Chapter
The Computational Layer of Bioelectricity
57:00 - 1:01:49 (04:48)
The bioelectricity that allows charged molecules to go in and out of a cell's membrane is a privileged computational layer that gives access to the actual cognition of the tissue. The components of neurons (ion channels, neurotransmitters, electric synapses) are all older than neurons and multicellularity itself, leading to the question where this complex architecture came from.
Clips
This podcast explores the idea that bioelectricity could be a privileged computational layer, and that understanding this could give insights into physiology and development, posing the question of where the neuron and the brain’s problem-solving abilities originate from.
57:00 - 1:01:10 (04:09)
Summary
This podcast explores the idea that bioelectricity could be a privileged computational layer, and that understanding this could give insights into physiology and development, posing the question of where the neuron and the brain’s problem-solving abilities originate from.
ChapterThe Computational Layer of Bioelectricity
Episode#325 – Michael Levin: Biology, Life, Aliens, Evolution, Embryogenesis & Xenobots
PodcastLex Fridman Podcast
The podcast explores the discovery of gap junctions by Werner Lowenstein and the invention of electricity in the ocean.
1:01:10 - 1:01:49 (00:39)
Summary
The podcast explores the discovery of gap junctions by Werner Lowenstein and the invention of electricity in the ocean. Despite gap junctions being discovered by an organism four billion years ago, credit must be given where it's due.