Add to ORKG409-415The process of ‘cell reprogramming’ can be achieved by somatic cell nuclear transfer, cell fusion with embryonic stem cells, exposure to stem cell extracts, or by inducing pluripotentcy mediated by defined factors giving rise to what are termed induced pluripotent stem cells. More recently, the fate of a somatic cell can be directly induced to uptake other cell fates, termed lineage-specific reprogramming, without the need to de-differentiate the cells to a pluripotent state. In this review we will describe the different methods of reprogramming somatic cell
During embryonic development pluripotency is progressively lost irreversibly by cell division, diffe...
Cell-cell fusion is a natural process that occurs not only during development, but as has emerged ov...
Differentiating somatic cells are progressively restricted to specialized functions during ontogeny,...
Reprogramming of somatic cells to a pluripotent embryonic stem cell-like state has been achieved by ...
Reprogramming of somatic cells to a pluripotent embryonic stem cell-like state has been achieved by ...
Abstract In the course of normal development, cells rarely are able to revert from a differentiated ...
The researches of therapeutic cloning and somatic cell reprogramming, two strategies used to generat...
International audienceReprogramming is the ability to change the fate of a cell to another one. A sc...
International audienceReprogramming is the ability to change the fate of a cell to another one. A sc...
There is currently particular interest in the field of nuclear reprogramming, a process by which the...
Nuclear reprogramming describes a switch in gene expression of one kind of cell to that of another u...
In this study we examine whether a somatic cell, once returned to a pluripotent state, gains the abi...
Cellular differentiation and development appears as a unidirectional process to specific cell fates ...
Stem cells are divided into embryonic and adult stem cells. The relevance of the use of stem cells i...
Somatic cell nuclear transfer (SCNT), the technique commonly known as cloning, permits transformatio...
During embryonic development pluripotency is progressively lost irreversibly by cell division, diffe...
Cell-cell fusion is a natural process that occurs not only during development, but as has emerged ov...
Differentiating somatic cells are progressively restricted to specialized functions during ontogeny,...
Reprogramming of somatic cells to a pluripotent embryonic stem cell-like state has been achieved by ...
Reprogramming of somatic cells to a pluripotent embryonic stem cell-like state has been achieved by ...
Abstract In the course of normal development, cells rarely are able to revert from a differentiated ...
The researches of therapeutic cloning and somatic cell reprogramming, two strategies used to generat...
International audienceReprogramming is the ability to change the fate of a cell to another one. A sc...
International audienceReprogramming is the ability to change the fate of a cell to another one. A sc...
There is currently particular interest in the field of nuclear reprogramming, a process by which the...
Nuclear reprogramming describes a switch in gene expression of one kind of cell to that of another u...
In this study we examine whether a somatic cell, once returned to a pluripotent state, gains the abi...
Cellular differentiation and development appears as a unidirectional process to specific cell fates ...
Stem cells are divided into embryonic and adult stem cells. The relevance of the use of stem cells i...
Somatic cell nuclear transfer (SCNT), the technique commonly known as cloning, permits transformatio...
During embryonic development pluripotency is progressively lost irreversibly by cell division, diffe...
Cell-cell fusion is a natural process that occurs not only during development, but as has emerged ov...
Differentiating somatic cells are progressively restricted to specialized functions during ontogeny,...