Dendrites
Recent articles
Synaptic anomalies in autistic people support imbalance hypothesis
Increased excitatory and decreased inhibitory synapses in the prefrontal cortex of autistic people suggest broader impacts on brain function and connectivity.
Synaptic anomalies in autistic people support imbalance hypothesis
Increased excitatory and decreased inhibitory synapses in the prefrontal cortex of autistic people suggest broader impacts on brain function and connectivity.
Autism subgroups converge on cell growth pathway
Faulty mTOR signaling, implicated in syndromic forms of autism, also hinders cells grown from people with idiopathic autism or autism-linked deletions on chromosome 16.
Autism subgroups converge on cell growth pathway
Faulty mTOR signaling, implicated in syndromic forms of autism, also hinders cells grown from people with idiopathic autism or autism-linked deletions on chromosome 16.
Neurons making memories shush their neighbors
When neurons strengthen their synapses, they “infect” surrounding cells with a virus-like protein to weaken those cells’ excitatory connections, according to a new preprint.
Neurons making memories shush their neighbors
When neurons strengthen their synapses, they “infect” surrounding cells with a virus-like protein to weaken those cells’ excitatory connections, according to a new preprint.
Microglial overreaction to atypical neurons may drive autism
In mice and organoids lacking a neuronal protein, microglia prune synapses to excess.
Microglial overreaction to atypical neurons may drive autism
In mice and organoids lacking a neuronal protein, microglia prune synapses to excess.
Top autism-linked genes join forces to shape synaptic plasticity
The protein products of ANK2 and SCN2A interact to regulate dendritic excitability.
Top autism-linked genes join forces to shape synaptic plasticity
The protein products of ANK2 and SCN2A interact to regulate dendritic excitability.
Mutations in multipurpose gene deal dendrites a double whammy
The mutations disrupt protein translation as well as the cell’s skeleton, according to a new study.
Mutations in multipurpose gene deal dendrites a double whammy
The mutations disrupt protein translation as well as the cell’s skeleton, according to a new study.
Abundant motor proteins disrupt cries in FOXP2 mice
Knocking down the gene that codes for the proteins normalizes the vocalizations.
Abundant motor proteins disrupt cries in FOXP2 mice
Knocking down the gene that codes for the proteins normalizes the vocalizations.
Autism’s ties to the cell skeleton
Many genes related to the condition play a role in the internal scaffolding of cells, and cytoskeletal disruptions can affect neurodevelopment and behavior.
Autism’s ties to the cell skeleton
Many genes related to the condition play a role in the internal scaffolding of cells, and cytoskeletal disruptions can affect neurodevelopment and behavior.
Wiring map reveals how larval fruit fly brain converts sensory signals to movement
The map diagrams more than half a million neuronal connections in the first complete connectome of Drosophila and holds clues about which brain architectures best support learning.
Wiring map reveals how larval fruit fly brain converts sensory signals to movement
The map diagrams more than half a million neuronal connections in the first complete connectome of Drosophila and holds clues about which brain architectures best support learning.
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
FMR1 loss impairs sodium channels, hindering mouse neurons from generating the electrical signals needed to transmit information.
Explore more from The Transmitter
Rajesh Rao reflects on predictive brains, neural interfaces and the future of human intelligence
Twenty-five years ago, Rajesh Rao proposed a seminal theory of how brains could implement predictive coding for perception. His modern version zeroes in on actions.
Rajesh Rao reflects on predictive brains, neural interfaces and the future of human intelligence
Twenty-five years ago, Rajesh Rao proposed a seminal theory of how brains could implement predictive coding for perception. His modern version zeroes in on actions.
In memoriam: Yves Frégnac, influential and visionary French neuroscientist
Frégnac, who died on 18 October at the age of 73, built his career by meeting neuroscience’s complexity straight on.
In memoriam: Yves Frégnac, influential and visionary French neuroscientist
Frégnac, who died on 18 October at the age of 73, built his career by meeting neuroscience’s complexity straight on.
Explaining ‘the largest unexplained number in brain science’: Q&A with Markus Meister and Jieyu Zheng
The human brain takes in sensory information roughly 100 million times faster than it can respond. Neuroscientists need to explore this perceptual paradox to better understand the limits of the brain, Meister and Zheng say.
Explaining ‘the largest unexplained number in brain science’: Q&A with Markus Meister and Jieyu Zheng
The human brain takes in sensory information roughly 100 million times faster than it can respond. Neuroscientists need to explore this perceptual paradox to better understand the limits of the brain, Meister and Zheng say.