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UDP-glycosyltransferase family in Haemonchus contortus: Phylogenetic analysis, constitutive expression, sex-differences and resistance-related differences
P. Matoušková, L. Lecová, R. Laing, D. Dimunová, H. Vogel, L. Raisová Stuchlíková, LT. Nguyen, P. Kellerová, I. Vokřál, J. Lamka, B. Szotáková, M. Várady, L. Skálová,
Language English Country England, Great Britain
Document type Journal Article, Research Support, Non-U.S. Gov't
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- MeSH
- Anthelmintics pharmacology MeSH
- Benzimidazoles pharmacology MeSH
- Caenorhabditis elegans enzymology genetics MeSH
- Gene Expression MeSH
- Phylogeny * MeSH
- Glycosylation MeSH
- Glycosyltransferases chemistry classification genetics MeSH
- Haemonchus drug effects enzymology genetics MeSH
- Drug Resistance genetics MeSH
- Chromosome Mapping MeSH
- Multigene Family MeSH
- Sheep Diseases parasitology MeSH
- Sheep MeSH
- Sex Factors MeSH
- Uridine Diphosphate genetics MeSH
- Animals MeSH
- Check Tag
- Animals MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
UDP-glycosyltransferases (UGT), catalysing conjugation of UDP-activated sugar donors to small lipophilic chemicals, are widespread in living organisms from bacteria to fungi, plant, or animals. The progress of genome sequencing has enabled an assessment of the UGT multigene family in Haemonchus contortus (family Trichostrongylidae, Nematoda), a hematophagous gastrointestinal parasite of small ruminants. Here we report 32 putative UGT genes divided into 15 UGT families. Phylogenetic analysis in comparison with UGTs from Caenorhabditis elegans, a free-living model nematode, revealed several single member homologues, a lack of the dramatic gene expansion seen in C. elegans, but also several families (UGT365, UGT366, UGT368) expanded in H. contortus only. The assessment of constitutive UGT mRNA expression in H. contortus adults identified significant differences between females and males. In addition, we compared the expression of selected UGTs in the drug-sensitive ISE strain to two benzimidazole-resistant strains, IRE and WR, with different genetic backgrounds. Constitutive expression of UGT368B2 was significantly higher in both resistant strains than in the sensitive strain. As resistant strains were able to deactivate benzimidazole anthelmintics via glycosylation more effectively then the sensitive strain, UGT368B2 enhanced constitutive expression might contribute to drug resistance in H. contortus.
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