Predicting the receptive range of olfactory receptors

Rafi Haddad; Liran Carmel; Noam Sobel; David Harel

doi:10.1371/journal.pcbi.0040018

Predicting the receptive range of olfactory receptors

Rafi Haddad^*
, Liran Carmel
, Noam Sobel
, David Harel

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Although the family of genes encoding for olfactory receptors was identified more than 15 years ago, the difficulty of functionally expressing these receptors in an heterologous system has, with only some exceptions, rendered the receptive range of given olfactory receptors largely unknown. Furthermore, even when successfully expressed, the task of probing such a receptor with thousands of odors/ligands remains daunting. Here we provide proof of concept for a solution to this problem. Using computational methods, we tune an electronic nose to the receptive range of an olfactory receptor. We then use this electronic nose to predict the receptors' response to other odorants. Our method can be used to identify the receptive range of olfactory receptors, and can also be applied to other questions involving receptor-ligand interactions in non-olfactory settings.

Original language	English
Journal	PLoS Computational Biology
Volume	4
Issue number	2
DOIs	https://doi.org/10.1371/journal.pcbi.0040018
State	Published - Feb 2008
Externally published	Yes

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10.1371/journal.pcbi.0040018

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AB - Although the family of genes encoding for olfactory receptors was identified more than 15 years ago, the difficulty of functionally expressing these receptors in an heterologous system has, with only some exceptions, rendered the receptive range of given olfactory receptors largely unknown. Furthermore, even when successfully expressed, the task of probing such a receptor with thousands of odors/ligands remains daunting. Here we provide proof of concept for a solution to this problem. Using computational methods, we tune an electronic nose to the receptive range of an olfactory receptor. We then use this electronic nose to predict the receptors' response to other odorants. Our method can be used to identify the receptive range of olfactory receptors, and can also be applied to other questions involving receptor-ligand interactions in non-olfactory settings.

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Predicting the receptive range of olfactory receptors

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