有丝分裂染色体的机制。

IF 7.2 2区 生物学 Q1 BIOPHYSICS Quarterly Reviews of Biophysics Pub Date : 2021-09-17 DOI:10.1017/S0033583521000081
T Man, H Witt, E J G Peterman, G J L Wuite
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引用次数: 4

摘要

基因组的凝聚和忠实分离对细胞生命周期至关重要。在染色体分离过程中,有丝分裂纺锤体产生的机械力将姐妹染色单体拉开。这一过程的机械性质激发了人们对有丝分裂染色体机械特性的研究兴趣。虽然它们的基本机械特征是已知的,但这些特征是如何从有丝分裂染色体的结构中产生的仍然不清楚。基因组学、计算和超分辨率显微镜技术的最新进展极大地促进了我们对染色体结构的理解,并促使我们根据当前的结构见解来回顾染色体的机械特性。在这篇综述中,我们将首先介绍目前对染色体结构的理解,然后回顾有丝分裂染色体的杨氏模量和弯曲模量等特征力学性质。然后,我们将讨论用于将机械特性与染色体结构联系起来的方法,我们还将讨论机械表征如何有助于阐明其结构。最后,将讨论该研究领域的未来挑战、最新发展和新出现的问题。
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The mechanics of mitotic chromosomes.

Condensation and faithful separation of the genome are crucial for the cellular life cycle. During chromosome segregation, mechanical forces generated by the mitotic spindle pull apart the sister chromatids. The mechanical nature of this process has motivated a lot of research interest into the mechanical properties of mitotic chromosomes. Although their fundamental mechanical characteristics are known, it still remains unclear how these characteristics emerge from the structure of the mitotic chromosome. Recent advances in genomics, computational and super-resolution microscopy techniques have greatly promoted our understanding of the chromosomal structure and have motivated us to review the mechanical characteristics of chromosomes in light of the current structural insights. In this review, we will first introduce the current understanding of the chromosomal structure, before reviewing characteristic mechanical properties such as the Young's modulus and the bending modulus of mitotic chromosomes. Then we will address the approaches used to relate mechanical properties to the structure of chromosomes and we will also discuss how mechanical characterization can aid in elucidating their structure. Finally, future challenges, recent developments and emergent questions in this research field will be discussed.

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来源期刊
Quarterly Reviews of Biophysics
Quarterly Reviews of Biophysics 生物-生物物理
CiteScore
12.90
自引率
1.60%
发文量
16
期刊介绍: Quarterly Reviews of Biophysics covers the field of experimental and computational biophysics. Experimental biophysics span across different physics-based measurements such as optical microscopy, super-resolution imaging, electron microscopy, X-ray and neutron diffraction, spectroscopy, calorimetry, thermodynamics and their integrated uses. Computational biophysics includes theory, simulations, bioinformatics and system analysis. These biophysical methodologies are used to discover the structure, function and physiology of biological systems in varying complexities from cells, organelles, membranes, protein-nucleic acid complexes, molecular machines to molecules. The majority of reviews published are invited from authors who have made significant contributions to the field, who give critical, readable and sometimes controversial accounts of recent progress and problems in their specialty. The journal has long-standing, worldwide reputation, demonstrated by its high ranking in the ISI Science Citation Index, as a forum for general and specialized communication between biophysicists working in different areas. Thematic issues are occasionally published.
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