Add to ORKGDNA methylation plays a role in a variety of biological processes including embryonic development, imprinting, X-chromosome inactivation, and stem cell differentiation. Tissue specific differential methylation has also been well characterized. We sought to extend these studies to create a map of differential DNA methylation between different cell types derived from a single tissue. Using three pairs of isogenic human mammary epithelial and fibroblast cells, promoter region DNA methylation was characterized using MeDIP coupled to microarray analysis. Comparison of DNA methylation between these cell types revealed nearly three thousand cell-type specific differentially methylated regions (ctDMRs). MassARRAY was performed upon 87 ctDMRs to con...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
In mammals, DNA methylation is essential for development, and helps determine cell identity in over ...
(1) Background: Epithelial–mesenchymal plasticity (EMP) is a dynamic process whereby epithelial carc...
DNA methylation plays a role in a variety of biological processes including embryonic development, i...
Methylation change plays an important role in many cellular systems, including cancer development. D...
Differentiation is an epigenetic program that involves the gradual loss of pluripotency and acquisit...
Cancer is a heterogeneous and tissue-specific disease. Thus, the tissue of origin reflects on the na...
Introduction: Five different molecular subtypes of breast cancer have been identified through gene e...
Cancer is a heterogeneous and tissue-specific disease. Thus, the tissue of origin reflects on the na...
<p>DNA methylation can affect tissue-specific gene transcription in ways that are difficult to disce...
Aberrant DNA methylation is frequently observed in breast cancer. However, the relationship between ...
Breast cancer is a complex disease consisting of four distinct molecular subtypes. DNA methylation-b...
DNA methylation is an important epigenetic modification involved in many biological processes and di...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
In mammals, DNA methylation is essential for development, and helps determine cell identity in over ...
(1) Background: Epithelial–mesenchymal plasticity (EMP) is a dynamic process whereby epithelial carc...
DNA methylation plays a role in a variety of biological processes including embryonic development, i...
Methylation change plays an important role in many cellular systems, including cancer development. D...
Differentiation is an epigenetic program that involves the gradual loss of pluripotency and acquisit...
Cancer is a heterogeneous and tissue-specific disease. Thus, the tissue of origin reflects on the na...
Introduction: Five different molecular subtypes of breast cancer have been identified through gene e...
Cancer is a heterogeneous and tissue-specific disease. Thus, the tissue of origin reflects on the na...
<p>DNA methylation can affect tissue-specific gene transcription in ways that are difficult to disce...
Aberrant DNA methylation is frequently observed in breast cancer. However, the relationship between ...
Breast cancer is a complex disease consisting of four distinct molecular subtypes. DNA methylation-b...
DNA methylation is an important epigenetic modification involved in many biological processes and di...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
BACKGROUND: DNA epigenetic modifications, such as methylation, are important regulators of tissue di...
In mammals, DNA methylation is essential for development, and helps determine cell identity in over ...
(1) Background: Epithelial–mesenchymal plasticity (EMP) is a dynamic process whereby epithelial carc...