A review of the molecular mechanisms of acaricide resistance in mites and ticks

The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee parasite Varroa, the poultry mite Dermanyssus and several species of ticks. Especially in agriculture, acaricides are often used intensively to...

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Published inInsect biochemistry and molecular biology Vol. 159; p. 103981
Main Authors De Rouck, Sander, İnak, Emre, Dermauw, Wannes, Van Leeuwen, Thomas
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.08.2023
Subjects
acaricide resistance
acaricides
animal health
bees
biological control
CRISPR-Cas systems
Dermanyssus
Gene copy number variation
Gene regulation
genes
Genetic mapping
genomics
herbivores
insect biochemistry
Metabolic resistance
mites
molecular biology
Panonychus
parasites
Pesticides
poultry
QTL analysis
reverse genetics
Rhipicephalus
RNAi
spiders
Target-site resistance
Tetranychus
Tetranychus urticae
transcriptome
Varroa
Genetic mapping
RNAi
Panonychus
Metabolic resistance
Gene regulation
Pesticides
Gene copy number variation
Dermanyssus
Varroa
Tetranychus
QTL analysis
Rhipicephalus
Target-site resistance
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Abstract The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee parasite Varroa, the poultry mite Dermanyssus and several species of ticks. Especially in agriculture, acaricides are often used intensively to minimize the damage they inflict, promoting the development of resistance. Beneficial predatory mites used in biological control are also subjected to acaricide selection in the field. The development and use of new genetic and genomic tools such as genome and transcriptome sequencing, bulked segregant analysis (QTL mapping), and reverse genetics via RNAi or CRISPR/Cas9, have greatly increased our understanding of the molecular genetic mechanisms of resistance in Acari, especially in the spider mite Tetranychus urticae which emerged as a model species. These new techniques allowed to uncover and validate new resistance mutations in a larger range of species. In addition, they provided an impetus to start elucidating more challenging questions on mechanisms of gene regulation of detoxification associated with resistance. [Display omitted] •Acari comprise several economically important mite and tick species.•Resistance development to acaricides is a serious worldwide problem.•New genomic tools have increased insights in resistance mechanisms.•Combinations of target-site and metabolic resistance can confer high resistance levels.•New detoxifying gene families were recently uncovered.•Gene regulation mechanisms in the context of resistance await further elucidation.
AbstractList The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee parasite Varroa, the poultry mite Dermanyssus and several species of ticks. Especially in agriculture, acaricides are often used intensively to minimize the damage they inflict, promoting the development of resistance. Beneficial predatory mites used in biological control are also subjected to acaricide selection in the field. The development and use of new genetic and genomic tools such as genome and transcriptome sequencing, bulked segregant analysis (QTL mapping), and reverse genetics via RNAi or CRISPR/Cas9, have greatly increased our understanding of the molecular genetic mechanisms of resistance in Acari, especially in the spider mite Tetranychus urticae which emerged as a model species. These new techniques allowed to uncover and validate new resistance mutations in a larger range of species. In addition, they provided an impetus to start elucidating more challenging questions on mechanisms of gene regulation of detoxification associated with resistance.The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee parasite Varroa, the poultry mite Dermanyssus and several species of ticks. Especially in agriculture, acaricides are often used intensively to minimize the damage they inflict, promoting the development of resistance. Beneficial predatory mites used in biological control are also subjected to acaricide selection in the field. The development and use of new genetic and genomic tools such as genome and transcriptome sequencing, bulked segregant analysis (QTL mapping), and reverse genetics via RNAi or CRISPR/Cas9, have greatly increased our understanding of the molecular genetic mechanisms of resistance in Acari, especially in the spider mite Tetranychus urticae which emerged as a model species. These new techniques allowed to uncover and validate new resistance mutations in a larger range of species. In addition, they provided an impetus to start elucidating more challenging questions on mechanisms of gene regulation of detoxification associated with resistance.
The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee parasite Varroa, the poultry mite Dermanyssus and several species of ticks. Especially in agriculture, acaricides are often used intensively to minimize the damage they inflict, promoting the development of resistance. Beneficial predatory mites used in biological control are also subjected to acaricide selection in the field. The development and use of new genetic and genomic tools such as genome and transcriptome sequencing, bulked segregant analysis (QTL mapping), and reverse genetics via RNAi or CRISPR/Cas9, have greatly increased our understanding of the molecular genetic mechanisms of resistance in Acari, especially in the spider mite Tetranychus urticae which emerged as a model species. These new techniques allowed to uncover and validate new resistance mutations in a larger range of species. In addition, they provided an impetus to start elucidating more challenging questions on mechanisms of gene regulation of detoxification associated with resistance.
The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee parasite Varroa, the poultry mite Dermanyssus and several species of ticks. Especially in agriculture, acaricides are often used intensively to minimize the damage they inflict, promoting the development of resistance. Beneficial predatory mites used in biological control are also subjected to acaricide selection in the field. The development and use of new genetic and genomic tools such as genome and transcriptome sequencing, bulked segregant analysis (QTL mapping), and reverse genetics via RNAi or CRISPR/Cas9, have greatly increased our understanding of the molecular genetic mechanisms of resistance in Acari, especially in the spider mite Tetranychus urticae which emerged as a model species. These new techniques allowed to uncover and validate new resistance mutations in a larger range of species. In addition, they provided an impetus to start elucidating more challenging questions on mechanisms of gene regulation of detoxification associated with resistance. [Display omitted] •Acari comprise several economically important mite and tick species.•Resistance development to acaricides is a serious worldwide problem.•New genomic tools have increased insights in resistance mechanisms.•Combinations of target-site and metabolic resistance can confer high resistance levels.•New detoxifying gene families were recently uncovered.•Gene regulation mechanisms in the context of resistance await further elucidation.
ArticleNumber 103981
Author De Rouck, Sander
Van Leeuwen, Thomas
Dermauw, Wannes
İnak, Emre
Author_xml – sequence: 1
  givenname: Sander
  surname: De Rouck
  fullname: De Rouck, Sander
  organization: Laboratory of Agrozoology, Department of Plants and Crops, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000, Ghent, Belgium
– sequence: 2
  givenname: Emre
  surname: İnak
  fullname: İnak, Emre
  organization: Laboratory of Agrozoology, Department of Plants and Crops, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000, Ghent, Belgium
– sequence: 3
  givenname: Wannes
  surname: Dermauw
  fullname: Dermauw, Wannes
  organization: Laboratory of Agrozoology, Department of Plants and Crops, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000, Ghent, Belgium
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  givenname: Thomas
  orcidid: 0000-0003-4651-830X
  surname: Van Leeuwen
  fullname: Van Leeuwen, Thomas
  email: thomas.vanleeuwen@ugent.be
  organization: Laboratory of Agrozoology, Department of Plants and Crops, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000, Ghent, Belgium
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ID FETCH-LOGICAL-c499t-f87f3b128f3ab7177df7dbf8b07cd353bf18de9d37c8f3d8f931ded90e127c4e3
IEDL.DBID .~1
ISSN 0965-1748
1879-0240
IngestDate Fri Jul 11 15:40:39 EDT 2025
Fri Jul 11 10:16:09 EDT 2025
Mon Jul 21 05:54:56 EDT 2025
Tue Jul 01 01:50:48 EDT 2025
Thu Apr 24 22:55:59 EDT 2025
Fri Feb 23 02:36:17 EST 2024
IsDoiOpenAccess true
IsOpenAccess true
IsPeerReviewed true
IsScholarly true
Keywords Genetic mapping
RNAi
Panonychus
Metabolic resistance
Gene regulation
Pesticides
Gene copy number variation
Dermanyssus
Varroa
Tetranychus
QTL analysis
Rhipicephalus
Target-site resistance
Language English
License This is an open access article under the CC BY-NC-ND license.
Copyright © 2023. Published by Elsevier Ltd.
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content type line 23
ORCID 0000-0003-4651-830X
OpenAccessLink https://www.sciencedirect.com/science/article/pii/S0965174823000759
PMID 37391089
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PQPubID 23479
ParticipantIDs proquest_miscellaneous_2887988311
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  text: 2023-08-01
  day: 01
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PublicationTitle Insect biochemistry and molecular biology
PublicationTitleAlternate Insect Biochem Mol Biol
PublicationYear 2023
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Snippet The Arachnida subclass of Acari comprises many harmful pests that threaten agriculture as well as animal health, including herbivorous spider mites, the bee...
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SubjectTerms acaricide resistance
acaricides
animal health
bees
biological control
CRISPR-Cas systems
Dermanyssus
Gene copy number variation
Gene regulation
genes
Genetic mapping
genomics
herbivores
insect biochemistry
Metabolic resistance
mites
molecular biology
Panonychus
parasites
Pesticides
poultry
QTL analysis
reverse genetics
Rhipicephalus
RNAi
spiders
Target-site resistance
Tetranychus
Tetranychus urticae
transcriptome
Varroa
Title A review of the molecular mechanisms of acaricide resistance in mites and ticks
URI https://dx.doi.org/10.1016/j.ibmb.2023.103981
https://www.ncbi.nlm.nih.gov/pubmed/37391089
https://www.proquest.com/docview/2832578176
https://www.proquest.com/docview/2887988311
Volume 159
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