Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/33982
Appears in Collections:Aquaculture eTheses
Title: Deltamethrin resistance in salmon lice: Genetic markers and molecular mechanisms
Author(s): Tschesche, Claudia
Supervisor(s): Sturm, Armin
Keywords: Salmon lice
Deltamethrin
Resistance
Pyrethroids
Sea lice
Lepeophtheirus salmonis
Issue Date: Oct-2021
Publisher: University of Stirling
Citation: Claudia Tschesche, Michaël Bekaert, Joseph L. Humble, James E. Bron, and Armin Sturm (2021) Genomic analysis of the carboxylesterase family in the salmon lice (Lepeophtheirus salmonis). Comparative Biochemistry and Physiology Part C: Toxicology and Pharmacology 248:109095. https://doi.org/10.1016/j.cbpc.2021.109095
Claudia Tschesche, Michaël Bekaert, David I. Bassett, Chris Mitchell, Ben North, Sally Boyd, Greta Carmona Antoñanzas, James E. Bron, and Armin Sturm (2020) Investigation of deltamethrin resistance in salmon lice (Lepeophtheirus salmonis) provides no evidence for roles of mutations in voltage-gated sodium channels. Pest Management Science 77:1052-1060. https://doi.org/10.1002/ps.6120
Greta Carmona Antoñanzas, Kari O. Helgesen, Joseph L. Humble, Claudia Tschesche, Marit J. Bakke, Louise Gamble, Michaël Bekaert, David I. Bassett, Tor E Horsberg, James E. Bron, and Armin Sturm (2018) Mutations in voltage‐gated sodium channels from pyrethroid resistant salmon lice (Lepeophtheirus salmonis). Pest Management Science 75:527-536. https://doi.org/10.1002/ps.5151
Abstract: Resistance of salmon lice (Lepeophtheirus salmonis) against the pyrethroid deltamethrin used in bath treatments is common, but the mechanisms underlying resistance are unknown. In insects, deltamethrin resistance can involve mutations of voltage-gated sodium channels (Nav) considered the target-site of pyrethroids as well as metabolic detoxification through carboxylesterases (CaEs). In L. salmonis, deltamethrin resistance is mainly inherited maternally and associated with single nucleotide polymorphisms (SNPs) in the mitochondrial genome (mtDNA). In addition, a potential target-site mutation (I936V) has been identified in the L. salmonis Nav homologue LsNav1.3. This PhD thesis investigated the relative contribution of Nav target-site mutations and mtDNA mutations in deltamethrin resistance in L. salmonis. L. salmonis from farm sites were rated as deltamethrin resistant or susceptible in bioassays and genotyped for the LsNav1.3 mutation I936V and previously identified resistance-associated mitochondrial SNPs. The results provided no evidence for a role of I936V in deltamethrin resistance, while confirming its association with several mtDNA SNPs. This conclusion was further supported by the genotyping of deltamethrin resistant and susceptible L. salmonis derived from a crossing experiment. Further experiment assessed the association of mitochondrial SNPs with deltamethrin resistance. In L. salmonis from farm sites, several mitochondrial haplotypes associated with deltamethrin resistance were identified, suggesting that deltamethrin resistance evolved at least two times independently. The association of a previously unknown haplotype with deltamethrin resistance was demonstrated in toxicity and genetic studies that support the hypothesis that SNP T8600C in cytochrome c oxidase subunit 1 (Leu107Ser) is related to the resistance mechanism. Finally, potential roles of the CaE gene family in deltamethrin resistance were examined. L. salmonis CaE sequences were identified and annotated, and CaE sequences predicted to be catalytically competent were studied regarding their transcript and SNP expression in resistant and susceptible lice. Results suggested that CaEs are not major determinants of deltamethrin resistance.
Type: Thesis or Dissertation
URI: http://hdl.handle.net/1893/33982

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