Regions of very low H3K27me3 partition the Drosophila genome into topological domains
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Evolutionarily Conserved Principles Predict 3D Chromatin Organization.Broad Chromatin Domains: An Important Facet of Genome Regulation.Similarity in replication timing between polytene and diploid cells is associated with the organization of the Drosophila genome.: Linking Metabolism and Epigenetics4C-seq characterization of Drosophila BEAF binding regions provides evidence for highly variable long-distance interactions between active chromatin
P2860
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
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2017年の論文
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Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@ast
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@en
type
label
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@ast
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@en
prefLabel
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@ast
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@en
P2093
P2860
P50
P1433
P1476
Regions of very low H3K27me3 partition the Drosophila genome into topological domains
@en
P2093
Rosalyn Flower
Sherif El-Sharnouby
Siew Woh Choo
P2860
P304
P356
10.1371/JOURNAL.PONE.0172725
P407
P577
2017-03-10T00:00:00Z