#reversallearning — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #reversallearning, aggregated by home.social.
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Recently, we discussed this insightful paper by Squadrani et al (2024) in our #JournalClub. It explores how #astrocytes enhance #SynapticPlasticity during #ReversalLearning by modulating D-serine levels, providing a #biophysical basis for dynamic #LTP thresholds. The findings suggest astrocytic signaling is crucial for #AdaptiveLearning, linking #glial activity to #behavioral flexibility. Here’s a summary from our JC:
🌍 https://www.fabriziomusacchio.com/blog/2025-06-29-astrocyte_enhance_plasticity/
📝 https://doi.org/10.1038/s42003-024-06540-8 -
Recently, we discussed this insightful paper by Squadrani et al (2024) in our #JournalClub. It explores how #astrocytes enhance #SynapticPlasticity during #ReversalLearning by modulating D-serine levels, providing a #biophysical basis for dynamic #LTP thresholds. The findings suggest astrocytic signaling is crucial for #AdaptiveLearning, linking #glial activity to #behavioral flexibility. Here’s a summary from our JC:
🌍 https://www.fabriziomusacchio.com/blog/2025-06-29-astrocyte_enhance_plasticity/
📝 https://doi.org/10.1038/s42003-024-06540-8 -
Recently, we discussed this insightful paper by Squadrani et al (2024) in our #JournalClub. It explores how #astrocytes enhance #SynapticPlasticity during #ReversalLearning by modulating D-serine levels, providing a #biophysical basis for dynamic #LTP thresholds. The findings suggest astrocytic signaling is crucial for #AdaptiveLearning, linking #glial activity to #behavioral flexibility. Here’s a summary from our JC:
🌍 https://www.fabriziomusacchio.com/blog/2025-06-29-astrocyte_enhance_plasticity/
📝 https://doi.org/10.1038/s42003-024-06540-8 -
Recently, we discussed this insightful paper by Squadrani et al (2024) in our #JournalClub. It explores how #astrocytes enhance #SynapticPlasticity during #ReversalLearning by modulating D-serine levels, providing a #biophysical basis for dynamic #LTP thresholds. The findings suggest astrocytic signaling is crucial for #AdaptiveLearning, linking #glial activity to #behavioral flexibility. Here’s a summary from our JC:
🌍 https://www.fabriziomusacchio.com/blog/2025-06-29-astrocyte_enhance_plasticity/
📝 https://doi.org/10.1038/s42003-024-06540-8 -
Recently, we discussed this insightful paper by Squadrani et al (2024) in our #JournalClub. It explores how #astrocytes enhance #SynapticPlasticity during #ReversalLearning by modulating D-serine levels, providing a #biophysical basis for dynamic #LTP thresholds. The findings suggest astrocytic signaling is crucial for #AdaptiveLearning, linking #glial activity to #behavioral flexibility. Here’s a summary from our JC:
🌍 https://www.fabriziomusacchio.com/blog/2025-06-29-astrocyte_enhance_plasticity/
📝 https://doi.org/10.1038/s42003-024-06540-8 -
Dopamine isn't just a "feel good" chemical: New study reveals its role in reversal learning
https://www.psypost.org/neuroscience-dopamine-isnt-just-a-feel-good-chemical-new-study-reveals-its-link-to-reversal-learning/ -
Dopamine isn't just a "feel good" chemical: New study reveals its role in reversal learning
https://www.psypost.org/neuroscience-dopamine-isnt-just-a-feel-good-chemical-new-study-reveals-its-link-to-reversal-learning/ -
Dopamine isn't just a "feel good" chemical: New study reveals its role in reversal learning
https://www.psypost.org/neuroscience-dopamine-isnt-just-a-feel-good-chemical-new-study-reveals-its-link-to-reversal-learning/ -
Dopamine isn't just a "feel good" chemical: New study reveals its role in reversal learning
https://www.psypost.org/neuroscience-dopamine-isnt-just-a-feel-good-chemical-new-study-reveals-its-link-to-reversal-learning/