Larval Mortality and Ovipositional Preference in <i>Aedes albopictus</i> (Diptera: Culicidae) Induced by the Entomopathogenic Fungus <i>Beauveria bassiana</i> (Hypocreales: Cordycipitaceae)

The entomopathogenic fungus Beauveria bassiana provides an eco-friendly substitute to chemical insecticides for mosquito control. Nevertheless, its widespread application has been hindered by its comparatively slow efficacy in eliminating mosquitoes. To augment the potency of B. bassiana against Aedes mosquitoes, a novel recombinant strain, Bb -Cyt1Aa, was developed by incorporating the Bacillus thuringiensis toxin gene Cyt1Aa into B. bassiana . The virulence of Bb -Cyt1Aa was evaluated against Aedes aegypti and Aedes albopictus using insect bioassays. Compared to the wild-type (WT) strain, the median lethal time (LT 50 ) for A. aegypti larvae infected with Bb -Cyt1Aa decreased by 33.3% at a concentration of 1 × 10 8 conidia/mL and by 22.2% at 1 × 10 7 conidia/mL. The LT 50 for A. aegypti adults infected with Bb -Cyt1Aa through conidia ingestion was reduced by 37.5% at 1 × 10 8 conidia/mL and by 33.3% at 1 × 10 7 conidia/mL. Likewise, the LT 50 for A. aegypti adults infected with Bb -Cyt1Aa through cuticle contact decreased by 33.3% and 30.8% at the same concentrations, respectively. Furthermore, the Bb -Cyt1Aa strain also demonstrated increased toxicity against both larval and adult A. albopictus , when compared to the WT strain. In conclusion, our study demonstrated that the expression of B. thuringiensis toxin Cyt1Aa in B. bassiana enhanced its virulence against Aedes mosquitoes. This suggests that B. bassiana expressing Cyt1Aa has potential value for use in mosquito control. IMPORTANCE Beauveria bassiana is a naturally occurring fungus that can be utilized as a bioinsecticide against mosquitoes. Cyt1Aa is a delta-endotoxin protein produced by Bacillus thuringiensis that exhibits specific and potent insecticidal activity against mosquitoes. In our study, the expression of this toxin Cyt1Aa in B. bassiana enhances the virulence of B. bassiana against Aedes aegypti and Aedes albopictus , thereby increasing their effectiveness in killing mosquitoes. This novel strain can be used alongside chemical insecticides to reduce dependence on harmful chemicals, thereby minimizing negative impacts on the environment and human health. Additionally, the potential resistance of B. bassiana against mosquitoes in the future could be overcome by acquiring novel combinations of exogenous toxin genes. The presence of B. bassiana that expresses Cyt1Aa is of significant importance in mosquito control as it enhances genetic diversity, creates novel virulent strains, and contributes to the development of safer and more sustainable methods of mosquito control.

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Biotechnological Potential of Microorganisms for Mosquito Population Control and Reduction in Vector Competence

Katak,

Cintra,

Burini

et al. 2023

Insects

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Mosquitoes transmit pathogens that cause human diseases such as malaria, dengue fever, chikungunya, yellow fever, Zika fever, and filariasis. Biotechnological approaches using microorganisms have a significant potential to control mosquito populations and reduce their vector competence, making them alternatives to synthetic insecticides. Ongoing research has identified many microorganisms that can be used effectively to control mosquito populations and disease transmission. However, the successful implementation of these newly proposed approaches requires a thorough understanding of the multipronged microorganism–mosquito–pathogen–environment interactions. Although much has been achieved in discovering new entomopathogenic microorganisms, antipathogen compounds, and their mechanisms of action, only a few have been turned into viable products for mosquito control. There is a discrepancy between the number of microorganisms with the potential for the development of new insecticides and/or antipathogen products and the actual available products, highlighting the need for investments in the intersection of basic research and biotechnology.

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Larval Mortality and Ovipositional Preference in Aedes albopictus (Diptera: Culicidae) Induced by the Entomopathogenic Fungus Beauveria bassiana (Hypocreales: Cordycipitaceae)

Cited by 4 publications

References 47 publications

A Novel Method for Studying Mosquito Oviposition Behaviour Using Computer Vision and Deep Learning Algorithm

A Novel Method for Studying Mosquito Oviposition Behaviour Using Computer Vision and Deep Learning Algorithm

Recombinant Beauveria bassiana expressing Bacillus thuringiensis toxin Cyt1Aa: a promising approach for enhancing Aedes mosquito control

Biotechnological Potential of Microorganisms for Mosquito Population Control and Reduction in Vector Competence

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