Chapter
New gel infrastructure inside brain tissue unlocks insights into microstructure
1:34:21 - 1:46:23 (12:02)
Scientists have developed a gel that can be built inside brain tissue to link molecules together, allowing them to understand more about the microstructure of the brain and its cells' responses. The breakthrough could give researchers greater understanding of the brain's natural processes and abilities.
Clips
The stages of life come with different modes of work, and it is necessary to embrace these changes.
1:34:21 - 1:36:16 (01:55)
Summary
The stages of life come with different modes of work, and it is necessary to embrace these changes. With progression, there will be a shift from physical to mental work in a laboratory.
ChapterNew gel infrastructure inside brain tissue unlocks insights into microstructure
EpisodeDr. Karl Deisseroth: Understanding & Healing the Mind
PodcastHuberman Lab
Researchers from MIT have developed a gel which when introduced into tissue, creates a clear jello-like substance that allows the tracking of proteins and RNA within an organism's brain.
1:36:17 - 1:42:07 (05:50)
Summary
Researchers from MIT have developed a gel which when introduced into tissue, creates a clear jello-like substance that allows the tracking of proteins and RNA within an organism's brain.
ChapterNew gel infrastructure inside brain tissue unlocks insights into microstructure
EpisodeDr. Karl Deisseroth: Understanding & Healing the Mind
PodcastHuberman Lab
Researchers used optogenetics to induce dissociative states in animals by targeting specific cells in their visual cortex that have a natural preference for certain visual stimuli, showing that this pattern of activity is what causes the dissociative state.
1:42:07 - 1:46:23 (04:16)
Summary
Researchers used optogenetics to induce dissociative states in animals by targeting specific cells in their visual cortex that have a natural preference for certain visual stimuli, showing that this pattern of activity is what causes the dissociative state.