Taste is an essential sense for the survival of most organisms. In insects, taste is particularly important as it allows to detect and avoid ingesting many plant toxins, such as L-canavanine. We previously showed that L-canavanine is toxic for Drosophila melanogaster and that flies are able to detect this toxin in the food. L-canavanine is a ligand of DmXR, a variant G-protein coupled receptor (GPCR) belonging to the metabotropic glutamate receptor subfamily that is expressed in bitter-sensitive taste neurons of Drosophila. To transduce the signal intracellularly, GPCR activate heterotrimeric G proteins constituted of alpha, beta and gamma subunits. The aim of this study was to identify which G alpha protein was required for L-canavanine detection in Drosophila. By using a pharmacological approach, we first demonstrated that DmXR has the best coupling with G alpha(o) protein subtype. Then, by using genetic, behavioral assays and electrophysiology, we found that G alpha o47A is required in bitter-sensitive taste neurons for L-canavanine sensitivity. In conclusion, our study revealed that G alpha o47A plays a crucial role in L-canavanine detection.