Learning homeostasis
Recent articles
Keith Hengen and Woodrow Shew explore criticality and cognition
The two discuss their evolving views of brain criticality as a central organizing principle of cognition, development and learning.
Keith Hengen and Woodrow Shew explore criticality and cognition
The two discuss their evolving views of brain criticality as a central organizing principle of cognition, development and learning.
Explore more from The Transmitter
The missing half of the neurodynamical systems theory
Bifurcations—an underexplored concept in neuroscience—can help explain how small differences in neural circuits give rise to entirely novel functions.
The missing half of the neurodynamical systems theory
Bifurcations—an underexplored concept in neuroscience—can help explain how small differences in neural circuits give rise to entirely novel functions.
Remembering GABA pioneer Edward Kravitz
The biochemist, who died last month at age 92, was part of the first neurobiology department in the world and showed that gamma-aminobutyric acid is inhibitory.
Remembering GABA pioneer Edward Kravitz
The biochemist, who died last month at age 92, was part of the first neurobiology department in the world and showed that gamma-aminobutyric acid is inhibitory.
Protein tug-of-war controls pace of synaptic development, sets human brains apart
Human-specific duplicates of SRGAP2 prolong cortical development by manipulating SYNGAP, an autism-linked protein that slows synaptic growth.
Protein tug-of-war controls pace of synaptic development, sets human brains apart
Human-specific duplicates of SRGAP2 prolong cortical development by manipulating SYNGAP, an autism-linked protein that slows synaptic growth.