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Epigenetic features of differentiation-regulated replication origins


ABSTRACT: To identify chromatin states and histone modifications that locally mark replication origins, we profiled origin distributions in eight human cell lines representing embryonic and differentiated cell types. Consistent with a role for chromatin in determining origin activity, we found that cancer and non-cancer cells of similar lineages exhibited highly similar replication origin distributions. Surprisingly, our study revealed that DNAse hypersensitivity, which often correlates with early replication at large-scale chromatin domains, did not emerge as a strong local determinant of origin activity. Instead, we found that two distinct sets of chromatin modifications exhibited strong local associations with two discrete groups of replication origins. The first origin group consisted of about 50,000 regions that actively initiated replication in all cell types examined and preferentially colocalized with unmethylated CpGs and with the euchromatin markers, H3K4me3 and H3K9Ac. The second group consisted of origins that were consistently active in cells of a single type or lineage and preferentially colocalized with the heterochromatin marker, H3K9me3. Shared origins replicated throughout the S-phase of the cell cycle, whereas cell-type specific origins preferentially replicated during late S-phase.

ORGANISM(S): Homo sapiens

PROVIDER: GSE80391 | GEO | 2016/05/11

SECONDARY ACCESSION(S): PRJNA318786

REPOSITORIES: GEO

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