Multiple P450s and Variation in Neuronal Genes Underpins the Response to the Insecticide Imidacloprid in a Population of<i>Drosophila melanogaster</i>

Denecke, Shane; Fusetto, Roberto; Martelli, Felipe; Giang, Alex; Battlay, Paul; Fournier‐Level, Alexandre; O’Hair, Richard A. J.; Batterham, Philip

doi:10.1101/132373

Cited by 6 publications

(6 citation statements)

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“…Conversely, we only identified two genes belonging to the canonical detoxification genes family, and neither of these (Cyp311a1 and Cyp4s3) are strong candidates for having roles in insecticide metabolism. The P450 Cyp6g1, that has previously been associated with imidacloprid metabolism [62][63][64] , was not detected in our analysis and inspection of a SNP tagging the CNV believed to be causal for the resistance (2R:12185332), is fixed in almost all Australian populations (the exception being a South Australian population) and was at high frequency in the north American populations we sampled (0.71 to 0.97). The analysis of microbial "hologenomes" adds another likely contributor to the multifactorial basis to variation in insecticide mortality.…”

Section: Multifactorial Bases To Resistancementioning

confidence: 60%

The spread of resistance to imidacloprid is restricted by thermotolerance in natural populations of Drosophila melanogaster

et al. 2019

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Imidacloprid, the world's most utilised insecticide 1 , has raised considerable controversy due to its harmful effects on non-pest species 2-6 and there is increasing evidence showing that insecticides have become the primary selective force in many insect species [7][8][9][10][11][12][13][14] . The genetic response to insecticides is heterogeneous across population and environment [15][16][17] , leading to more complex patterns of genetic variation than previously thought. This motivated the investigation of imidacloprid resistance at different temperatures in natural populations of Drosophila melanogaster originating from four climate extremes replicated across two continents. Population and quantitative genomic analysis, supported by functional tests, demonstrated a polygenic basis to resistance and a major trade-off with thermotolerance. Reduced genetic differentiation at resistance-associated loci indicate enhanced gene flow at these loci. Resistance alleles showed stronger evidence of positive selection in temperate populations compared to tropical populations. Polygenic architecture and ecological factors should be considered when developing sustainable management strategies for both pest and beneficial insects. 1

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Section: Multifactorial Bases To Resistancementioning

confidence: 60%

The spread of resistance to imidacloprid is restricted by thermotolerance in natural populations of Drosophila melanogaster

et al. 2019

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“…33 Most recently, two P450s, Cyp6g1 and Cyp6g2, have been shown to contribute to the metabolization of imidacloprid and are involved in conferring resistance to this insecticide in D. melanogaster. 34 Additionally, multiple P450s associated with DDT resistance were over-transcribed in the highly DDT-resistant D. melanogaster strain as compared to DDT-susceptible strain, suggesting that resistance may be in part attributable to differential expression of multiple P450s. 35,36 Retention of a functional Nrf2/Maf (NF-E2-related factor 2/Muscle aponeurosis fibromatosis) transcription factor binding site was previously linked to the over-expression of Cyp6a2 associated with DDT resistance in 91-R, 37 as was trans-regulatory control by the D. melanogaster CNC-bZIP (Cap'n'collar-basic leucine zipper) transcription factor ortholog to Nrf2 that regulates the transcriptional response of several genes encoding detoxification enzymes that contain an upstream antioxidant response element (ARE), 38,39 including Cyp6a2 and Cyp6a8.…”

Section: Introductionmentioning

confidence: 98%

“…has also shown that Cyp6g1 is involved in organophosphate resistance through transgenically overexpressing the Accord element from a resistant strain (Hikone‐R) in D. melanogaster . Most recently, two P450s, Cyp6g1 and Cyp6g2 , have been shown to contribute to the metabolization of imidacloprid and are involved in conferring resistance to this insecticide in D. melanogaster …”

Section: Introductionmentioning

confidence: 99%

Comparative CYP‐omic analysis between the DDT‐susceptible and ‐resistant Drosophila melanogaster strains 91‐C and 91‐R

Seong

Coates

Berenbaum

et al. 2018

Pest Management Science

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“…2016; Schmidt et al . 2017; Denecke et al . 2017), but have not yet been used to evaluate resistance to insecticides that have been and continue to be widely used, such as pyrethroids.…”

Section: Introductionmentioning

confidence: 99%

Signatures of insecticide selection in the genome of Drosophila melanogaster

Duneau

Sun

Revah

et al. 2018

Preprint

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28Resistance to insecticides has evolved in multiple insect species, leading to increased application 29 rates and even control failures. Understanding the genetic basis of insecticide resistance is 30 fundamental for mitigating its impact on crop production and disease control. We performed a 31 GWAS approach with the Drosophila Genetic Reference Panel (DGRP) to identify the mutations 32 involved in resistance to two widely used classes of insecticides: organophosphates (OPs, 33 parathion) and pyrethroids (deltamethrin). Most variation in parathion resistance was associated 34 with mutations in the target gene Ace, while most variation in deltamethrin resistance was 35 associated with mutations in Cyp6a23, a gene encoding a detoxification enzyme never previously 36 associated with resistance. A "nested GWAS" further revealed the contribution of other loci: 37Dscam1 and trpl were implicated in resistance to parathion, but only in lines lacking Wolbachia. 38Cyp6a17, the paralogous gene of Cyp6a23, and CG7627, an ATP-binding cassette transporter, 39 were implicated in deltamethrin resistance. We observed signatures of recent selective sweeps at 40 all of these resistance loci and confirmed that the soft sweep at Ace is indeed driven by the 41 identified resistance mutations. Analysis of allele frequencies in additional population samples 42 revealed that most resistance mutations are segregating across the globe, but that frequencies can 43 vary substantially among populations. Altogether, our data reveal that the widely used OP and 44 pyrethroid insecticides imposed a strong selection pressure on natural insect populations. 45

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Multiple P450s and Variation in Neuronal Genes Underpins the Response to the Insecticide Imidacloprid in a Population ofDrosophila melanogaster

Cited by 6 publications

References 47 publications

The spread of resistance to imidacloprid is restricted by thermotolerance in natural populations of Drosophila melanogaster

The spread of resistance to imidacloprid is restricted by thermotolerance in natural populations of Drosophila melanogaster

Comparative CYP‐omic analysis between the DDT‐susceptible and ‐resistant Drosophila melanogaster strains 91‐C and 91‐R

Signatures of insecticide selection in the genome of Drosophila melanogaster

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