Molecular vibration-sensing component in Drosophila melanogaster olfaction

Maria Isabel Franco; Luca Turin; Andreas Mershin; Efthimios M. C. Skoulakis

doi:10.1073/pnas.1012293108

New Research In

Edited by Obaid Siddiqi, National Center for Biological Sciences, Bangalore, India, and approved January 14, 2011 (received for review August 19, 2010)

Abstract

A common explanation of molecular recognition by the olfactory system posits that receptors recognize the structure or shape of the odorant molecule. We performed a rigorous test of shape recognition by replacing hydrogen with deuterium in odorants and asking whether Drosophila melanogaster can distinguish these identically shaped isotopes. We report that flies not only differentiate between isotopic odorants, but can be conditioned to selectively avoid the common or the deuterated isotope. Furthermore, flies trained to discriminate against the normal or deuterated isotopes of a compound, selectively avoid the corresponding isotope of a different odorant. Finally, flies trained to avoid a deuterated compound exhibit selective aversion to an unrelated molecule with a vibrational mode in the energy range of the carbon–deuterium stretch. These findings are inconsistent with a shape-only model for smell, and instead support the existence of a molecular vibration-sensing component to olfactory reception.

Footnotes

¹To whom correspondence should be addressed. E-mail: skoulakis{at}fleming.gr.
Author contributions: L.T., A.M., and E.M.C.S. designed research; M.I.F. performed research; M.I.F., L.T., and E.M.C.S. analyzed data; and M.I.F., L.T., A.M., and E.M.C.S. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1012293108/-/DCSupplemental.