Evolution and diversification of the cnidarian venom system

Abstract: The phylum Cnidaria (corals, sea pens, sea anemones, jellyfish and hydroids) is the oldest venomous animal lineage (~750 million years old), making it an ideal phylum to understand the origin and diversification of venom. Cnidarians are characterised by specialised cellular structures called cnidae, which they utilise to inject mixtures of bioactive compounds or venom for predation and defence. In recent years cnidarian venoms have begun to be investigated as a potential source of novel bioactive therapeutics.… Show more

“…Previous studies have explored phylogenetic analyses of either cnidarian nervous system subunits or cnidarian neurotoxins (16)(17)(18)(19), but a systematic investigation of the evolution of both channels and toxins has not yet been reported. With the rise of genomics and the increasing number of cnidarian nucleotide sequences available (20), it has been possible to address questions about ion channel and neurotoxin diversity.…”

Co-evolution of ion channels and neurotoxins in cnidarians leads to diversification of ion channel genes

“…Previous studies have explored phylogenetic analyses of either cnidarian nervous system subunits or cnidarian neurotoxins (16)(17)(18)(19), but a systematic investigation of the evolution of both channels and toxins has not yet been reported. With the rise of genomics and the increasing number of cnidarian nucleotide sequences available (20), it has been possible to address questions about ion channel and neurotoxin diversity.…”

Co-evolution of ion channels and neurotoxins in cnidarians leads to diversification of ion channel genes