Spatial chromatin accessibility sequencing resolves high-order spatial interactions of epigenomic markers

Spatial chromatin accessibility sequencing resolves high-order spatial interactions of epigenomic markers

As the genome is organized into a three-dimensional structure in intracellular space, epigenomic information also has a complex spatial arrangement. However, most epigenetic studies describe locations of methylation marks, chromatin accessibility regions, and histone modifications in the horizontal...

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Veröffentlicht in:eLife 2024-01, Vol.12
Hauptverfasser: Xie, Yeming, Ruan, Fengying, Li, Yaning, Luo, Meng, Zhang, Chen, Chen, Zhichao, Xie, Zhe, Weng, Zhe, Chen, Weitian, Chen, Wenfang, Fang, Yitong, Sun, Yuxin, Guo, Mei, Wang, Juan, Xu, Shouping, Wang, Hongqi, Tang, Chong
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container_title eLife
container_volume 12
creator Xie, Yeming
Ruan, Fengying
Li, Yaning
Luo, Meng
Zhang, Chen
Chen, Zhichao
Xie, Zhe
Weng, Zhe
Chen, Weitian
Chen, Wenfang
Fang, Yitong
Sun, Yuxin
Guo, Mei
Wang, Juan
Xu, Shouping
Wang, Hongqi
Tang, Chong
description As the genome is organized into a three-dimensional structure in intracellular space, epigenomic information also has a complex spatial arrangement. However, most epigenetic studies describe locations of methylation marks, chromatin accessibility regions, and histone modifications in the horizontal dimension. Proper spatial epigenomic information has rarely been obtained. In this study, we designed spatial chromatin accessibility sequencing (SCA-seq) to resolve the genome conformation by capturing the epigenetic information in single-molecular resolution while simultaneously resolving the genome conformation. Using SCA-seq, we are able to examine the spatial interaction of chromatin accessibility (e.g. enhancer–promoter contacts), CpG island methylation, and spatial insulating functions of the CCCTC-binding factor. We demonstrate that SCA-seq paves the way to explore the mechanism of epigenetic interactions and extends our knowledge in 3D packaging of DNA in the nucleus.
doi_str_mv 10.7554/eLife.87868.4
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title Spatial chromatin accessibility sequencing resolves high-order spatial interactions of epigenomic markers
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