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Navigating Through Time: A Spatial Navigation Perspective on How the Brain May Encode Time

John B. Issa, Gilad Tocker, Michael E. Hasselmo, James G. Heys, Daniel A. Dombeck

2020Annual Review of Neuroscience54 citationsDOIOpen Access PDF

Abstract

Interval timing, which operates on timescales of seconds to minutes, is distributed across multiple brain regions and may use distinct circuit mechanisms as compared to millisecond timing and circadian rhythms. However, its study has proven difficult, as timing on this scale is deeply entangled with other behaviors. Several circuit and cellular mechanisms could generate sequential or ramping activity patterns that carry timing information. Here we propose that a productive approach is to draw parallels between interval timing and spatial navigation, where direct analogies can be made between the variables of interest and the mathematical operations necessitated. Along with designing experiments that isolate or disambiguate timing behavior from other variables, new techniques will facilitate studies that directly address the neural mechanisms that are responsible for interval timing.

Topics & Concepts

ENCODENeuroscienceComputer scienceInterval (graph theory)Perspective (graphical)MillisecondTime perceptionOptogeneticsCircadian rhythmParallelsArtificial intelligenceBiologyPerceptionPhysicsCombinatoricsMechanical engineeringGeneMathematicsBiochemistryAstronomyEngineeringNeuroscience and Music PerceptionNeural dynamics and brain functionSleep and Wakefulness Research
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