Understanding the computations that take place in neural circuits requires identifying how neurons in those circuits are connected to one another. In addition, recent research indicates that aberrant neuronal wiring may be the cause of several neurodevelopmental disorders, further emphasizing the importance of identifying the wiring diagrams of brain circuits. To address this issue, several new approaches have been recently developed. In this review, we describe several methods that are currently available to investigate the structure and connectivity of the brain, and discuss their strengths and limitations
Mammalian neural circuits are sophisticated biological systems that choreograph behavioral processes...
The brain has been shaped by evolution, and its connectome reflects that history. Comparative neuros...
Understanding the computations that take place in brain circuits requires identifying how neurons in...
Understanding the computations that take place in neural circuits requires identifying how neurons i...
Dissecting the structure of neural circuits in the brain is one of the central problems of neuroscie...
There is growing excitement in determining the complete connectivity diagram of the brain—the...
Understanding of informational processes in the brain promises significant advances for communicatio...
International audienceThe appropriate function of the nervous system relies on precise patterns of c...
SummaryThe new field of connectomics aims to obtain fine-grained anatomical connectivity data for ve...
Despite recent interest in reconstructing neuronal networks, complete wiring diagrams on the level o...
Brain networks, localized or brain-wide, exist only at the cellular level, i.e., between specific pr...
Connectivity determines the function of neural circuits. Historically, circuit mapping has usually b...
We present a framework for reconstructing structure of complete neural circuits
in the brai...
International audienceStructure–function studies of neuronal networks have recently benefited from c...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
Mammalian neural circuits are sophisticated biological systems that choreograph behavioral processes...
The brain has been shaped by evolution, and its connectome reflects that history. Comparative neuros...
Understanding the computations that take place in brain circuits requires identifying how neurons in...
Understanding the computations that take place in neural circuits requires identifying how neurons i...
Dissecting the structure of neural circuits in the brain is one of the central problems of neuroscie...
There is growing excitement in determining the complete connectivity diagram of the brain—the...
Understanding of informational processes in the brain promises significant advances for communicatio...
International audienceThe appropriate function of the nervous system relies on precise patterns of c...
SummaryThe new field of connectomics aims to obtain fine-grained anatomical connectivity data for ve...
Despite recent interest in reconstructing neuronal networks, complete wiring diagrams on the level o...
Brain networks, localized or brain-wide, exist only at the cellular level, i.e., between specific pr...
Connectivity determines the function of neural circuits. Historically, circuit mapping has usually b...
We present a framework for reconstructing structure of complete neural circuits
in the brai...
International audienceStructure–function studies of neuronal networks have recently benefited from c...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
Mammalian neural circuits are sophisticated biological systems that choreograph behavioral processes...
The brain has been shaped by evolution, and its connectome reflects that history. Comparative neuros...
Understanding the computations that take place in brain circuits requires identifying how neurons in...