#chemogenetics — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #chemogenetics, aggregated by home.social.
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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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Postdoc in behavioral neurosciences
Nathan Kline Institute / NYU
Postdoctoral position studying the effects of early life stress on mouse brain development.
See the full job description on jobRxiv: https://jobrxiv.org/job/nathan-kline-institute-nyu-27778-postdoc-in-behavioral-neurosciences/?feed_id=90822
#behavioral_neuroscience #chemogenetics #early_life #electrophysiology #optoge...
https://jobrxiv.org/job/nathan-kline-institute-nyu-27778-postdoc-in-behavioral-neurosciences/?feed_id=90822 -
Postdoc in behavioral neurosciences
Nathan Kline Institute / NYU
Postdoctoral position studying the effects of early life stress on mouse brain development.
See the full job description on jobRxiv: https://jobrxiv.org/job/nathan-kline-institute-nyu-27778-postdoc-in-behavioral-neurosciences/?feed_id=90437
#behavioral_neuroscience #chemogenetics #early_life #electrophysiology #optoge...
https://jobrxiv.org/job/nathan-kline-institute-nyu-27778-postdoc-in-behavioral-neurosciences/?feed_id=90437