#structuralplasticity — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #structuralplasticity, aggregated by home.social.
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🧠 New paper from our neighboring Gründemann Lab @dzne 👋
Chloé Maëlle Benoit and colleagues show that #axon initial segments in #mPFC #neurons undergo #learning-dependent #StructuralPlasticity during fear extinction, linking #AIS dynamics to #MemoryFormation in vivo. A very cool study that extends the concept of learning-related #plasticity beyond #synapses to intrinsic neuronal compartments.
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🧠 New paper from our neighboring Gründemann Lab @dzne 👋
Chloé Maëlle Benoit and colleagues show that #axon initial segments in #mPFC #neurons undergo #learning-dependent #StructuralPlasticity during fear extinction, linking #AIS dynamics to #MemoryFormation in vivo. A very cool study that extends the concept of learning-related #plasticity beyond #synapses to intrinsic neuronal compartments.
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🧠 New paper from our neighboring Gründemann Lab @dzne 👋
Chloé Maëlle Benoit and colleagues show that #axon initial segments in #mPFC #neurons undergo #learning-dependent #StructuralPlasticity during fear extinction, linking #AIS dynamics to #MemoryFormation in vivo. A very cool study that extends the concept of learning-related #plasticity beyond #synapses to intrinsic neuronal compartments.
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🧠 New paper from our neighboring Gründemann Lab @dzne 👋
Chloé Maëlle Benoit and colleagues show that #axon initial segments in #mPFC #neurons undergo #learning-dependent #StructuralPlasticity during fear extinction, linking #AIS dynamics to #MemoryFormation in vivo. A very cool study that extends the concept of learning-related #plasticity beyond #synapses to intrinsic neuronal compartments.
-
🧠 New paper from our neighboring Gründemann Lab @dzne 👋
Chloé Maëlle Benoit and colleagues show that #axon initial segments in #mPFC #neurons undergo #learning-dependent #StructuralPlasticity during fear extinction, linking #AIS dynamics to #MemoryFormation in vivo. A very cool study that extends the concept of learning-related #plasticity beyond #synapses to intrinsic neuronal compartments.
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#PaperOfTheDay, "A Simple Rule for Dendritic Spine and Axonal Bouton Formation Can Account for Cortical Reorganization after Focal Retinal Lesions" by Butz et al (2013).
It deals with #StructuralPlasticity in the #brain, the ability of cells (here #neurons) to reorganize their connections to maintain their activity in a given range.
Authors model how the brain can recover from a lesion that cuts some neurons from their normal sensory input.
https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1003259