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Literature DB >> 25693564

Chromatin architecture reorganization during stem cell differentiation.

Jesse R Dixon¹, Inkyung Jung², Siddarth Selvaraj³, Yin Shen², Jessica E Antosiewicz-Bourget⁴, Ah Young Lee², Zhen Ye², Audrey Kim², Nisha Rajagopal², Wei Xie⁵, Yarui Diao², Jing Liang⁶, Huimin Zhao⁶, Victor V Lobanenkov⁷, Joseph R Ecker⁸, James A Thomson⁹, Bing Ren¹⁰.

Abstract

Higher-order chromatin structure is emerging as an important regulator of gene expression. Although dynamic chromatin structures have been identified in the genome, the full scope of chromatin dynamics during mammalian development and lineage specification remains to be determined. By mapping genome-wide chromatin interactions in human embryonic stem (ES) cells and four human ES-cell-derived lineages, we uncover extensive chromatin reorganization during lineage specification. We observe that although self-associating chromatin domains are stable during differentiation, chromatin interactions both within and between domains change in a striking manner, altering 36% of active and inactive chromosomal compartments throughout the genome. By integrating chromatin interaction maps with haplotype-resolved epigenome and transcriptome data sets, we find widespread allelic bias in gene expression correlated with allele-biased chromatin states of linked promoters and distal enhancers. Our results therefore provide a global view of chromatin dynamics and a resource for studying long-range control of gene expression in distinct human cell lineages.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Chromatin

Year: 2015 PMID： 25693564 PMCID： PMC4515363 DOI： 10.1038/nature14222

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

39 in total

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