One of the main challenges of current research on aging is to identify the complex epigenetic mechanisms involved in the acquisition of the cellular senescent phenotype. Despite some evidence suggested that epigenetic changes of DNA repetitive elements, including transposable elements (TE) sequences, are associated with replicative senescence of fibroblasts, data on different types of cells are scarce. We previously analysed genome-wide DNA methylation of young and replicative senescent human endothelial cells (HUVECs), highlighting increased levels of demethylated sequences in senescent cells. Here, we aligned the most significantly demethylated single CpG sites to the reference genome and annotated their localization inside TE sequences a...
The aim of the present study was to provide a comprehensive characterization of whole genome DNA met...
BackgroundCellular senescence is a stable arrest of proliferation and is considered a key component ...
In culture, human mesenchymal stromal cells enter replicative senescence after a limited amount of c...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
Cellular senescence is classified into two groups: replicative and premature senescence. Gene expres...
Abstract Senescence, a state of permanent cell cycle arrest, can be induced by DNA damage. This proc...
Altered DNA methylation and associated destabilization of genome integrity and function is a hallmar...
Replicative cellular senescence is the main cause of aging. It is important to note that early senes...
Replicative senescence has a major impact on function and integrity of cell preparations. This proce...
AbstractBackground: Limited replicative capacity is a defining characteristic of most normal human c...
DNA methylation exhibits a gradual genome-wide decrease in association with aging and the rate of de...
Replicative senescence is the state of irreversible proliferative arrest that occurs as a concomitan...
The aim of the present study was to provide a comprehensive characterization of whole genome DNA met...
BackgroundCellular senescence is a stable arrest of proliferation and is considered a key component ...
In culture, human mesenchymal stromal cells enter replicative senescence after a limited amount of c...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
One of the main challenges of current research on aging is to identify the complex epigenetic mechan...
Cellular senescence is classified into two groups: replicative and premature senescence. Gene expres...
Abstract Senescence, a state of permanent cell cycle arrest, can be induced by DNA damage. This proc...
Altered DNA methylation and associated destabilization of genome integrity and function is a hallmar...
Replicative cellular senescence is the main cause of aging. It is important to note that early senes...
Replicative senescence has a major impact on function and integrity of cell preparations. This proce...
AbstractBackground: Limited replicative capacity is a defining characteristic of most normal human c...
DNA methylation exhibits a gradual genome-wide decrease in association with aging and the rate of de...
Replicative senescence is the state of irreversible proliferative arrest that occurs as a concomitan...
The aim of the present study was to provide a comprehensive characterization of whole genome DNA met...
BackgroundCellular senescence is a stable arrest of proliferation and is considered a key component ...
In culture, human mesenchymal stromal cells enter replicative senescence after a limited amount of c...