Sexually dimorphic traits are widespread across metazoans and are often the result of sex-specific inheritance or sex-based differences in gene expression. Intersexual differences have even been observed in invertebrate venoms, although the identification of these differences has been limited to the more well-studied groups, such as scorpions and spiders, where sex-based differences in morphology and behavior are apparent. Recent studies on centipede venom have identified evidence of intraspecific variation, but intersexual differences have not been reported. To investigate the potential for sex-based differences in centipede venom composition, we performed reversed-phase high performance liquid chromatography (RP-HPLC) analyses on five male and 15 female eastern bark centipedes (Hemiscolopendra marginata) from the Apalachicola National Forest in northern Florida. After detecting a significant sex-based difference in H. marginata venom composition, we completed a high-throughput venom-gland transcriptomic and venom proteomic analysis of one male and one female to determine the genetic basis for differences in venom composition. We identified 47 proteomically confirmed toxins and 717 nontoxin transcripts in H. marginata venom-glands. Of these proteomically confirmed toxins, the most abundantly expressed in the male venom included ion channel-modulating toxins and toxins so divergent from any characterized homologs that they could not be given a functional classification, whereas the most abundantly expressed in the female venom were γ-glutamyl transferases and CAPs (cysteine-rich secretory proteins, antigen 5, and pathogenesis-related 1 proteins). These differences were then confirmed by performing replicate LC-MS/MS analyses on the venom from an additional three male and three female H. marginata. Our RP-HPLC and high-throughput transcriptomic and proteomic approach resulted in not only an in-depth characterization of H. marginata venom, but represents the first example of sex-based variation in centipede venoms.
Keywords: Centipede; Proteome; Transcriptome; Venom.
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