核力学：板层网络和病理性泡状结构。

Nuclear mechanics: lamin webs and pathological blebs.

机构信息

Lewis-Sigler Institute for Integrative Genomics and Joseph Henry Laboratories of Physics; Princeton University, Princeton NJ, USA.

出版信息

Nucleus. 2013 May-Jun;4(3):156-9. doi: 10.4161/nucl.25019. Epub 2013 May 15.

DOI:10.4161/nucl.25019

PMID:23697996

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3720744/

Abstract

Anomalies in the three-dimensional shape of the nucleus are associated with a number of genetic diseases. These shape distortions include lobulated structures, with localized bulges referred to as nuclear blebs. Blebbing can result from mutations in genes encoding lamin intermediate filaments that form the lamin cortex, a thin meshwork lining the nuclear envelope. However, the biophysical origins of nuclear blebs remain a mystery. A recent study by Funkhouser et al. provides a theoretical model in which the lamin cortex is modeled as a thin, inhomogeneous elastic shell. This model shows that partial segregation of different lamin sub-networks-each with distinct mechanical properties-can lead to shell morphologies similar to blebbed nuclei in living cells.

摘要

核的三维形状异常与许多遗传疾病有关。这些形状扭曲包括分叶结构，局部隆起称为核泡。泡状结构可能是由于编码形成核纤层皮质的核纤层中间丝的基因突变所致，核纤层皮质是核膜的一层薄网格。然而，核泡的生物物理起源仍然是一个谜。Funkhouser 等人最近的一项研究提供了一个理论模型，其中核纤层皮质被建模为一个薄的、不均匀的弹性壳。该模型表明，不同核纤层亚网络的部分分离（每个亚网络具有不同的力学性质）可导致类似于活细胞中泡状核的壳形态。

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