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Manipulating synthetic optogenetic odors reveals the coding logic of olfactory perception

Edmund Chong, Monica Moroni, Chris Wilson, Shy Shoham, Stefano Panzeri, Dmitry Rinberg

2020Science155 citationsDOIOpen Access PDF

Abstract

How does neural activity generate perception? Finding the combinations of spatial or temporal activity features (such as neuron identity or latency) that are consequential for perception remains challenging. We trained mice to recognize synthetic odors constructed from parametrically defined patterns of optogenetic activation, then measured perceptual changes during extensive and controlled perturbations across spatiotemporal dimensions. We modeled recognition as the matching of patterns to learned templates. The templates that best predicted recognition were sequences of spatially identified units, ordered by latencies relative to each other (with minimal effects of sniff). Within templates, individual units contributed additively, with larger contributions from earlier-activated units. Our synthetic approach reveals the fundamental logic of the olfactory code and provides a general framework for testing links between sensory activity and perception.

Topics & Concepts

OptogeneticsOdorNeurosciencePerceptionSensory systemNeural activityOlfactory bulbOlfactionOlfactory systemPsychologyCentral nervous systemOlfactory and Sensory Function StudiesNeurobiology and Insect Physiology ResearchAdvanced Chemical Sensor Technologies
Manipulating synthetic optogenetic odors reveals the coding logic of olfactory perception | Litcius