Publications by authors named "Vasileia Balabanidou"
The cytochrome P450 enzymes of the CYP4G subfamily are some of the most intriguing insect P450s in terms of structure and function. In Drosophila, CYP4G1 is highly expressed in the oenocytes and is the last enzyme in the biosynthesis of cuticular hydrocarbons, while CYP4G15 is expressed in the brain and is of unknown function. Both proteins have a CYP4G-specific and characteristic amino acid sequence insertion corresponding to a loop between the G and H helices whose function is unclear.
View Article and Find Full Text PDFGeranylgeranyl pyrophosphate (diphosphate) synthase (GGPPS) plays an important role in various physiological processes in insects, such as isoprenoid biosynthesis and protein prenylation. Here, we functionally characterised the GGPPS from the major agricultural lepidopteran pests Spodoptera frugiperda and Helicoverpa armigera. Partial disruption of GGPPS by CRISPR in S.
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- - Contact insecticides like deltamethrin are used to control malaria-carrying Anopheles mosquitoes, with ABCH2 protein in their legs playing a significant role in insecticide resistance by affecting how well the insecticide penetrates.
- - Silencing the ABCH2 gene in mosquitoes increased their mortality from deltamethrin, indicating that ABCH2 helps regulate the insecticide's penetration rather than impacting the transport of hydrocarbons in their legs.
- - Research identified that ABCH2 functions as a half-transporter that can pump deltamethrin out of the mosquito, involving ATP hydrolysis, which supports the idea that this protein is a target for deltamethrin and affects toxicity regulation.
Despite the contribution of secondary vectors to malaria transmission, there is still not enough information on their susceptibility status to insecticides. The present study assesses the resistance profile of to DDT. WHO tube tests were used to screen mosquito populations collected from the far-north region of Cameroon for susceptibility to 4% DDT.
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- Rapid pyrethroid resistance is a major challenge for malaria vector control in Cameroon, with insufficient data on its exact status across the country.
- The study evaluated resistance profiles through bioassays, species identification, and detection of target site mutations, finding high frequencies of the kdr L1014F allele and some occurrence of the N1575Y mutation in various regions.
- Overexpression of several detoxification genes and significant differences in cuticular hydrocarbon lipids were noted, highlighting the need for increased research and action to address insecticide resistance in malaria control strategies.
Cytochrome P450 mediated metabolism is a well-known mechanism of insecticide resistance. However, to what extent qualitative or quantitative changes are responsible for increased metabolism, is not well understood. Increased expression of P450 genes is most often reported, but the underlying regulatory mechanisms remain widely unclear.
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- Culex quinquefasciatus mosquitoes are key vectors for diseases but lack sufficient data on their biology and resistance to insecticides.
- A study in Yaoundé, Cameroon, found that most populations of Cx. quinquefasciatus showed significant resistance to multiple insecticides, with mortality rates between 0-89%.
- The resistance is linked to genetic mutations and overexpression of certain genes, indicating a complicated biological response that could reduce the effectiveness of existing pest control methods and highlights the need for new integrated strategies.
Host shifts can lead to ecological speciation and the emergence of new pests and pathogens. However, the mutational events that facilitate the exploitation of novel hosts are poorly understood. Here, we characterize an adaptive walk underpinning the host shift of the aphid to tobacco, including evolution of mechanisms that overcame tobacco chemical defenses.
View Article and Find Full Text PDFMalaria incidence has halved since the year 2000, with 80% of the reduction attributable to the use of insecticides. However, insecticide resistance is now widespread, is rapidly increasing in spectrum and intensity across Africa, and may be contributing to the increase of malaria incidence in 2018. The role of detoxification enzymes and target site mutations has been documented in the major malaria vector Anopheles gambiae; however, the emergence of striking resistant phenotypes suggests the occurrence of additional mechanisms.
View Article and Find Full Text PDFCuticular hydrocarbon (CHC) biosynthesis is a major pathway of insect physiology. In Drosophila melanogaster the cytochrome P450 CYP4G1 catalyses the insect-specific oxidative decarbonylation step, while in the malaria vector Anopheles gambiae, two CYP4G paralogues, CYP4G16 and CYP4G17 are present. Analysis of the subcellular localization of CYP4G17 and CYP4G16 in larval and pupal stages revealed that CYP4G16 preserves its PM localization across developmental stages analyzed; however CYPG17 is differentially localized in two distinct types of pupal oenocytes, presumably oenocytes of larval and adult developmental specificity.
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- Vector control is crucial for malaria prevention, but insecticide resistance, especially in Anopheles arabiensis in Ethiopia, poses a significant challenge, with resistance identified against DDT and deltamethrin.
- Research using RNA sequencing revealed that two specific enzymes (glutathione-S-transferase and cytochrome P450 monooxygenase) are overexpressed in resistant populations, indicating their role in metabolic resistance.
- Additionally, changes in gene expression related to the insect's cuticle were linked to resistance, suggesting that cuticle composition may contribute to how these mosquitoes resist insecticides.
Article Synopsis
- * Penetration resistance occurs when insects' cuticles undergo changes that make it harder for insecticides to penetrate their bodies, with two main mechanisms being cuticle thickening and composition alteration.
- * These cuticular changes result from the over-expression of certain genes or proteins, including cuticular proteins, enzymes, and transporters, and the review summarizes recent findings while discussing future research directions.
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View Article and Find Full Text PDFTo tackle the problem of insecticide resistance, all resistance mechanisms need to be studied. This study investigated the involvement of the cuticle in pyrethroid resistance in a strain of Anopheles gambiae, MRS, free of kdr mutations. Bioassays revealed MRS to be resistant to pyrethroids and DDT, indicated by increasing knockdown times and resistance ratios.
View Article and Find Full Text PDFThe role of cuticle changes in insecticide resistance in the major malaria vector Anopheles gambiae was assessed. The rate of internalization of (14)C deltamethrin was significantly slower in a resistant strain than in a susceptible strain. Topical application of an acetone insecticide formulation to circumvent lipid-based uptake barriers decreased the resistance ratio by ∼50%.
View Article and Find Full Text PDFBackground: The elevated expression of enzymes with insecticide metabolism activity can lead to high levels of insecticide resistance in the malaria vector, Anopheles gambiae. In this study, adult female mosquitoes from an insecticide susceptible and resistant strain were dissected into four different body parts. RNA from each of these samples was used in microarray analysis to determine the enrichment patterns of the key detoxification gene families within the mosquito and to identify additional candidate insecticide resistance genes that may have been overlooked in previous experiments on whole organisms.
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