Abstract
Insects interact with the surrounding environment via chemoreception, and in social insects such as ants, chemoreception functions to mediate diverse behaviors including food acquisition, self/non-self recognition, and intraspecific communication. The invasive red imported fire ant, Solenopsis invicta, has spread worldwide, displaying a remarkable environmental adaptability. Odorant binding proteins (OBPs) are chemical compound carriers, involved in diverse physiological processes including odor detection and chemical transport. S. invicta contains a highly divergent 17-member OBP gene family, that includes an ant-specific expansion and the social organization implicated Gp-9 (OBP3) gene. A systematic gene expression analysis of the SiOBP repertoire was performed across social caste (workers, male and female alates), tissues (antennae, head, thorax, and abdomen), and developmental stages (egg, larvae, and pupae), revealing that although SiOBPs were expressed in the antennae, the major regions of expression were in the head and thorax across all castes, and the abdomen in male and female alates. SiOBPs were very highly expressed in female alates and at somewhat lower levels in male alates and workers. SiOBPs were differentially expressed, with unique signatures in various castes and tissues, suggesting functionality of SiOBPs beyond olfaction Expression patterns of SiOBP subgroups also showed relationships with their evolutionary relatedness.
Highlights
Insects interact with the surrounding environment via chemoreception, and in social insects such as ants, chemoreception functions to mediate diverse behaviors including food acquisition, self/non-self recognition, and intraspecific communication
S. invicta odorant binding proteins (SiOBPs) 12–17 form a S. invicta Odorant binding proteins (OBPs) gene expansion as has been previously reported[16], along with an ortholog identified in A. echinatior (AeOBP11)
Within the context of the initial detection of chemical molecules, the major proteins involved are thought to include sensory neuron membrane proteins (SNMPs), odorant and ionotropic receptors (ORs and IRs, respectively), gustatory receptors (GRs), the soluble odorant binding and chemosensory proteins (OBPs and CSPs), and odorant-degrading enzymes (ODEs), all housed within specialized sensilla that are found, not exclusively, on the antennae[2]
Summary
Insects interact with the surrounding environment via chemoreception, and in social insects such as ants, chemoreception functions to mediate diverse behaviors including food acquisition, self/non-self recognition, and intraspecific communication. We have performed a systematic analysis of the expression of the 16 S. invicta OBPs (no signal for SiOBP17 was detected in any samples examined) across different tissues; antennae, head, thorax, and abdomen, castes; workers, and male and female alates, and developmental stages; eggs, larvae, and pupae. These data revealed that SiOBPs are generally more highly expressed in head and thorax tissues than in the antennae of either workers or male and female alates. Our data provide a systematic overview of OBP expression in a social insect, suggesting their broad participation in developmental and physiological processes beyond olfaction, allowing for further functional probing of their activities
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