Litcius/Paper detail

The MeshCODE to scale—visualising synaptic binary information

Samuel F. H. Barnett, Benjamin T. Goult

2022Frontiers in Cellular Neuroscience18 citationsDOIOpen Access PDF

Abstract

The Mercator projection map of the world provides a useful, but distorted, view of the relative scale of countries. Current cellular models suffer from a similar distortion. Here, we undertook an in-depth structural analysis of the molecular dimensions in the cell's computational machinery, the MeshCODE, that is assembled from a meshwork of binary switches in the scaffolding proteins talin and vinculin. Talin contains a series of force-dependent binary switches and each domain switching state introduces quantised step-changes in talin length on a micrometre scale. The average dendritic spine is 1 μm in diameter so this analysis identifies a plausible Gearbox-like mechanism for dynamic regulation of synaptic function, whereby the positioning of enzymes and substrates relative to each other, mechanically-encoded by the MeshCODE switch patterns, might control synaptic transmission. Based on biophysical rules and experimentally derived distances, this analysis yields a novel perspective on biological digital information.

Topics & Concepts

Scale (ratio)Computer scienceNeurosciencePsychologyCartographyGeographyNeural Networks and ApplicationsNeural Networks and Reservoir ComputingNeural dynamics and brain function