Tal Sharf
- Reposted by Tal SharfSequences are everywhere! In every brain region. And are written in stone. Invariant Activity Sequences Across the Mouse Brain. Out today, by Célian Bimbard, with @kenneth-harris.bsky.social. Based on data by Célian and by @intlbrainlab.bsky.social. www.biorxiv.org/content/10.6...
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- Reposted by Tal SharfSlate status: not blank
- I was told it would take about three years to get a new lab up and running. Nearly three years later, our work on preconfigured neuronal firing sequences in human brain organoids is finally out in Nature Neuroscience: www.nature.com/articles/s41...
- Using high-density, large-scale neurophysiology recordings from organoids, we model early dynamics of early human brain development. We complement these data with matching neonatal mouse cortical recordings to examine the temporal firing patterns that emerge during early circuit assembly.
- "We can, should, and will use cerebral organoids to discover new medical treatments, study brain development, reduce the demand for animal testing, and even power computers and more energy-efficient AI." www.vox.com/future-perfe...
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- Reposted by Tal SharfWhat if… spontaneous neural activity 🧠 reflects the baseline rumblings of a brainwide dynamical system initialized for learning? We find that the rumblings have macroscopic properties like those emerging from linear symmetric, critical systems 🧵 #neuroscience #neuroAI www.biorxiv.org/content/10.1...
- Awesome work by @mrbadash.bsky.social and the crew at @ucscgenomics.bsky.social Goal-directed learning in cortical #organoids www.biorxiv.org/content/10.1...
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