Neural circuits
Recent articles
Recording warning: Common brain signal may be misunderstood
High gamma activity in electrophysiologic recordings reflects widespread neural activity, not merely local firing, as previously thought.
Recording warning: Common brain signal may be misunderstood
High gamma activity in electrophysiologic recordings reflects widespread neural activity, not merely local firing, as previously thought.
Designer synapses edit brain circuits in living animals
The approach could help elucidate relationships between circuit structure and function, as well as the role of natural electrical synapses.
Designer synapses edit brain circuits in living animals
The approach could help elucidate relationships between circuit structure and function, as well as the role of natural electrical synapses.
‘Push-pull’ recipe for neural wiring used in multiple brain regions
A versatile pair of proteins steers neurons toward their targets and helps establish the brain’s sensory maps, new studies suggest.
‘Push-pull’ recipe for neural wiring used in multiple brain regions
A versatile pair of proteins steers neurons toward their targets and helps establish the brain’s sensory maps, new studies suggest.
Learning why spiny mice play well with others
Aubrey Kelly studies the gregarious mammal to explore how the brain controls complex social behaviors “akin to friendship.”
Learning why spiny mice play well with others
Aubrey Kelly studies the gregarious mammal to explore how the brain controls complex social behaviors “akin to friendship.”
The silent majority: How astrocytes shape the brain across scales
Melissa Cooper talks to Mac Shine about her new work that reveals how these glial cells—long dismissed as the brain’s housekeepers—wire together in precise, long-range networks that remodel in response to experience.
The silent majority: How astrocytes shape the brain across scales
Melissa Cooper talks to Mac Shine about her new work that reveals how these glial cells—long dismissed as the brain’s housekeepers—wire together in precise, long-range networks that remodel in response to experience.
Ehud Ahissar offers a new kind of dualism for neuroscience
He explains how “perceptual dualism” can account for the way we communicate via digital symbols and perceive the world via analog brain processes.
Ehud Ahissar offers a new kind of dualism for neuroscience
He explains how “perceptual dualism” can account for the way we communicate via digital symbols and perceive the world via analog brain processes.
How insights from network theory can boost interdisciplinary efforts
Communication on one interdisciplinary research team improved after the researchers turned an analysis technique used to study the brain on themselves and identified the roles people played in lab meetings.
How insights from network theory can boost interdisciplinary efforts
Communication on one interdisciplinary research team improved after the researchers turned an analysis technique used to study the brain on themselves and identified the roles people played in lab meetings.
Astrocytes stabilize circuits in adult mouse brain
The glial cells secrete a protein that suppresses plasticity post-development.
Astrocytes stabilize circuits in adult mouse brain
The glial cells secrete a protein that suppresses plasticity post-development.
The Transmitter’s most-read neuroscience book excerpts of 2025
Books by Nachum Ulanovsky, Nicole Rust, and Andrew Iwaniuk and Georg Striedter made the list of some of the year's most engaging neuroscience titles.
The Transmitter’s most-read neuroscience book excerpts of 2025
Books by Nachum Ulanovsky, Nicole Rust, and Andrew Iwaniuk and Georg Striedter made the list of some of the year's most engaging neuroscience titles.
Tatiana Engel explains how to connect high-dimensional neural circuitry with low-dimensional cognitive functions
Neuroscientists have long sought to understand the relationship between structure and function in the vast connectivity and activity patterns in the brain. Engel discusses her modeling approach to discovering the hidden patterns that connect the two.
Tatiana Engel explains how to connect high-dimensional neural circuitry with low-dimensional cognitive functions
Neuroscientists have long sought to understand the relationship between structure and function in the vast connectivity and activity patterns in the brain. Engel discusses her modeling approach to discovering the hidden patterns that connect the two.
Explore more from The Transmitter
Fructose silences hunger-driving neurons less than glucose does
Two simple sugars show the complexities of gut-brain communication.
Fructose silences hunger-driving neurons less than glucose does
Two simple sugars show the complexities of gut-brain communication.
A new subtyping model for autism phenotypes late in development, and more
Here is a roundup of autism-related news and research spotted around the web for the week of 29 June.
A new subtyping model for autism phenotypes late in development, and more
Here is a roundup of autism-related news and research spotted around the web for the week of 29 June.
AI can’t solve the brain without data that fit together
The brain's first foundation models exist because some areas of neuroscience did the slow work of developing and adopting standards to help integrate data. Artificial intelligence cannot do that work for us.
AI can’t solve the brain without data that fit together
The brain's first foundation models exist because some areas of neuroscience did the slow work of developing and adopting standards to help integrate data. Artificial intelligence cannot do that work for us.