The metabolic cost of neural information

1 May 1998

journal article
research article
Published by Springer Nature in Nature Neuroscience

Vol. 1 (1) , 36-41
https://doi.org/10.1038/236

Abstract

We derive experimentally based estimates of the energy used by neural mechanisms to code known quantities of information. Biophysical measurements from cells in the blowfly retina yield estimates of the ATP required to generate graded (analog) electrical signals that transmit known amounts of information. Energy consumption is several orders of magnitude greater than the thermodynamic minimum. It costs 10⁴ ATP molecules to transmit a bit at a chemical synapse, and 10⁶ - 10⁷ ATP for graded signals in an interneuron or a photoreceptor, or for spike coding. Therefore, in noise-limited signaling systems, a weak pathway of low capacity transmits information more economically, which promotes the distribution of information among multiple pathways.

Keywords

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