Doublecortin is a developmentally regulated, microtubule-associated protein expressed in migrating and differentiating neurons.

TL;DR: Developmental iodine deficiency and hypothyroidism impair the expression of doublecortin and NCAM-180, leading to nerve fiber malfunction and thus impairments in hippocampal development.

TL;DR: Despite greatly reduced proliferative rates and recent reports of Nestin+ neuroprogenitor loss, total numbers of early Sox1+ NPCs were unaffected by age, and newborn cell survival within the dentate gyrus was increased, thus suggesting age-associated changes in fate-choice determination.

TL;DR: Results do not support Ser-297 as the major cdk5 phosphorylation site in DCX, but indicate that DCX is subject to complex multisite phosphorylated sites.

TL;DR: The retina-specific expression and the sequence similarity to RP1 render RP1L1 a potential candidate for inherited retinal disorders, and a homologue in Fugu rubripes (pufferfish).

TL;DR: The reeler phenotype seems to reflect a failure of early events associated with brain lamination which are normally controlled by reelin.

TL;DR: Electron microscopic analysis of serial sections showed that during chain migration, neural precursors moved associated with each other and were not guided by radial glial or axonal fibers.

TL;DR: A novel 10 kb brain-specific cDNA interrupted by a balanced translocation in an XLIS patient that encodes a novel 40 kDa predicted protein named Doublecortin, which may define an Abl-dependent pathway regulating neuronal migration.

TL;DR: The cloning of a gene (LIS-1, lissencephaly-1) in 17p13.3 that is deleted in Miller–Dieker patients is reported, identifying LIS-l as the disease gene and the deduced amino-acid sequence shows significant homology to β-subunits of heterotrimeric G proteins, suggesting that it could possibly be involved in a signal transduction pathway crucial for cerebral development.