Add to ORKGEach cell type in human has own gene interaction networks. For instance, it is known that the interaction network between gene A and B is in a cell type but not in other cell types. It is considered that differences of gene interaction networks between cell types are attributed to differences of epigenetic modification
Epigenetics refers to a host of different mechanisms that regulate the expression levels of genes in...
Although virtually all cells in an organism share the same genome, regulatory mechanisms give rise t...
profiles may hold substantial promise for identifying mechanisms through which genetic and environme...
<p>A combination of the variation of the healthy methylation profiles in regions (a) and (b) of gene...
DNA methylation is an essential epigenetic mechanism involved in transcriptional control. However, h...
While population studies have resulted in detailed maps of genetic variation in humans, to date ther...
While population studies have resulted in detailed maps of genetic variation in humans, to date ther...
BACKGROUND: DNA methylation is an essential epigenetic mechanism involved in transcriptional control...
Using all the genomic regions and the enhancers, methylation profiles were similar between cell type...
(A) We studied population variability of DNA methylation in five different purified cell types deriv...
DNA methylation is an essential epigenetic mark whose role in gene regulation and its dependency on ...
DNA methylation patterns are important for establishing cell, tissue, and organism phenotypes, but l...
The epigenome plays a vital role in helping to maintain and regulate cell functions in all organisms...
<div><p>Epigenetic processes–including DNA methylation–are increasingly seen as having a fundamental...
The constant interplay between DNA methylation, histone modifica-tions and small interfering RNAs – ...
Epigenetics refers to a host of different mechanisms that regulate the expression levels of genes in...
Although virtually all cells in an organism share the same genome, regulatory mechanisms give rise t...
profiles may hold substantial promise for identifying mechanisms through which genetic and environme...
<p>A combination of the variation of the healthy methylation profiles in regions (a) and (b) of gene...
DNA methylation is an essential epigenetic mechanism involved in transcriptional control. However, h...
While population studies have resulted in detailed maps of genetic variation in humans, to date ther...
While population studies have resulted in detailed maps of genetic variation in humans, to date ther...
BACKGROUND: DNA methylation is an essential epigenetic mechanism involved in transcriptional control...
Using all the genomic regions and the enhancers, methylation profiles were similar between cell type...
(A) We studied population variability of DNA methylation in five different purified cell types deriv...
DNA methylation is an essential epigenetic mark whose role in gene regulation and its dependency on ...
DNA methylation patterns are important for establishing cell, tissue, and organism phenotypes, but l...
The epigenome plays a vital role in helping to maintain and regulate cell functions in all organisms...
<div><p>Epigenetic processes–including DNA methylation–are increasingly seen as having a fundamental...
The constant interplay between DNA methylation, histone modifica-tions and small interfering RNAs – ...
Epigenetics refers to a host of different mechanisms that regulate the expression levels of genes in...
Although virtually all cells in an organism share the same genome, regulatory mechanisms give rise t...
profiles may hold substantial promise for identifying mechanisms through which genetic and environme...