Israeli–US research collaboration marks a step forward in drug development for GRIN2D mutationResearchers at the Gray Faculty ...

UC Riverside study may lead to new treatments for multiple sclerosis. Multiple sclerosis (MS) affects an estimated 2.3 ...

Cerebellar rhythm loss due to climbing fiber regression is a shared pathophysiology of motor deficits across cerebellar ...

Cerebellar granule cells are the most abundant cell type in the mouse brain. These cells contain cilia while they are developing, which helps the cells detect a protein that controls proliferation ...

The cerebellum plays a critical role in both motor and non-motor functions, and its dysfunction is linked to various mental disorders, including autism.

The cerebellum is a region of the brain that helps us refine our movements and learn new motor skills. Patients and mouse models experience many kinds of abnormal movements when their cerebellum is ...

The cerebellum is responsible for far more than coordinating movement. New techniques reveal that it is, in fact, a hub of sensory and emotional processing in the brain.

Chenyu Wang, a UCSF graduate student in Bender’s lab and first author of the study, decided to look at what the SCN2A variant was doing in the mouse cerebellum. Guy Bouvier, PhD, a cerebellum expert ...

The cerebellum is responsible for far more than coordinating movement. New techniques reveal that it is, in fact, a hub of sensory and emotional processing in the brain.

The model generates all of the major cell types of the cerebellum and could be used to study human neural development and disorders.

Tracing the evolution of the cerebellum using single-cell sequencing “In this study, we generated single-nucleus RNA-sequencing data for ~400,000 cells to trace cerebellum development from early ...

Using sections of mouse cerebellum that contained still living cells, Busch injected the cells with dye to see their branches and then stimulated climbing fiber inputs.