Literature DB >> 26906504

Efficient codes and balanced networks.

Sophie Denève1, Christian K Machens2.   

Abstract

Recent years have seen a growing interest in inhibitory interneurons and their circuits. A striking property of cortical inhibition is how tightly it balances excitation. Inhibitory currents not only match excitatory currents on average, but track them on a millisecond time scale, whether they are caused by external stimuli or spontaneous fluctuations. We review, together with experimental evidence, recent theoretical approaches that investigate the advantages of such tight balance for coding and computation. These studies suggest a possible revision of the dominant view that neurons represent information with firing rates corrupted by Poisson noise. Instead, tight excitatory/inhibitory balance may be a signature of a highly cooperative code, orders of magnitude more precise than a Poisson rate code. Moreover, tight balance may provide a template that allows cortical neurons to construct high-dimensional population codes and learn complex functions of their inputs.

Mesh:

Year:  2016        PMID: 26906504     DOI: 10.1038/nn.4243

Source DB:  PubMed          Journal:  Nat Neurosci        ISSN: 1097-6256            Impact factor:   24.884


  76 in total

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8.  A spontaneous state of weakly correlated synaptic excitation and inhibition in visual cortex.

Authors:  A Y Y Tan; S Andoni; N J Priebe
Journal:  Neuroscience       Date:  2013-05-31       Impact factor: 3.590

9.  Causal Inference and Explaining Away in a Spiking Network.

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10.  Instantaneous modulation of gamma oscillation frequency by balancing excitation with inhibition.

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Journal:  Neuron       Date:  2009-05-28       Impact factor: 17.173
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  130 in total

Review 1.  Neural encoding of sensory and behavioral complexity in the auditory cortex.

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Review 2.  Building functional networks of spiking model neurons.

Authors:  L F Abbott; Brian DePasquale; Raoul-Martin Memmesheimer
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3.  Robust Associative Learning Is Sufficient to Explain the Structural and Dynamical Properties of Local Cortical Circuits.

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4.  Single-Cell Membrane Potential Fluctuations Evince Network Scale-Freeness and Quasicriticality.

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5.  The impact of spike-frequency adaptation on balanced network dynamics.

Authors:  Victor J Barranca; Han Huang; Sida Li
Journal:  Cogn Neurodyn       Date:  2018-09-03       Impact factor: 5.082

6.  Strength and Diversity of Inhibitory Signaling Differentiates Primate Anterior Cingulate from Lateral Prefrontal Cortex.

Authors:  Maria Medalla; Joshua P Gilman; Jing-Yi Wang; Jennifer I Luebke
Journal:  J Neurosci       Date:  2017-04-05       Impact factor: 6.167

7.  Synaptic scaling rule preserves excitatory-inhibitory balance and salient neuronal network dynamics.

Authors:  Jérémie Barral; Alex D Reyes
Journal:  Nat Neurosci       Date:  2016-10-17       Impact factor: 24.884

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Review 9.  From the statistics of connectivity to the statistics of spike times in neuronal networks.

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10.  On the Complexity of Resting State Spiking Activity in Monkey Motor Cortex.

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Journal:  Cereb Cortex Commun       Date:  2021-05-18
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