Unknown,Transcriptomics,Genomics,Proteomics

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Nucleophosmin binding on the mouse X chromosomes


ABSTRACT: In mammals, one of the female X chromosomes and all imprinted genes are expressed exclusively from a single allele in somatic cells. To evaluate structural changes associated with allelic silencing, we have applied a recently developed Hi-C assay that uses DNase I for chromatin fragmentation to mouse F1 hybrid systems. Results We find radically different conformations for the two female mouse X chromosomes. The inactive X has two superdomains of frequent intrachromosomal contacts separated by a boundary/hinge region. Comparison with the recently reported bipartite 3D structure of the human inactive X shows that the genomic content of the superdomains differs between species, but part of the hinge is conserved and located near the Dxz4/DXZ4 locus. In mouse, the hinge region also contains a minisatellite Ds-TR, and both Dxz4 and Ds-TR appear to be anchored to the nucleolus. Genes that escape X inactivation do not cluster but are located near the periphery of the 3D structure, as are regions enriched in CTCF or RNA polymerase. Fewer short-range intrachromosomal contacts are detected for the inactive alleles of genes subject to X inactivation, compared to the active alleles and to genes that escape X inactivation. This pattern is also evident for imprinted genes, in which more chromatin contacts are detected for the expressed allele. Conclusions By applying a novel Hi-C method to map allelic chromatin contacts, we discover a specific bipartite organization of the mouse inactive X chromosome that probably plays an important role in maintenance of gene silencing. Examination of Nucleophosmin-binding profiles in male and female mouse livers

ORGANISM(S): Mus musculus

SUBMITTER: Xinxian Deng 

PROVIDER: E-GEOD-71903 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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