Giulia Orlando, Ben Kinnersley, Richard S. Houlston
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引用次数: 10
Abstract
Chromosome conformation capture (3C), coupled with next-generation sequencing (Hi-C), provides a means for deciphering not only the principles underlying genome folding and architecture, but more broadly, the role 3D chromatin structure plays in gene regulation and the replication and repair of DNA. The recently implemented modification, in situ Hi-C, maintains nuclear integrity during digestion and ligation steps, reducing random ligation of Hi-C fragments. Although Hi-C allows for genome-wide characterization of chromatin contacts, it requires high-depth sequencing to discover significant contacts. To address this, Capture Hi-C (CHi-C) enriches standard Hi-C libraries for regions of biological interest, for example by specifically targeting gene promoters, aiding identification of biologically significant chromatin interactions compared to conventional Hi-C, for an equivalent number of sequence reads. Illustrating the application of CHi-C applied to genome-wide analysis of chromatin interactions with promoters, we detail the protocols for in situ Hi-C and CHi-C library generation for sequencing, as well as the bioinformatics tools for data analysis. © 2018 by John Wiley & Sons, Inc.
捕获Hi-C库生成和分析检测染色质相互作用
染色体构象捕获(3C)与下一代测序(Hi-C)相结合,不仅为破译基因组折叠和结构的原理提供了一种手段,而且更广泛地说,三维染色质结构在基因调控和DNA复制和修复中的作用。最近实施的修改,原位Hi-C,在消化和连接步骤中保持核完整性,减少了Hi-C片段的随机连接。尽管Hi-C允许染色质接触的全基因组表征,但它需要高深度测序来发现重要的接触。为了解决这个问题,Capture Hi-C (CHi-C)为生物感兴趣的区域丰富了标准Hi-C文库,例如,通过特异性靶向基因启动子,帮助鉴定与传统Hi-C相比具有生物学意义的染色质相互作用,以获得相同数量的序列读取。为了说明CHi-C在染色质与启动子相互作用的全基因组分析中的应用,我们详细介绍了原位Hi-C和CHi-C文库生成测序的方案,以及用于数据分析的生物信息学工具。©2018 by John Wiley &儿子,Inc。
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