FMRP
Autism research hits the road
Some scientists are thinking creatively about how to collect data in flexible environments and meet communities where they’re at.
Skewed signaling in striatum may spawn repetitive behaviors
Synaptic changes in the brain region could drive a core trait of fragile X syndrome, a new mouse study suggests.
Skewed signaling in striatum may spawn repetitive behaviors
Neuronal deafness to stress may add to protein surplus in fragile X
A protective pathway that pauses protein synthesis is muted in a mouse model of fragile X syndrome, according to a new study.
Neuronal deafness to stress may add to protein surplus in fragile X
New gene-editing method flags fragile X mutation for repair
The approach prompts cultured cells to correct the genetic mutation in fragile X syndrome using their own DNA repair system, but it still needs to be tested further.
New gene-editing method flags fragile X mutation for repair
Neurons struggle to spike without fragile X gene
FMR1 loss impairs sodium channels, hindering mouse neurons from generating the electrical signals needed to transmit information.
Neurons struggle to spike without fragile X gene
Missing mechanism helps solve fragile X protein mystery
Cells from people with fragile X syndrome overproduce — but don’t accumulate — proteins. New work suggests that excessive protein breakdown may account for this discrepancy, and explain some of the syndrome’s traits.
Missing mechanism helps solve fragile X protein mystery
Fragile X neurons develop atypically in chimeric mice
After a brain transplant of reprogrammed human cells, the animals can for the first time recapitulate some neuronal changes seen in people with fragile X syndrome.
Fragile X neurons develop atypically in chimeric mice
The cloudy connection between fragile X and cancer
People with the autism-linked syndrome lack a protein implicated in several cancers, but it’s unclear whether — or how — they are protected from malignancies.
The cloudy connection between fragile X and cancer
Largest-yet fragile X mutation in mice confirms model’s shortcomings
A 341-repeat mutation from a person with fragile X does not lead to the syndrome’s traits or function the same way in mice, highlighting a need for different animal models.
Largest-yet fragile X mutation in mice confirms model’s shortcomings
Plethora of protein-making machines in neurons may underlie fragile X
An overabundance of ribosomes drives an imbalance of proteins produced from long and short genetic transcripts in a mouse model of fragile X syndrome.
Plethora of protein-making machines in neurons may underlie fragile X
Explore more from The Transmitter
What neuroscientists should know—and what they can do—about changes to BRAIN initiative funding
Many grant proposals submitted to the program in the past year are unlikely to be funded, according to people within the National Institutes of Health. But scientist advocates are reaching out to congressional representatives to try to make changes for 2025.
What neuroscientists should know—and what they can do—about changes to BRAIN initiative funding
Many grant proposals submitted to the program in the past year are unlikely to be funded, according to people within the National Institutes of Health. But scientist advocates are reaching out to congressional representatives to try to make changes for 2025.
Crowdsourcing to curb aggression in autism: Q&A with Matthew Goodwin
To accelerate the development of real-time behavioral prediction technology, a research team is sharing data and seeking new collaborators.
Crowdsourcing to curb aggression in autism: Q&A with Matthew Goodwin
To accelerate the development of real-time behavioral prediction technology, a research team is sharing data and seeking new collaborators.
Brain connectivity and letting the data speak with Emily Finn
The Dartmouth College researcher talks about her quest to understand behavior and doing neuroscience “in the woods.”
Brain connectivity and letting the data speak with Emily Finn
The Dartmouth College researcher talks about her quest to understand behavior and doing neuroscience “in the woods.”