Researchers can vote for the winner of this year’s Geoffrey Beene NeuroDiscovery Challenge.
A repeat expansion that causes neurodegenerative disease is transcribed both forward and backward, producing sense and antisense RNAs and multiple polypeptides.
Tau fragments in cerebrospinal fluid might lead to better prognostic and diagnostic tests.
Some neurons stand out in the crowd. Researchers report that genomic variation among neurons in the brain is more common than originally thought.
Screens of yeast and human-derived neurons uncover reasons for α-synuclein toxicity and potential ways to prevent it.
More evidence that an antisense RNA strategy might work for certain types of ALS and FTD.
A meta-analysis of four large genome-wide association studies turned up 11 new risk genes for Alzheimer’s disease.
Two studies strengthen the link between shut-eye and Alzheimer’s disease, and a mouse analysis of how the brain drains waste offers insight into the connection.
Deep brain stimulation restores walking and swimming abilities in rats with spinal injuries, so long as a few nerve fibers remain intact.
Among cognitively healthy older adults, the rate of change in cerebrospinal fluid biomarkers helps predict who will develop Alzheimer’s disease.
An astrocyte protein stymies toxic interplay between Aβ oligomers and prion proteins.
Silencing aberrant C9ORF72 mRNA helps normalize pathology in neurons, suggesting the transcripts are toxic to the cells.
Functional neuroimaging scans can pick up stark neural abnormalities in football players with repeated head injuries before their cognition drops much in executive function tests.
The receptor tyrosine kinase ErbB4 could be the latest gene for amyotrophic lateral sclerosis.
A cancer drug-turned-Alzheimer’s prospect now appears to have potential against a third disease, reportedly protecting animal models from Parkinson’s damage.