<div><p>Understanding the structure and dynamics of cortical connectivity is vital to understanding cortical function. Experimental data strongly suggest that local recurrent connectivity in the cortex is significantly non-random, exhibiting, for example, above-chance bidirectionality and an overrepresentation of certain triangular motifs. Additional evidence suggests a significant distance dependency to connectivity over a local scale of a few hundred microns, and particular patterns of synaptic turnover dynamics, including a heavy-tailed distribution of synaptic efficacies, a power law distribution of synaptic lifetimes, and a tendency for stronger synapses to be more stable over time. Understanding how many of these non-random features s...
We present an anatomically constrained model of the dense wiring diagram of thalamoand intra-cortica...
Cortical connectivity emerges from the permanent interaction between neuronal activity and synaptic ...
Local cortical circuits appear highly non-random, but the underlying connectivity rule remains elusi...
<div><p>The information processing abilities of neural circuits arise from their synaptic connection...
Abstract\ud \ud The synaptic connectivity of cortical networks features an overrepresentation of cer...
The information processing abilities of neural circuits arise from their synaptic connection pattern...
Understanding the structure and dynamics of cortical con-nectivity is vital to understanding cortica...
<div><p>How different is local cortical circuitry from a random network? To answer this question, we...
The information processing abilities of neural circuits arise from their synaptic connection pattern...
The connectivity of mammalian brains exhibits structure at a wide variety of spatial scales, from th...
<p>The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs an...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
How different is local cortical circuitry from a random network? To answer this question, we probed ...
<div><p>Cortical connectivity emerges from the permanent interaction between neuronal activity and s...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
We present an anatomically constrained model of the dense wiring diagram of thalamoand intra-cortica...
Cortical connectivity emerges from the permanent interaction between neuronal activity and synaptic ...
Local cortical circuits appear highly non-random, but the underlying connectivity rule remains elusi...
<div><p>The information processing abilities of neural circuits arise from their synaptic connection...
Abstract\ud \ud The synaptic connectivity of cortical networks features an overrepresentation of cer...
The information processing abilities of neural circuits arise from their synaptic connection pattern...
Understanding the structure and dynamics of cortical con-nectivity is vital to understanding cortica...
<div><p>How different is local cortical circuitry from a random network? To answer this question, we...
The information processing abilities of neural circuits arise from their synaptic connection pattern...
The connectivity of mammalian brains exhibits structure at a wide variety of spatial scales, from th...
<p>The connectivity of cortical neuronal networks is complex, exhibiting clustered network motifs an...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
How different is local cortical circuitry from a random network? To answer this question, we probed ...
<div><p>Cortical connectivity emerges from the permanent interaction between neuronal activity and s...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
We present an anatomically constrained model of the dense wiring diagram of thalamoand intra-cortica...
Cortical connectivity emerges from the permanent interaction between neuronal activity and synaptic ...
Local cortical circuits appear highly non-random, but the underlying connectivity rule remains elusi...