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Phylogenomics Revealed Migration Routes and Adaptive Radiation Timing of Holarctic Malaria Mosquito Species of the Maculipennis Group Publisher Pubmed



Yurchenko AA1, 2 ; Naumenko AN1 ; Artemov GN3 ; Karagodin DA4 ; Hodge JM1 ; Velichevskaya AI3 ; Kokhanenko AA3 ; Bondarenko SM1, 3 ; Abai MR5 ; Kamali M6 ; Gordeev MI7 ; Moskaev AV7 ; Caputo B8 ; Aghayan SA9, 10 Show All Authors
Authors
  1. Yurchenko AA1, 2
  2. Naumenko AN1
  3. Artemov GN3
  4. Karagodin DA4
  5. Hodge JM1
  6. Velichevskaya AI3
  7. Kokhanenko AA3
  8. Bondarenko SM1, 3
  9. Abai MR5
  10. Kamali M6
  11. Gordeev MI7
  12. Moskaev AV7
  13. Caputo B8
  14. Aghayan SA9, 10
  15. Baricheva EM4
  16. Stegniy VN3
  17. Sharakhova MV1, 4
  18. Sharakhov IV1, 3
Show Affiliations
Authors Affiliations
  1. 1. Department of Entomology, the Fralin Life Sciences Institute, Virginia Polytechnic Institute and State University, Blacksburg, VA, United States
  2. 2. Kurchatov Genomics Center, the Federal Research Center, Institute of Cytology and Genetics, Novosibirsk, Russian Federation
  3. 3. Department of Genetics and Cell Biology and the Laboratory of Ecology, Genetics and Environmental Protection, Tomsk State University, Tomsk, Russian Federation
  4. 4. Laboratory of Cell Differentiation Mechanisms, the Federal Research Center, Institute of Cytology and Genetics, Novosibirsk, Russian Federation
  5. 5. Department of Medical Entomology and Vector Control, Tehran University of Medical Sciences, Tehran, Iran
  6. 6. Department of Medical Entomology and Parasitology, Tarbiat Modares University, Tehran, Iran
  7. 7. Department of General Biology and Ecology, State University of Education, Mytishchi, Russian Federation
  8. 8. Dipartimento Di Sanita Pubblica E Malattie Infettive, Universita Sapienza, Rome, Italy
  9. 9. Scientific Center of Zoology and Hydroecology, National Academy of Sciences of the Republic of Armenia, Yerevan, Armenia
  10. 10. Department of Zoology, Yerevan State University, Yerevan, Armenia

Source: BMC Biology Published:2023


Abstract

Background: Phylogenetic analyses of closely related species of mosquitoes are important for better understanding the evolution of traits contributing to transmission of vector-borne diseases. Six out of 41 dominant malaria vectors of the genus Anopheles in the world belong to the Maculipennis Group, which is subdivided into two Nearctic subgroups (Freeborni and Quadrimaculatus) and one Palearctic (Maculipennis) subgroup. Although previous studies considered the Nearctic subgroups as ancestral, details about their relationship with the Palearctic subgroup, and their migration times and routes from North America to Eurasia remain controversial. The Palearctic species An. beklemishevi is currently included in the Nearctic Quadrimaculatus subgroup adding to the uncertainties in mosquito systematics. Results: To reconstruct historic relationships in the Maculipennis Group, we conducted a phylogenomic analysis of 11 Palearctic and 2 Nearctic species based on sequences of 1271 orthologous genes. The analysis indicated that the Palearctic species An. beklemishevi clusters together with other Eurasian species and represents a basal lineage among them. Also, An. beklemishevi is related more closely to An. freeborni, which inhabits the Western United States, rather than to An. quadrimaculatus, a species from the Eastern United States. The time-calibrated tree suggests a migration of mosquitoes in the Maculipennis Group from North America to Eurasia about 20–25 million years ago through the Bering Land Bridge. A Hybridcheck analysis demonstrated highly significant signatures of introgression events between allopatric species An. labranchiae and An. beklemishevi. The analysis also identified ancestral introgression events between An. sacharovi and its Nearctic relative An. freeborni despite their current geographic isolation. The reconstructed phylogeny suggests that vector competence and the ability to enter complete diapause during winter evolved independently in different lineages of the Maculipennis Group. Conclusions: Our phylogenomic analyses reveal migration routes and adaptive radiation timing of Holarctic malaria vectors and strongly support the inclusion of An. beklemishevi into the Maculipennis Subgroup. Detailed knowledge of the evolutionary history of the Maculipennis Subgroup provides a framework for examining the genomic changes related to ecological adaptation and susceptibility to human pathogens. These genomic variations may inform researchers about similar changes in the future providing insights into the patterns of disease transmission in Eurasia. © 2023, The Author(s).
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