Add to ORKGAuthor summary Certain modifications of the structure and functioning of the protein/DNA complex called chromatin can allow adult, fully differentiated, cells to adopt a stem cell-like pluripotent state in a purely epigenetic manner, not involving changes in the underlying DNA sequence. Such reprogramming-like phenomena may constitute an innate reparative route through which human tissues respond to injury and could also serve as a novel regenerative strategy in human pathological situations in which tissue or organ repair is impaired. However, it should be noted that in vivo reprogramming would be capable of maintaining tissue homeostasis provided the acquisition of pluripotency features is strictly transient and accompanied by an accurate...
Cell fate plasticity, a cell’s ability to change its identity and function, produces the wide variet...
Abstract Cellular differentiation is a highly complex process and we need a deeper understanding of ...
Somatic cell reprogramming has dramatically changed stem cell research in recent years. The high pac...
Reprogramming-like phenomena in response to damage signalling may constitute a reparative route thro...
The inherent capacity of somatic cells to switch their phenotypic status in response to damage stimu...
The inherent capacity of somatic cells to switch their phenotypic status in response to damage stimu...
Altres ajuts: Obra Social La Caixa Foundation on Collaborative Mathematics awarded to the Centre de ...
Adult stem cells, which exist throughout the body, multiply by cell division to replenish dying cell...
Maintaining tissue homeostasis requires appropriate regulation of stem cell differentiation. The Wad...
Adult stem cells, which exist throughout the body, multiply by cell division to replenish dying cell...
Adult stem cells, which exist throughout the body, multiply by cell division to replenish dying cell...
Reprogramming relies on the concept that cellular fate is plastic, and therefore a considerable effo...
EDITORIAL COMMENT Cells have some specific molecular and physiological properties that act their ...
Somatic cell reprogramming has dramatically changed stem cell research in recent years. The high pac...
Embryonic stem cells exhibit pluripotency: they can differentiate into all types of somatic cells. P...
Cell fate plasticity, a cell’s ability to change its identity and function, produces the wide variet...
Abstract Cellular differentiation is a highly complex process and we need a deeper understanding of ...
Somatic cell reprogramming has dramatically changed stem cell research in recent years. The high pac...
Reprogramming-like phenomena in response to damage signalling may constitute a reparative route thro...
The inherent capacity of somatic cells to switch their phenotypic status in response to damage stimu...
The inherent capacity of somatic cells to switch their phenotypic status in response to damage stimu...
Altres ajuts: Obra Social La Caixa Foundation on Collaborative Mathematics awarded to the Centre de ...
Adult stem cells, which exist throughout the body, multiply by cell division to replenish dying cell...
Maintaining tissue homeostasis requires appropriate regulation of stem cell differentiation. The Wad...
Adult stem cells, which exist throughout the body, multiply by cell division to replenish dying cell...
Adult stem cells, which exist throughout the body, multiply by cell division to replenish dying cell...
Reprogramming relies on the concept that cellular fate is plastic, and therefore a considerable effo...
EDITORIAL COMMENT Cells have some specific molecular and physiological properties that act their ...
Somatic cell reprogramming has dramatically changed stem cell research in recent years. The high pac...
Embryonic stem cells exhibit pluripotency: they can differentiate into all types of somatic cells. P...
Cell fate plasticity, a cell’s ability to change its identity and function, produces the wide variet...
Abstract Cellular differentiation is a highly complex process and we need a deeper understanding of ...
Somatic cell reprogramming has dramatically changed stem cell research in recent years. The high pac...