Schwann cells within the peripheral nervous system possess a remarkable regenerative
potential. Current research shows that peripheral nerve‐associated Schwann cells possess …

The development of the mammalian cerebellum is orchestrated by both cell-autonomous
programs and inductive environmental influences. Here, we describe the main processes of …

INTRODUCTION Our textbook understanding of the nanoscale organization of the cell and
its relationship to the thousands of proteins that drive cellular metabolism comes largely from …

The kinesin, dynein, and myosin superfamily molecular motors have fundamental roles in
neuronal function, plasticity, morphogenesis, and survival by transporting cargos such as …

The nucleus is the largest organelle and is commonly depicted in the center of the cell. Yet
during cell division, migration, and differentiation, it frequently moves to an asymmetric …

Granule cells (GCs) are the most numerous cell type in the cerebellum and indeed, in the
brain: at least 99% of all cerebellar neurons are granule cells. In this review article, we first …

Nuclei move to specific locations to polarize migrating and differentiating cells. Many nuclear
movements are microtubule-dependent. However, nuclear movement to reorient the …

Advances in the study of brain development over the last decades, especially recent findings
regarding the evolutionary expansion of the human neocortex, and large-scale analyses of …

Outer radial glial (oRG) cells are a population of neural stem cells prevalent in the
developing human cortex that contribute to its cellular diversity and evolutionary expansion …

Neuronal migration is a fundamental process in central nervous system (CNS) development.
The assembly of functioning neuronal circuits relies on neuronal migration occurring in the …