The Caenorhabditis elegans odr-2 Gene Encodes a Novel Ly-6-Related Protein Required for Olfaction

The Caenorhabditis elegans odr-2 Gene Encodes a Novel Ly-6-Related Protein Required for Olfaction

Joseph H. Chou^a, Cornelia I. Bargmann^a, and Piali Sengupta^a
^a Howard Hughes Medical Institute, Programs in Developmental Biology, Neuroscience, and Genetics, Department of Anatomy and Department of Biochemistry and Biophysics, University of California, San Francisco, California 94143-0452

Corresponding author: Cornelia I. Bargmann, Department of Anatomy, University of California, San Francisco, CA 94143-0452., cori{at}itsa.ucsf.edu (E-mail)

Communicating editor: R. K. HERMAN

Caenorhabditis elegans odr-2 mutants are defective in the abilityto chemotax to odorants that are recognized by the two AWC olfactoryneurons. Like many other olfactory mutants, they retain responsesto high concentrations of AWC-sensed odors; we show here thatthese residual responses are caused by the ability of otherolfactory neurons (the AWA neurons) to be recruited at highodor concentrations. odr-2 encodes a membrane-associated proteinrelated to the Ly-6 superfamily of GPI-linked signaling proteinsand is the founding member of a C. elegans gene family withat least seven other members. Alternative splicing of odr-2yields three predicted proteins that differ only at the extremeamino terminus. The three isoforms have different promoters,and one isoform may have a unique role in olfaction. An epitope-taggedODR-2 protein is expressed at high levels in sensory neurons,motor neurons, and interneurons and is enriched in axons. TheAWC neurons are superficially normal in their development andstructure in odr-2 mutants, but their function is impaired.Our results suggest that ODR-2 may regulate AWC signaling withinthe neuronal network required for chemotaxis.

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