Add to ORKGThe human body consists of hundreds of kinds of cells specified from a single genome overlaid with cell type-specific epigenetic information. Comprehensively profiling the body's distinct epigenetic landscapes will allow researchers to verify cell types used in regenerative medicine and to determine the epigenetic effects of disease, environmental exposures and genetic variation. Key marks/factors that should be investigated include regions of nucleosome-free DNA accessible to regulatory factors, histone marks defining active enhancers and promoters, DNA methylation levels, regulatory RNAs, and factors controlling the three-dimensional conformation of the genome. Here we use the lung to illustrate the importance of investigating an organ's ...
The epigenome plays the pivotal role as interface between genome and environment. True genome-wide a...
The genetic architecture of complex traits is multifactorial. Genome-wide association studies (GWASs...
The constant interplay between DNA methylation, histone modifications and small interfering RNAs – i...
The human body consists of hundreds of kinds of cells specified from a single genome overlaid with c...
The reference human genome sequence set the stage for studies of genetic variation and its associati...
Complexity of lung microenvironment and changes in cellular composition during disease make it excep...
It is undeniably one of the greatest findings in biology that (with some very minor exceptions) ever...
Epigenetic regulation is dynamic and cell-type de-pendent. The recently available epigenomic data in...
It is undeniably one of the greatest findings in biology that (with some very minor exceptions) ever...
<div><p>Epigenetic mechanisms such as DNA methylation or histone modifications are essential for the...
Epigenetic regulation of gene expression is critical for normal human development and cellular diffe...
The constant interplay between DNA methylation, histone modifica-tions and small interfering RNAs – ...
International audienceWhile major advances in single cell transcriptomics have occurred, the epigeno...
Although virtually all cells in an organism share the same genome, regulatory mechanisms give rise t...
Advances in sequencing technologies have enabled exploration of epigenetic and transcriptional profi...
The epigenome plays the pivotal role as interface between genome and environment. True genome-wide a...
The genetic architecture of complex traits is multifactorial. Genome-wide association studies (GWASs...
The constant interplay between DNA methylation, histone modifications and small interfering RNAs – i...
The human body consists of hundreds of kinds of cells specified from a single genome overlaid with c...
The reference human genome sequence set the stage for studies of genetic variation and its associati...
Complexity of lung microenvironment and changes in cellular composition during disease make it excep...
It is undeniably one of the greatest findings in biology that (with some very minor exceptions) ever...
Epigenetic regulation is dynamic and cell-type de-pendent. The recently available epigenomic data in...
It is undeniably one of the greatest findings in biology that (with some very minor exceptions) ever...
<div><p>Epigenetic mechanisms such as DNA methylation or histone modifications are essential for the...
Epigenetic regulation of gene expression is critical for normal human development and cellular diffe...
The constant interplay between DNA methylation, histone modifica-tions and small interfering RNAs – ...
International audienceWhile major advances in single cell transcriptomics have occurred, the epigeno...
Although virtually all cells in an organism share the same genome, regulatory mechanisms give rise t...
Advances in sequencing technologies have enabled exploration of epigenetic and transcriptional profi...
The epigenome plays the pivotal role as interface between genome and environment. True genome-wide a...
The genetic architecture of complex traits is multifactorial. Genome-wide association studies (GWASs...
The constant interplay between DNA methylation, histone modifications and small interfering RNAs – i...