Context‐dependent venom deployment and protein composition in two assassin bugs
In: Ecology and Evolution, Jg. 10 (2020), Heft 18, S. 9932-9947
Online
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Zugriff:
The Heteroptera are a diverse suborder of phytophagous, hematophagous, and zoophagous insects. The shift to zoophagy can be traced back to the transformation of salivary glands into venom glands, but the venom is used not only to kill and digest invertebrate prey but also as a defense strategy, mainly against vertebrates. In this study, we used an integrated transcriptomics and proteomics approach to compare the composition of venoms from the anterior main gland (AMG) and posterior main gland (PMG) of the reduviid bugs Platymeris biguttatus L. and Psytalla horrida Stål. In both species, the AMG and PMG secreted distinct protein mixtures with few interspecific differences. PMG venom consisted mostly of S1 proteases, redulysins, Ptu1‐like peptides, and uncharacterized proteins, whereas AMG venom contained hemolysins and cystatins. There was a remarkable difference in biological activity between the AMG and PMG venoms, with only PMG venom conferring digestive, neurotoxic, hemolytic, antibacterial, and cytotoxic effects. Proteomic analysis of venom samples revealed the context‐dependent use of AMG and PMG venom. Although both species secreted PMG venom alone to overwhelm their prey and facilitate digestion, the deployment of defensive venom was species‐dependent. P. biguttatus almost exclusively used PMG venom for defense, whereas P. horrida secreted PMG venom in response to mild harassment but AMG venom in response to more intense harassment. This intriguing context‐dependent use of defensive venom indicates that future research should focus on species‐dependent differences in venom composition and defense strategies among predatory Heteroptera.
In true bugs, venom is used not only to kill and digest invertebrate prey but also defensively when they are disturbed. We carried out a comprehensive analysis of venom components from two assassin bug species, employing a combination of transcriptomic and proteomic approaches, conducted in vitro bioactivity assays to investigate venom effects and identified context‐dependent venom deployment. Our comprehensive analysis of venom composition, effects, and deployment by two assassin bugs revealed intriguing species‐dependent differences and highlights the complexity and context dependence of venomous insect behavior.
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Context‐dependent venom deployment and protein composition in two assassin bugs
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Autor/in / Beteiligte Person: | Heckel, David G. ; Vilcinskas, Andreas ; Vogel, Heiko ; Wielsch, Natalie ; Fischer, Maike L. |
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Zeitschrift: | Ecology and Evolution, Jg. 10 (2020), Heft 18, S. 9932-9947 |
Veröffentlichung: | Wiley, 2020 |
Medientyp: | unknown |
ISSN: | 2045-7758 (print) |
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