Domain Shuffling between Vip3Aa and Vip3Ca: Chimera Stability and Insecticidal Activity against European, American, African, and Asian Pests

The bacterium produces insecticidal Vip3 proteins during the vegetative growth phase with activity against several lepidopteran pests. To date, three different Vip3 protein families have been identified based on sequence identity: Vip3A, Vip3B, and Vip3C. In this study, we report the construction of...

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Bibliographic Details
Published in:Toxins 2020-02, Vol.12 (2), p.99
Main Authors: Gomis-Cebolla, Joaquín, Ferreira Dos Santos, Rafael, Wang, Yueqin, Caballero, Javier, Caballero, Primitivo, He, Kanglai, Jurat-Fuentes, Juan Luis, Ferré, Juan
Format: Article
Language:English
Subjects:
Africa
Animals
anticarsia gemmatalis
Asia
bacillus thuringiensis
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Bacterial Proteins - toxicity
Europe
Insecta - drug effects
Insecticides - toxicity
Lethal Dose 50
mamestra brassicae
North America
ostrinia furnacalis
Pest Control, Biological
Protein Domains
Protein Stability
South America
spodoptera spp., helicoverpa armigera
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Summary:The bacterium produces insecticidal Vip3 proteins during the vegetative growth phase with activity against several lepidopteran pests. To date, three different Vip3 protein families have been identified based on sequence identity: Vip3A, Vip3B, and Vip3C. In this study, we report the construction of chimeras by exchanging domains between Vip3Aa and Vip3Ca, two proteins with marked specificity differences against lepidopteran pests. We found that some domain combinations made proteins insoluble or prone to degradation by trypsin as most abundant insect gut protease. The soluble and trypsin-stable chimeras, along with the parental proteins Vip3Aa and Vip3Ca, were tested against lepidopteran pests from different continents: , , , , , and . The exchange of the Nt domain (188 N-terminal amino acids) had little effect on the stability and toxicity (equal or slightly lower) of the resulting chimeric protein against all insects except for , for which the chimera with the Nt domain from Vip3Aa and the rest of the protein from Vip3Ca showed a significant increase in toxicity compared to the parental Vip3Ca. Chimeras with the C-terminal domain from Vip3Aa (from amino acid 510 of Vip3Aa to the Ct) with the central domain of Vip3Ca (amino acids 189-509 based on the Vip3Aa sequence) made proteins that could not be solubilized. Finally, the chimera including the Ct domain of Vip3Ca and the Nt and central domain from Vip3Aa was unstable. Importantly, an insect species tolerant to Vip3Aa but susceptible to Vip3Ca, such as , was also susceptible to chimeras maintaining the Ct domain from Vip3Ca, in agreement with the hypothesis that the Ct region of the protein is the one conferring specificity to Vip3 proteins.
ISSN:2072-6651
2072-6651
DOI:10.3390/toxins12020099