Abstract
The greater wax moth, Galleria mellonella Linnaeus (Lepidoptera: Galleriinae), is a ubiquitous pest of the honeybee, and poses a serious threat to the global honeybee industry. G. mellonella pheromone system is unusual compared to other lepidopterans and provides a unique olfactory model for pheromone perception. To better understand the olfactory mechanisms in G. mellonella, we conducted a transcriptomic analysis on the antennae of both male and female adults of G. mellonella using high-throughput sequencing and annotated gene families potentially involved in chemoreception. We annotated 46 unigenes coding for odorant receptors, 25 for ionotropic receptors, two for sensory neuron membrane proteins, 22 for odorant binding proteins and 20 for chemosensory proteins. Expressed primarily in antennae were all the 46 odorant receptor unigenes, nine of the 14 ionotropic receptor unigenes, and two of the 22 unigenes coding for odorant binding proteins, suggesting their putative roles in olfaction. The expression of some of the identified unigenes were sex-specific, suggesting that they may have important functions in the reproductive behavior of the insect. Identification of the candidate unigenes and initial analyses on their expression profiles should facilitate functional studies in the future on chemoreception mechanisms in this species and related lepidopteran moths.
Highlights
Olfaction is essential for the survival and reproduction of insects
This is true since G. mellonella displays a unique olfactory system of sex pheromone perception, and little is known about the genes and molecular events involved in chemoreception
Trinity assembly of the clean reads from both male and female antennae resulted in 65,593 transcripts with a mean length of 1,388 bp and an N50 length of 2,511 bp. 54,234 unigenes were selected from the above transcripts with a mean length of 1,125 bp and an N50 length of 2,131 bp (Table S1)
Summary
Olfaction is essential for the survival and reproduction of insects. Antennae are crucial olfactory appendages in the olfactory system, which perceives various chemical stimuli typically via two steps. G. mellonella larvae destroy honeycomb and feed on wax, bee larvae, pollen and honey This pest poses a serious threat to the global honeybee industry[14]. The male releases sex pheromone blends including nonanal, decanal, hexanal, heptanal, undecanal, and 6, 10, 14 trimethylpentacanol-2 and 5, 11-dimethylpentacosane[16,17,18,19,20], which serve as short-range chemical cues that initiates mating. This is true since G. mellonella displays a unique olfactory system of sex pheromone perception, and little is known about the genes and molecular events involved in chemoreception. These results should provide a foundation for future functional characterization of the olfactory genes in G. mellonella
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