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The Journal of Neuroscience, August 15, 2001, 21(16):6018-6025

Molecular Bases of Odor Discrimination: Reconstitution of Olfactory Receptors that Recognize Overlapping Sets of Odorants

Kentaro Kajiya¹, Koichiro Inaki², Motonari Tanaka¹, Tatsuya Haga², Hiroshi Kataoka¹, and Kazushige Touhara¹

¹ Department of Integrated Biosciences, Graduate School of Frontier Sciences and ² Department of Neurochemistry, Faculty of Medicine, The University of Tokyo, Tokyo 113, Japan

The vertebrate olfactory system discriminates a wide variety of odorants by relaying coded information from olfactory sensory neurons in the olfactory epithelium to olfactory cortical areas of the brain. Recent studies have shown that the first step in odor discrimination is mediated by ~1000 distinct olfactory receptors, which comprise the largest family of G-protein-coupled receptors. In the present study, we used Ca²⁺ imaging and single-cell reverse transcription-PCR techniques to identify mouse olfactory neurons responding to an odorant and subsequently to clone a receptor gene from the responsive cell. The functionally cloned receptors were expressed in heterologous systems, demonstrating that structurally related olfactory receptors recognized overlapping sets of odorants with distinct affinities and specificities. Our results provide direct evidence for the existence of a receptor code in which the identities of different odorants are specified by distinct combinations of odorant receptors that possess unique molecular receptive ranges. We further demonstrate that the receptor code for an odorant changes with odorant concentration. Finally, we show that odorant receptors in human embryonic kidney 293 cells couple to stimulatory G-proteins such as Golf, resulting in odorant-dependent increases in cAMP. Odor discrimination is thus determined by differences in the receptive ranges of the odorant receptors that together encode specific odorant molecules.

Key words: olfactory; odorant; receptor; single-cell RT-PCR; calcium imaging; G-protein; cAMP; HEK293

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Copyright © 2001 Society for Neuroscience  0270-6474/01/21166018-08$05.00/0

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