Lis1-Nde1-dependent neuronal fate control determines cerebral cortical size and lamination (2008)
Pawlisz, Ashley S., Mutch, Christopher, Wynshaw-Boris, Anthony, Chenn, Anjen, Walsh, Christopher A., Feng, Yuanyi
Neurons in the cerebral cortex originate predominantly from asymmetrical divisions of polarized radial glial or neuroepithelial cells. Fate control of neural progenitors through regulating cell...
A novel transgenic mouse model of fetal encephalization and craniofacial development (2008)
López, Elisabeth K. N., Stock, Stuart R., Taketo, Makoto Mark, Chenn, Anjen, Ravosa, Matthew J.
There are surprisingly few experimental models of neural growth and cranial integration. This, and the dearth of information regarding fetal brain development, detracts from a mechanistic...
A cell behavior screen: identification, sorting, and enrichment of cells based on motility (2005)
Windler-Hart, Sarah L, Chen, Kwan Y, Chenn, Anjen
Abstract Background Identifying and isolating cells with specific behavioral characteristics will facilitate the understanding of the molecular basis regulating these behaviors. Although many...
Chenn, Anjen, Walsh, Christopher A.
β-Catenin can function in the decision of neural precursors to proliferate or differentiate during mammalian neuronal development and may regulate cerebral cortical size by controlling the...
Asymmetric divisions and mammalian cerebral cortical development / Anjen Chenn. (1996)
Submitted to the Program in Neurosciences.
Lis1–Nde1-dependent neuronal fate control determines cerebral cortical size and lamination
Pawlisz, Ashley S., Mutch, Christopher, Wynshaw-Boris, Anthony, Chenn, Anjen, Walsh, Christopher A., Feng, Yuanyi
Neurons in the cerebral cortex originate predominantly from asymmetrical divisions of polarized radial glial or neuroepithelial cells. Fate control of neural progenitors through regulating cell...
Wnt/β-catenin signaling in cerebral cortical development
The cerebral cortex is the multilayered sheet of neurons that underlies our highest cognitive abilities. Canonical Wnt/β-catenin signaling has well-known activities in tissue patterning in...