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A System-Wide Understanding of the Human Olfactory Percept Chemical Space

Joel Kowalewski, Brandon Huynh, Anandasankar Ray

2021Chemical Senses26 citationsDOI

Abstract

The fundamental units of olfactory perception are discrete 3D structures of volatile chemicals that each interact with specific subsets of a very large family of hundreds of odorant receptor proteins, in turn activating complex neural circuitry and posing a challenge to understand. We have applied computational approaches to analyze olfactory perceptual space from the perspective of odorant chemical features. We identify physicochemical features associated with ~150 different perceptual descriptors and develop machine-learning models. Validation of predictions shows a high success rate for test set chemicals within a study, as well as across studies more than 30 years apart in time. Due to the high success rates, we are able to map ~150 percepts onto a chemical space of nearly 0.5 million compounds, predicting numerous percept-structure combinations. The chemical structure-to-percept prediction provides a system-level view of human olfaction and opens the door for comprehensive computational discovery of fragrances and flavors.

Topics & Concepts

PerceptOlfactionPerceptionChemical spaceSet (abstract data type)Olfactory systemComputer scienceArtificial intelligencePerspective (graphical)Machine learningCognitive scienceNeuroscienceBiologyPsychologyDrug discoveryBioinformaticsProgramming languageOlfactory and Sensory Function StudiesAdvanced Chemical Sensor TechnologiesBiochemical Analysis and Sensing Techniques
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