Parasites & Vectors (Sep 2024)

Whole genome sequence analysis of population structure and insecticide resistance markers in Anopheles melas from the Bijagós Archipelago, Guinea-Bissau

  • Sophie Moss,
  • Elizabeth Pretorius,
  • Sainey Ceesay,
  • Eunice Teixeira da Silva,
  • Harry Hutchins,
  • Mamadou Ousmane Ndiath,
  • Holly Acford-Palmer,
  • Emma L. Collins,
  • Matthew Higgins,
  • Jody Phelan,
  • Robert T. Jones,
  • Hristina Vasileva,
  • Amabelia Rodrigues,
  • Sanjeev Krishna,
  • Taane G. Clark,
  • Anna Last,
  • Susana Campino

DOI
https://doi.org/10.1186/s13071-024-06476-2
Journal volume & issue
Vol. 17, no. 1
pp. 1 – 19

Abstract

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Abstract Background Anopheles melas is an understudied malaria vector with a potential role in malaria transmission on the Bijagós Archipelago of Guinea-Bissau. This study presents the first whole-genome sequencing and population genetic analysis for this species from the Bijagós. To our knowledge, this also represents the largest population genetic analysis using WGS data from non-pooled An. melas mosquitoes. Methods WGS was conducted for 30 individual An. melas collected during the peak malaria transmission season in 2019 from six different islands on the Bijagós Archipelago. Bioinformatics tools were used to investigate the population structure and prevalence of insecticide resistance markers in this mosquito population. Results Insecticide resistance mutations associated with pyrethroid resistance in Anopheles gambiae s.s. from the Bijagós were absent in the An. melas population, and no signatures of selective sweeps were identified in insecticide resistance-associated genes. Analysis of structural variants identified a large duplication encompassing the cytochrome-P450 gene cyp9k1. Phylogenetic analysis using publicly available mitochondrial genomes indicated that An. melas from the Bijagós split into two phylogenetic groups because of differentiation on the mitochondrial genome attributed to the cytochrome C oxidase subunits COX I and COX II and the NADH dehydrogenase subunits 1, 4, 4L and 5. Conclusions This study identified an absence of insecticide-resistant SNPs common to An. gambiae in the An. melas population, but did identify structural variation over insecticide resistance-associated genes. Furthermore, this study presents novel insights into the population structure of this malaria vector using WGS analysis. Additional studies are required to further understand the role of this vector in malaria transmission. Graphical abstract

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