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Heterogeneity in the Drosophila gustatory receptor complexes that detect aversive compounds.


ABSTRACT: Animals must detect aversive compounds to survive. Bitter taste neurons express heterogeneous combinations of bitter receptors that diversify their response profiles, but this remains poorly understood. Here we describe groups of taste neurons in Drosophila that detect the same bitter compounds using unique combinations of gustatory receptors (GRs). These distinct complexes also confer responsiveness to non-overlapping sets of additional compounds. While either GR32a/GR59c/GR66a or GR22e/GR32a/GR66a heteromultimers are sufficient for lobeline, berberine, and denatonium detection, only GR22e/GR32a/GR66a responds to strychnine. Thus, despite minimal sequence-similarity, Gr22e and Gr59c show considerable but incomplete functional overlap. Since the gain- or loss-of-function of Gr22e or Gr59c alters bitter taste response profiles, we conclude a taste neuron's specific combination of Grs determines its response profile. We suspect the heterogeneity of Gr expression in Drosophila taste neurons diversifies bitter compound detection, improving animal fitness under changing environmental conditions that present a variety of aversive compounds.

SUBMITTER: Sung HY 

PROVIDER: S-EPMC5684318 | biostudies-literature | 2017 Nov

REPOSITORIES: biostudies-literature

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Heterogeneity in the Drosophila gustatory receptor complexes that detect aversive compounds.

Sung Ha Yeon HY   Jeong Yong Taek YT   Lim Ji Yeon JY   Kim Hyeyon H   Oh Soo Min SM   Hwang Sun Wook SW   Kwon Jae Young JY   Moon Seok Jun SJ  

Nature communications 20171114 1


Animals must detect aversive compounds to survive. Bitter taste neurons express heterogeneous combinations of bitter receptors that diversify their response profiles, but this remains poorly understood. Here we describe groups of taste neurons in Drosophila that detect the same bitter compounds using unique combinations of gustatory receptors (GRs). These distinct complexes also confer responsiveness to non-overlapping sets of additional compounds. While either GR32a/GR59c/GR66a or GR22e/GR32a/G  ...[more]

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