Repeated convergent evolution of bradykinin mimics as defensive toxins
Summary
Natural selection can drive the evolution of similar traits through convergent evolution. Short peptides identical to the vertebrate hormone bradykinin (BK) have been reported from the venoms and skin secretions of certain species of wasps (order Hymenoptera) and frogs (order Anura), respectively. In this study, we demonstrate that the genes encoding the BK-like peptides of hymenopteran venoms and anuran skin secretions do not share common ancestry with that of the vertebrate hormone but i
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# Repeated convergent evolution of bradykinin mimics as defensive toxins
*Published: 2026 Mar 5*
Natural selection can drive the evolution of similar traits through convergent
evolution. Short peptides identical to the vertebrate hormone bradykinin (BK)
have been reported from the venoms and skin secretions of certain species of
wasps (order Hymenoptera) and frogs (order Anura), respectively. In this study,
we demonstrate that the genes encoding the BK-like peptides of hymenopteran
venoms and anuran skin secretions do not share common ancestry with that of the
vertebrate hormone but instead independently evolved multiple times from peptide
toxin genes. These peptides serve a defensive function against vertebrate
predators and their resemblance to BK was driven by selection for efficacy at
the predators' receptors. Our findings highlight how natural selection can drive
repeated convergent evolution of similar molecules across distantly related
lineages.
DOI: 10.1126/science.adx0452