Embryonic stem cell neurogenesis and neural specification

## Abstract Over the past decade, cell transplantation has been recognized as a mean of repairing infarcted myocardium. Both adult stem cells and differentiated cells have yielded encouraging results with regard to engraftment into postinfarction scars. However, these cells now feature serious rest

## Abstract Availability of human embryonic stem cells (hESC) has enhanced human neural differentiation research. The derivation of neural progenitor (NP) cells from hESC facilitates the interrogation of human embryonic development through the generation of neuronal subtypes and supporting glial ce

## Abstract In adult mammalian brain, vascular cells reside throughout life, close to central nervous system germinal zones, and neural stem cells (NSCs) mainly localize in the dentate gyrus of the hippocampus, subventricular zone, and olfactory bulb. Microvessels appear to produce a special microe

## Abstract Discovery and characterization of gene promoters, enhancers and repressor binding elements is an important research area in neuroscience. Here, the suitability of embryonic stem cells and their neural derivatives as a model system for this research is investigated. Three neural transgen

Neural stem cells (NSCs) are the self-renewing, multipotent cells that generate neurons, astrocytes, and oligodendrocytes in the nervous system (Fig. 1a). Over the past decades, the confirmation that neurogenesis occurs in discrete areas of the adult brain and that NSCs reside in the adult brain has

## Abstract The neural crest (NC) is a transient population of multipotent progenitors arising at the lateral edge of the neural plate in vertebrate embryos, which then migrate throughout the body to generate diverse array of tissues such as the peripheral nervous system, skin melanocytes, and cran