CTCF, Cohesin, and Chromatin in Human Cancer
Copyright policy )CTCF, Cohesin, and Chromatin in Human Cancer
It is becoming increasingly clear that eukaryotic genomes are subjected to higher-order chromatin organization by the CCCTC-binding factor/cohesin complex. Their dynamic interactions in three dimensions within the nucleus regulate gene transcription by changing the chromatin architecture. Such spatial genomic organization is functionally important for the spatial disposition of chromosomes to control cell fate during development and differentiation. Thus, the dysregulation of proper long-range chromatin interactions may influence the development of tumorigenesis and cancer progression.
- Seoul National University Korea (Republic of)
- Seoul National University Hospital Korea (Republic of)
- Jeju National University Hospital Korea (Republic of)
higher-order chromatin structure, topologically associated domain, Genetics, gene expression regulation, Review Article, cohesins, QH426-470, CTCF
higher-order chromatin structure, topologically associated domain, Genetics, gene expression regulation, Review Article, cohesins, QH426-470, CTCF
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