Root strategy
A new technique for creating stem cells from hair may help researchers understand how neurons and the junction between them form.
Charting the structure and function of the brain’s many circuits may unravel autism’s mysteries.
A new technique for creating stem cells from hair may help researchers understand how neurons and the junction between them form.
The First International Phelan-McDermid Syndrome Symposium, held last week in New York City, brought together scientists and patient advocates to share insights — including a surprising realization about mice missing the SHANK3 gene.
A new technique can pinpoint the precise location of individual proteins at a synapse — the junction between neurons — at high resolution in brain tissue, according to a study published 9 December in Neuron.
In addition to having trouble connecting with others, individuals with autism also struggle with their sense of self, according to a review published in January in Neurocase.
Genetic risk factors for specific language impairment and autism affect the timing of language learning in the general population, according to a study published in February in Genes, Brain and Behavior.
Researchers are exploring the possibility that gastrointestinal bacteria may influence brain development and play a role in autism.
Several new studies challenge the ‘broken mirror’ hypothesis of autism, which suggests that defects in specialized brain cells called mirror neurons explain why people with the disorder find social interaction difficult.
Researchers have identified nearly 1,500 proteins present in the postsynaptic density — a complex collection of proteins that enables quick and flexible signaling across the brain. The results were published 14 January in Nature Neuroscience.
Studies of healthy infants may help identify early risk factors for autism by establishing new developmental milestones.
A new technique documents real-time action in neurons by harnessing the changes in light that take place when they fire.