Abnormal activation of parvalbumin neurons in the young mouse auditory cortex manifests as a result of maternal neglect.
A novel AI system recognizes a neuron in microscope images of the brain more efficiently than any previous approach. The system improves current methods of tracing neurons and their connections, which can help improve brain mapping.
CSHL researchers document how neuroblasts make their journey through the rostral migratory stream to their target destination in the olfactory bulb.
A multiyear study reveals, contrary to expectations, numbers and ratios of three major inhibitory cell types vary stereo-typically across different cortical parts. Additionally, researchers identified 11 subcortical areas with gender specific differences in mice.
A new Cell study reports on the molecular-genetic basis of neural cell types. The study reports families of gene encoding proteins involved in neurotransmission define neurons by determining which cells they connect to and how they communicate.
A new process for classifying neurons in the brains of mice has been outlined by researchers from Cold Spring Harbor Laboratory. The platform pairs microscopy with genetic labeling at single neuron resolution, allowing researchers to reconstruct the brain, by providing information on every neuronal type's location.
Too many chandelier cells in the binocular region of the brain impair visual depth perception.