Researchers found that neural crest stem cells are uniquely capable of reprogramming, challenging current reprogramming ...

Neural crest stem cells, a rare type found in skin and other tissues, are uniquely capable of reprogramming into different ...

A recent study explores how MYCN-driven neuroblastoma hijacks the m6A modification process to prevent proper cell ...

A University of Toronto study reveals that neural crest stem cells, found in the skin and other areas, are responsible for the generation of reprogrammed neurons, contradicting the prevailing theory ...

A team led by researchers has discovered that a group of cells located in the skin and other areas of the body, called neural crest stem cells, are the source of reprogrammed neurons found by other ...

Neural crest cells, which can be found below the hair follicle in the skin, are genetically predisposed to develop into neurons. This is not unexpected, as many cell types in the skin originate ...

Researchers at the University of Toronto have identified that neural crest stem cells, a group of cells located in the skin ...

Direct reprogramming of one cell type to another may not be probabilistic, but deterministic, suggests a study focused on ...

More information: Justin J. Belair-Hickey et al, Neural crest precursors from the skin are the primary source of directly reprogrammed neurons, Stem Cell Reports (2024). DOI: 10.1016/j.stemcr.2024 ...

“Neural crest stem cells may have gone unnoticed by others studying cell reprogramming because, while they are widespread throughout the body, they are also rare,” said Derek van der Kooy ...

This study reports MYCN cooperation with the m 6 A methyltransferase METTL3 promoting epitranscriptome changes and a developmental, aggressive state in early trunk neural crest cells (tNCC). m 6 A ...