International audienceReprogramming technologies show that cellular identity can be reprogrammed, challenging the classical conception of cell differentiation as an irreversible process. If non-stem cells can be reprogrammed into stem cells, then what is it to be a stem cell, and what kind of property is stemness? This article addresses this question both philosophically and biologically, states the different possibilities, and illustrates their potential consequences for science with the example of anti-cancer therapies
The ability of stem cells to self-renew and generate different lineages during development and organ...
Embryonic, adult, artificially reprogrammed, and cancer...-there are various types of cells associat...
Generation of pluripotent stem cells (iPSCs) from adult fibroblasts starts a "new era" in stem cell ...
International audienceReprogramming technologies show that cellular identity can be reprogrammed, ch...
International audienceReprogramming is the ability to change the fate of a cell to another one. A sc...
International audienceThis chapter brings a philosophical perspective to the concept of stem cell. T...
Although development leads unidirectionally toward more restricted cell fates, recent work in cellul...
Reprogramming relies on the concept that cellular fate is plastic, and therefore a considerable effo...
Developmental biology, regenerative medicine and cancer biology are increasingly occupied with the m...
In the past few years, relatively straightforward laboratory tech-niques have been developed to repr...
Several recent studies of the effect of oncogenes in stem cells in cancer development implicate that...
Budding off from the broader developmental biology and stem cell research fields, cellular reprogram...
Cellular reprogramming drives cells from one stable identity to a new cell fate. By generating a div...
Stem cells have two remarkable abilities: they can self-renew to keep the stem cell pool replenished...
The discovery that somatic cells can be reprogrammed to induced pluripotent stem cells (iPSCs) by th...
The ability of stem cells to self-renew and generate different lineages during development and organ...
Embryonic, adult, artificially reprogrammed, and cancer...-there are various types of cells associat...
Generation of pluripotent stem cells (iPSCs) from adult fibroblasts starts a "new era" in stem cell ...
International audienceReprogramming technologies show that cellular identity can be reprogrammed, ch...
International audienceReprogramming is the ability to change the fate of a cell to another one. A sc...
International audienceThis chapter brings a philosophical perspective to the concept of stem cell. T...
Although development leads unidirectionally toward more restricted cell fates, recent work in cellul...
Reprogramming relies on the concept that cellular fate is plastic, and therefore a considerable effo...
Developmental biology, regenerative medicine and cancer biology are increasingly occupied with the m...
In the past few years, relatively straightforward laboratory tech-niques have been developed to repr...
Several recent studies of the effect of oncogenes in stem cells in cancer development implicate that...
Budding off from the broader developmental biology and stem cell research fields, cellular reprogram...
Cellular reprogramming drives cells from one stable identity to a new cell fate. By generating a div...
Stem cells have two remarkable abilities: they can self-renew to keep the stem cell pool replenished...
The discovery that somatic cells can be reprogrammed to induced pluripotent stem cells (iPSCs) by th...
The ability of stem cells to self-renew and generate different lineages during development and organ...
Embryonic, adult, artificially reprogrammed, and cancer...-there are various types of cells associat...
Generation of pluripotent stem cells (iPSCs) from adult fibroblasts starts a "new era" in stem cell ...