RESUMO
Reception of chemical information from the environment is crucial for insects' survival and reproduction. The chemosensory reception mainly occurs by the antennae and mouth parts of the insect, when the stimulus contacts the chemoreceptors located within the sensilla. Chemosensory receptor genes have been well-studied in some social hymenopterans such as ants, honeybees, and wasps. However, although stingless bees are the most representative group of eusocial bees, little is known about their odorant, gustatory, and ionotropic receptor genes. Here, we analyze the transcriptome of the proboscis and antennae of the stingless bee Tetragonisca fiebrigi. We identified and annotated 9 gustatory and 15 ionotropic receptors. Regarding the odorant receptors, we identified 204, and we were able to annotate 161 of them. In addition, we compared the chemosensory receptor genes of T. fiebrigi with those annotated for other species of Hymenoptera. We found that T. fiebrigi showed the largest number of odorant receptors compared with other bees. Genetic expansions were identified in the subfamilies 9-exon, which was also expanded in ants and paper wasps; in G02A, including receptors potentially mediating social behavior; and in GUnC, which has been related to pollen and nectar scent detection. Our study provides the first report of chemosensory receptor genes in T. fiebrigi and represents a resource for future molecular and physiological research in this and other stingless bee species.
Assuntos
Receptores Odorantes , Animais , Abelhas/genética , Abelhas/fisiologia , Receptores Odorantes/genética , Transcriptoma , Filogenia , Proteínas de Insetos/genética , Proteínas de Insetos/metabolismo , Genes de Insetos , Anotação de Sequência Molecular , Perfilação da Expressão GênicaRESUMO
The thermal sense of triatomine bugs, vectors of Chagas disease, is unique among insects. Not only do these bugs exhibit the highest sensitivity to heat known in any animal up to date, but they can also perceive the infrared radiation emitted by the body of their warm-blooded hosts. The sensory basis of this capacity has just started to be unravelled. To shed additional light on our understanding of thermosensation, we initiated an analysis of the genetic basis of the thermal sense in Rhodnius prolixus. We tested the hypothesis that a TRPV (transient receptor potential vanilloid) channel receptor is involved in the evaluation of heat in this species. Two different approaches were adopted. Initially, we analysed the expression of a TRPV candidate for this function, i.e., RproIav, in different tissues. Subsequently, we tested the effects of capsaicin and capsazepine, two molecules known to interact with mammal TRPV1, using three different behavioural protocols for evaluating thermal responses: (1) proboscis extension response (PER), (2) thermopreference in a temperature gradient and (3) spatial learning in an operant conditioning context. Bioinformatic analyses confirmed that the characteristic features typical of the TRPV channel subfamily are found in the RproIav protein sequence. Molecular analysis showed that RproIav is expressed in R. prolixus, not only in the antennae, but also in other body structures bearing sensory organs. Behavioural experiments consistently revealed that capsaicin treated insects are less responsive to heat stimuli and prefer lower temperatures than non-treated insects, and that they fail to orient in space. Conversely, capsazepine induces the opposite behaviours. The latter data suggest that triatomine thermoreception is based on the activation of a TRP channel, with a similar mechanism to that described for mammal TRPV1. The expression of RproIav in diverse sensory structures suggests that this receptor channel is potentially involved in bug thermoreception. This constitutes solid evidence that thermosensation could be based on the activation of TRP receptors that are expressed in different tissues in R. prolixus. Whether RproIav channel is a potential target for the compounds tested and whether it mediates the observed effects on behaviour still deserves to be confirmed by further research.