Differential 3D genome architecture and imprinted gene expression: cause or consequence?
Benoit MoindrotYui ImaizumiRobert FeilPublished in: Biochemical Society transactions (2024)
Imprinted genes provide an attractive paradigm to unravel links between transcription and genome architecture. The parental allele-specific expression of these essential genes - which are clustered in chromosomal domains - is mediated by parental methylation imprints at key regulatory DNA sequences. Recent chromatin conformation capture (3C)-based studies show differential organization of topologically associating domains between the parental chromosomes at imprinted domains, in embryonic stem and differentiated cells. At several imprinted domains, differentially methylated regions show allelic binding of the insulator protein CTCF, and linked focal retention of cohesin, at the non-methylated allele only. This generates differential patterns of chromatin looping between the parental chromosomes, already in the early embryo, and thereby facilitates the allelic gene expression. Recent research evokes also the opposite scenario, in which allelic transcription contributes to the differential genome organization, similarly as reported for imprinted X chromosome inactivation. This may occur through epigenetic effects on CTCF binding, through structural effects of RNA Polymerase II, or through imprinted long non-coding RNAs that have chromatin repressive functions. The emerging picture is that epigenetically-controlled differential genome architecture precedes and facilitates imprinted gene expression during development, and that at some domains, conversely, the mono-allelic gene expression also influences genome architecture.
Keyphrases
- gene expression
- genome wide
- dna methylation
- copy number
- long non coding rna
- solid phase extraction
- transcription factor
- poor prognosis
- binding protein
- dna damage
- induced apoptosis
- high resolution
- oxidative stress
- cell death
- small molecule
- dna binding
- single molecule
- genome wide identification
- circulating tumor
- pregnancy outcomes