#ca1 — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #ca1, aggregated by home.social.
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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🧠 New preprint by Lee et al.: Fast dendritic excitations primarily mediate #backpropagation in #CA1 pyramidal #neurons during #behavior
Using kHz #VoltageImaging across the full #dendritic tree, they show that fast dendritic spikes are usually driven by somatic #bAPs, not independently initiated. #bAP propagation into apical dendrites is contin. modulated by pre-spike dendritic voltage & can trigger slower plateau potentials linked to complex spikes.
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📚 New article by Esparza et al. and @LMPrida : Cell-type-specific #manifold analysis discloses independent parallel #SpatialMaps in #hippocampal #CA1. Using #miniscope imaging, they show deep and superficial CA1 #PyramidalNeurons encode position and running direction via distinct ring manifolds, manipulable via #chemogenetics. Fascinating for revealing parallel, cell-type–specific spatial topologies 👌
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📚 New article by Esparza et al. and @LMPrida : Cell-type-specific #manifold analysis discloses independent parallel #SpatialMaps in #hippocampal #CA1. Using #miniscope imaging, they show deep and superficial CA1 #PyramidalNeurons encode position and running direction via distinct ring manifolds, manipulable via #chemogenetics. Fascinating for revealing parallel, cell-type–specific spatial topologies 👌
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📚 New article by Esparza et al. and @LMPrida : Cell-type-specific #manifold analysis discloses independent parallel #SpatialMaps in #hippocampal #CA1. Using #miniscope imaging, they show deep and superficial CA1 #PyramidalNeurons encode position and running direction via distinct ring manifolds, manipulable via #chemogenetics. Fascinating for revealing parallel, cell-type–specific spatial topologies 👌
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📚 New article by Esparza et al. and @LMPrida : Cell-type-specific #manifold analysis discloses independent parallel #SpatialMaps in #hippocampal #CA1. Using #miniscope imaging, they show deep and superficial CA1 #PyramidalNeurons encode position and running direction via distinct ring manifolds, manipulable via #chemogenetics. Fascinating for revealing parallel, cell-type–specific spatial topologies 👌
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📚 New article by Esparza et al. and @LMPrida : Cell-type-specific #manifold analysis discloses independent parallel #SpatialMaps in #hippocampal #CA1. Using #miniscope imaging, they show deep and superficial CA1 #PyramidalNeurons encode position and running direction via distinct ring manifolds, manipulable via #chemogenetics. Fascinating for revealing parallel, cell-type–specific spatial topologies 👌
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📚 New article by Lopes-dos-Santos, Brizee & Dupret: Spatio-temporal organization of network activity patterns in the #hippocampus. They use a low-dimensional embedding of #CA1–#DG #LFP in behaving mice to reveal layer-specific #GammaRhythms and distinct firing motifs aligned with hippocampal microcircuit architecture – offering a data-driven view of how #oscillations coordinate #InformationFlow across hippocampal layers.
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📖 Vaidya et al. investigate how #hippocampal #CA1 #PlaceCells form expanding #memory representations over days. Using longitudinal in vivo recordings, they show that stable #PlaceFields progressively emerge as active cells increase their likelihood of remaining active across sessions. This gradual stabilization hinges on #behavioral‑timescale #SynapticPlasticity, offering a new model of how CA1 memories solidify w/o #CatastrophicOverwriting.
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If you liked our lab’s SFN poster from @saman, here’s the #preprint, just up! Laminar CA1 recordings in freely moving🐒 🛜 and that buys us some interesting fields in task and overnight #sleep, #inhibitory cell responses, and best of all: superficial/ deep #CA1 #pyramidalneuron #cellassemblies !! @cogneurophys
#hippocampus #neuroscience
https://www.biorxiv.org/content/10.1101/2023.12.06.570369v1.article-metrics -
Paper here: https://elifesciences.org/articles/86548
and hopefully we did alright by the 'persuasive communication devices’ on what are some dramatic theta/gamma results from #macaque #hippocampus #CA1 #oscillations @cogneurophys
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After years of perfecting my scrambled eggs technique, I am happy to report that our paper on optogenetic scrambling to dissociate spatiotemporal codes and memory is out in Nature Communications: https://doi.org/10.1038/s41467-023-35825-5 #hippocampus #CA1 #CalciumImaging #Miniscope #GCaMP #Optogenetics #Memory #InVivo #Electrophysiology #ThetaOscillations
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After years of perfecting my scrambled eggs technique, I am happy to report that our paper on optogenetic scrambling to dissociate spatiotemporal codes and memory is out in Nature Communications: https://doi.org/10.1038/s41467-023-35825-5 #hippocampus #CA1 #CalciumImaging #Miniscope #GCaMP #Optogenetics #Memory #InVivo #Electrophysiology #ThetaOscillations
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After years of perfecting my scrambled eggs technique, I am happy to report that our paper on optogenetic scrambling to dissociate spatiotemporal codes and memory is out in Nature Communications: https://doi.org/10.1038/s41467-023-35825-5 #hippocampus #CA1 #CalciumImaging #Miniscope #GCaMP #Optogenetics #Memory #InVivo #Electrophysiology #ThetaOscillations
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After years of perfecting my scrambled eggs technique, I am happy to report that our paper on optogenetic scrambling to dissociate spatiotemporal codes and memory is out in Nature Communications: https://doi.org/10.1038/s41467-023-35825-5 #hippocampus #CA1 #CalciumImaging #Miniscope #GCaMP #Optogenetics #Memory #InVivo #Electrophysiology #ThetaOscillations