Add to ORKGBackgroundCardiovascular disease is associated with epigenomic changes in the heart; however, the endogenous structure of cardiac myocyte chromatin has never been determined.MethodsTo investigate the mechanisms of epigenomic function in the heart, genome-wide chromatin conformation capture (Hi-C) and DNA sequencing were performed in adult cardiac myocytes following development of pressure overload-induced hypertrophy. Mice with cardiac-specific deletion of CTCF (a ubiquitous chromatin structural protein) were generated to explore the role of this protein in chromatin structure and cardiac phenotype. Transcriptome analyses by RNA-seq were conducted as a functional readout of the epigenomic structural changes.ResultsDepletion of CTCF was suff...
Background: H3K27ac histone acetylome changes contribute to the phenotypic response in heart disease...
The underlying mechanisms by which cell identity is achieved in a cell type-specific manner during d...
Background: H3K27ac histone acetylome changes contribute to the phenotypic response in heart disease...
The chromatin architectural rearrangements that permit disease gene expression are just beginning to...
BACKGROUND: Cardiovascular disease is associated with epigenomic changes in the heart; however, the ...
Heart failure is a syndrome resulting from multiple genetic and environmental factors. In response t...
Under pathological stress, an otherwise healthy heart may enter hypertrophy, a partially-reversible,...
The temporal nature of chromatin structural changes underpinning pathologic transcription are poorly...
The temporal nature of chromatin structural changes underpinning pathologic transcription are poorly...
Packaging of the genome in the nucleus is a non-random process that is thought to directly contribut...
Epigenetic processes are known to have powerful roles in organ development across biology. It has re...
Epigenetic processes are known to have powerful roles in organ development across biology. It has re...
Packaging of the genome in the nucleus is a non-random process that is thought to directly contribut...
Packaging of the genome in the nucleus is a non-random process that is thought to directly contribut...
When faced with chronic stress, the heart enters a compensatory hypertrophic stage; without interven...
Background: H3K27ac histone acetylome changes contribute to the phenotypic response in heart disease...
The underlying mechanisms by which cell identity is achieved in a cell type-specific manner during d...
Background: H3K27ac histone acetylome changes contribute to the phenotypic response in heart disease...
The chromatin architectural rearrangements that permit disease gene expression are just beginning to...
BACKGROUND: Cardiovascular disease is associated with epigenomic changes in the heart; however, the ...
Heart failure is a syndrome resulting from multiple genetic and environmental factors. In response t...
Under pathological stress, an otherwise healthy heart may enter hypertrophy, a partially-reversible,...
The temporal nature of chromatin structural changes underpinning pathologic transcription are poorly...
The temporal nature of chromatin structural changes underpinning pathologic transcription are poorly...
Packaging of the genome in the nucleus is a non-random process that is thought to directly contribut...
Epigenetic processes are known to have powerful roles in organ development across biology. It has re...
Epigenetic processes are known to have powerful roles in organ development across biology. It has re...
Packaging of the genome in the nucleus is a non-random process that is thought to directly contribut...
Packaging of the genome in the nucleus is a non-random process that is thought to directly contribut...
When faced with chronic stress, the heart enters a compensatory hypertrophic stage; without interven...
Background: H3K27ac histone acetylome changes contribute to the phenotypic response in heart disease...
The underlying mechanisms by which cell identity is achieved in a cell type-specific manner during d...
Background: H3K27ac histone acetylome changes contribute to the phenotypic response in heart disease...