表明，神经元有丝分裂后状态的不可逆性在核高阶结构的稳定性方面具有结构基础。

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神经元的有丝分裂后状态与稳定的核高阶结构相关。

The post-mitotic state in neurons correlates with a stable nuclear higher-order structure.

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