The process in which neuroepithelial cells in the neural tube acquire specialized structural and/or functional features of oligodendrocytes. Oligodendrocytes are non-neuronal cells. The primary function of oligodendrocytes is the myelination of nerve axons in the central nervous system. Differentiation includes the processes involved in commitment of a cell to a specific fate.

The process in which neuroepithelial cells in the ventral neural tube acquire specialized structural and/or functional features of radial glial cells. Radial cell precursors differentiate into both neuronal cell types and mature radial glial cells. Mature radial glial cells regulate the axon growth and pathfinding processes that occur during white matter patterning of the developing spinal cord. Differentiation includes the processes involved in commitment of a cell to a specific fate.

The process in which a relatively unspecialized cell acquires specialized features of a neuron that will reside in the forebrain.

The series of molecular signals initiated by binding of a Wnt protein to a frizzled family receptor on the surface of the target cell, followed by propagation of the signal via beta-catenin, and ending with a change in transcription of target genes. In this pathway, the activated receptor signals via downstream effectors that result in the inhibition of beta-catenin phosphorylation, thereby preventing degradation of beta-catenin. Stabilized beta-catenin can then accumulate and travel to the nucleus to trigger changes in transcription of target genes.

The commitment of neurectodermal cells to cells of the eye field and their capacity to differentiate into eye field cells. Eye field cells are neurectodermal cells that will form the optic placode.