利用生物物理、生化和细胞学分析追踪人类细胞周期中的组蛋白变体核小体。

Tracking histone variant nucleosomes across the human cell cycle using biophysical, biochemical, and cytological analyses.

作者信息

Walkiewicz Marcin P, Bui Minh, Quénet Delphine, Dalal Yamini

机构信息

Chromatin Structure and Epigenetic Mechanisms Unit, Laboratory of Receptor Biology and Gene Expression, Center for Cancer Research, National Cancer Institute, NIH, Bethesda, MD, 20892, USA.

出版信息

Methods Mol Biol. 2014;1170:589-615. doi: 10.1007/978-1-4939-0888-2_34.

DOI:10.1007/978-1-4939-0888-2_34

PMID:24906339

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6322406/

Abstract

Histone variants such as H3.3, macroH2A, H2A.Z, and CENP-A are important epigenetic modifiers of the chromatin state in eukaryotic genomes. The centromeric histone H3 variant CENP-A/CENH3 epigenetically marks centromeres and is required for assembly of the kinetochore complex, a region of the chromosome that is responsible for proper genome segregation during mitosis. Several diverse techniques using biochemical, cell biology, and biophysical approaches have been utilized to study the nature of the CENP-A nucleosome across the cell cycle. In this chapter, we describe methods for CENP-A nucleosome purification and separation of CENP-A from other core histones using traditional SDS-PAGE and more resolving techniques such as Triton acid urea (TAU) and two-dimensional gels. We also discuss methods for observation of CENP-A on chromatin fibers using immunofluorescence. Finally, we provide a detailed description of analysis of chromatin structures using atomic force microscopy.

摘要

组蛋白变体，如H3.3、macroH2A、H2A.Z和CENP-A，是真核基因组中染色质状态的重要表观遗传修饰因子。着丝粒组蛋白H3变体CENP-A/CENH3在表观遗传学上标记着丝粒，是动粒复合体组装所必需的，动粒复合体是染色体上在有丝分裂期间负责基因组正确分离的区域。已经使用了几种不同的技术，包括生化、细胞生物学和生物物理方法，来研究整个细胞周期中CENP-A核小体的性质。在本章中，我们描述了使用传统的SDS-PAGE以及更具分辨率的技术（如Triton酸尿素（TAU）和二维凝胶）从其他核心组蛋白中纯化和分离CENP-A核小体的方法。我们还讨论了使用免疫荧光观察染色质纤维上CENP-A的方法。最后，我们详细描述了使用原子力显微镜分析染色质结构的方法。

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