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Multi-omic approach to characterize the venom of the parasitic wasp Cotesia congregata (Hymenoptera: Braconidae)
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Multi-omic approach to characterize the venom of the parasitic wasp Cotesia congregata (Hymenoptera: Braconidae)
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Multi-omic approach to characterize the venom of the parasitic wasp Cotesia congregata (Hymenoptera: Braconidae)
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Journal Article
Multi-omic approach to characterize the venom of the parasitic wasp Cotesia congregata (Hymenoptera: Braconidae)
2025
Overview
Background
Cotesia congregata
is a parasitoid Hymenoptera belonging to the Braconidae family and carrying CCBV (
Cotesia congregata
Bracovirus), an endosymbiotic polydnavirus. CCBV virus is considered as the main virulence factor of this species, which has raised questions, over the past thirty years, about the potential roles of venom in the parasitic interaction between
C. congregata
and its host,
Manduca sexta
(Lepidoptera: Sphingidae). To investigate
C. congregata
venom composition, we identified genes overexpressed in the venom glands (VGs) compared to ovaries, analyzed the protein composition of this fluid and performed a detailed analysis of conserved domains of these proteins.
Results
Of the 14 140 known genes of the
C. congregata
genome, 659 genes were significantly over-expressed (with 10-fold or higher changes in expression) in the VGs of female
C. congregata
, compared with the ovaries. We identified 30 proteins whose presence was confirmed in venom extracts by proteomic analyses. Twenty-four of these were produced as precursor molecules containing a predicted signal peptide. Six of the proteins lacked a predicted signal peptide, suggesting that venom production in
C. congregata
also involves non-canonical secretion mechanisms. We have also analysed 18 additional proteins and peptides of interest whose presence in venom remains uncertain, but which could play a role in VG function.
Conclusions
Our results show that the venom of
C. congregata
not only contains proteins (including several enzymes) homologous to well-known venomous compounds, but also original proteins that appear to be specific to this species. This exhaustive study sheds a new light on this venom composition, the molecular diversity of which was unexpected. These data pave the way for targeted functional analyses and to better understand the evolutionary mechanisms that have led to the formation of the venomous arsenals we observe today in parasitoid insects.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Animal Genetics and Genomics
/ Animals
/ Biochemistry, Molecular Biology
/ Biomedical and Life Sciences
/ Cotesia
/ Female
/ Females
/ Genes
/ Genomes
/ Genomics
/ Insect Proteins - metabolism
/ Insects
/ Microbial Genetics and Genomics
/ Ovaries
/ Peptides
/ Proteins
/ Proteomics; Braconidae; Parasitoid
/ Success
/ Venom
/ Viruses
/ Wasps
