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Global transcriptome profiling and functional analysis reveal that tissue-specific constitutive overexpression of cytochrome P450s confers tolerance to imidacloprid in palm weevils in date palm fields
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Global transcriptome profiling and functional analysis reveal that tissue-specific constitutive overexpression of cytochrome P450s confers tolerance to imidacloprid in palm weevils in date palm fields
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Global transcriptome profiling and functional analysis reveal that tissue-specific constitutive overexpression of cytochrome P450s confers tolerance to imidacloprid in palm weevils in date palm fields
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Journal Article
Global transcriptome profiling and functional analysis reveal that tissue-specific constitutive overexpression of cytochrome P450s confers tolerance to imidacloprid in palm weevils in date palm fields
2019
Overview
Background
Cytochrome P450-dependent monooxygenases (P450s), constituting one of the largest and oldest gene superfamilies found in many organisms from bacteria to humans, play a vital role in the detoxification and inactivation of endogenous toxic compounds. The use of various insecticides has increased over the last two decades, and insects have developed resistance to most of these compounds through the detoxifying function of P450s. In this study, we focused on the red palm weevil (RPW),
Rhynchophorus ferrugineus,
the most devastating pest of palm trees worldwide, and demonstrated through functional analysis that upregulation of P450 gene expression has evolved as an adaptation to insecticide stress arising from exposure to the neonicotinoid-class systematic insecticide imidacloprid.
Results
Based on the RPW global transcriptome analysis, we identified 101 putative P450 genes, including 77 likely encoding protein coding genes with ubiquitous expression. A phylogenetic analysis revealed extensive functional and species-specific diversification of RPW P450s, indicating that multiple CYPs actively participated in the detoxification process. We identified highly conserved paralogs of insect P450s that likely play a role in the development of resistance to imidacloprid:
Drosophila Cyp6g1
(
CYP6345J1
) and
Bemisia tabaci CYP4C64
(
CYP4LE1
). We performed a toxicity bioassay and evaluated the induction of P450s, followed by the identification of overexpressed P450s, including
CYP9Z82
,
CYP6fra5, CYP6NR1
,
CYP6345J1
and
CYP4BD4
, which confer cross-resistance to imidacloprid. In addition, under imidacloprid insecticide stress in a date palm field, we observed increased expression of various P450 genes, with
CYP9Z82
,
CYP4BD4, CYP6NR1
and
CYP6345J1
being the most upregulated detoxification genes in RPWs. Expression profiling and cluster analysis revealed P450 genes with multiple patterns of induction and differential expression. Furthermore, we used RNA interference to knock down the overexpressed P450s, after which a toxicity bioassay and quantitative expression analysis revealed likely candidates involved in metabolic resistance against imidacloprid in RPW. Ingestion of double-stranded RNA (dsRNA) successfully knocked down the expression of
CYP9Z82, CYP6NR1
and
CYP345J1
and demonstrated that silencing of
CYP345J1
and
CYP6NR1
significantly decreased the survival rate of adult RPWs treated with imidacloprid, indicating that overexpression of these two P450s may play an important role in developing tolerance to imidacloprid in a date palm field.
Conclusion
Our study provides useful background information on imidacloprid-specific induction and overexpression of P450s, which may enable the development of diagnostic tools/markers for monitoring the spread of insecticide resistant RPWs. The observed trend of increasing tolerance to imidacloprid in the date palm field therefore indicated that strategies for resistance management are urgently needed.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Animals
/ Bacteria
/ Beetles
/ Biomedical and Life Sciences
/ Cloning
/ Cytochrome P-450 Enzyme System - classification
/ Cytochrome P-450 Enzyme System - genetics
/ Cytochrome P-450 Enzyme System - metabolism
/ Cytochrome P450-dependent monooxygenases
/ Enzymes
/ Functional analysis (Mathematics)
/ Genes
/ Genomics
/ Insects
/ Microbial Genetics and Genomics
/ Multicellular invertebrate genomics
/ RNA
/ RNAi
/ Survival
/ Toxicity
/ Weevils
