Connectivity determines the function of neural circuits. Historically, circuit mapping has usually been viewed as a problem of microscopy, but no current method can achieve high-throughput mapping of entire circuits with single neuron precision. Here we describe a novel approach to determining connectivity. We propose BOINC ("barcoding of individual neuronal connections"), a method for converting the problem of connectivity into a form that can be read out by high-throughput DNA sequencing. The appeal of using sequencing is that its scale--sequencing billions of nucleotides per day is now routine--is a natural match to the complexity of neural circuits. An inexpensive high-throughput technique for establishing circuit connectivity at single...
In this era of complete genomes, our knowledge of neuroanatomical circuitry remains surprisingly spa...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
Brain function is determined by connectivity among brain areas, and disruption of this connectivity ...
Connectivity determines the function of neural circuits. Historically, circuit mapping has usually b...
There is growing excitement in determining the complete connectivity diagram of the brain—the...
Abstract: Connectivity determines the function of neural circuits. Historically, circuit mapping has...
We propose a neural connectomics strategy called Fluorescent In-Situ Sequencing of Barcoded Individu...
Comprehensive analysis of neuronal networks requires brain-wide measurement of connectivity, activit...
<p>(A) The connectivity of the circuit obtained through sequencing can be read out by filling in the...
A fundamental goal of neurobiology is to understand how the structure and function of neurons tie in...
We present a framework for reconstructing structure of complete neural circuits in the brain using c...
In this era of complete genomes, our knowledge of neuroanatomical circuitry remains surprisingly spa...
International audienceThe appropriate function of the nervous system relies on precise patterns of c...
The connections between neurons determine the computations performed by both artificial and biologic...
Summary Neurons transmit information to distant brain regions via long-range axonal projections. In ...
In this era of complete genomes, our knowledge of neuroanatomical circuitry remains surprisingly spa...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
Brain function is determined by connectivity among brain areas, and disruption of this connectivity ...
Connectivity determines the function of neural circuits. Historically, circuit mapping has usually b...
There is growing excitement in determining the complete connectivity diagram of the brain—the...
Abstract: Connectivity determines the function of neural circuits. Historically, circuit mapping has...
We propose a neural connectomics strategy called Fluorescent In-Situ Sequencing of Barcoded Individu...
Comprehensive analysis of neuronal networks requires brain-wide measurement of connectivity, activit...
<p>(A) The connectivity of the circuit obtained through sequencing can be read out by filling in the...
A fundamental goal of neurobiology is to understand how the structure and function of neurons tie in...
We present a framework for reconstructing structure of complete neural circuits in the brain using c...
In this era of complete genomes, our knowledge of neuroanatomical circuitry remains surprisingly spa...
International audienceThe appropriate function of the nervous system relies on precise patterns of c...
The connections between neurons determine the computations performed by both artificial and biologic...
Summary Neurons transmit information to distant brain regions via long-range axonal projections. In ...
In this era of complete genomes, our knowledge of neuroanatomical circuitry remains surprisingly spa...
How does the brain compute? Answering this question necessitates neuronal connectomes, annotated gra...
Brain function is determined by connectivity among brain areas, and disruption of this connectivity ...