Jorge E Amaya Romero, Clothilde Chenal, Yacine Ben Chehida, Alistair Miles, Chris S Clarkson, Vincent Pedergnana, Bregje Wertheim, Michael C Fontaine
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The three most widespread species (An. gambiae, An. coluzzii, and Anopheles arabiensis), known for extensive historical introgression, could not be discriminated based on mitogenomes. Furthermore, a monophyletic clustering of the three saltwater-tolerant species (Anopheles merus, Anopheles melas, and Anopheles bwambae) in the Anopheles gambiae complex also suggested that introgression and possibly selection shaped mitochondrial DNA evolution. Mitochondrial DNA variation in An. gambiae and An. coluzzii across Africa revealed significant partitioning among populations and species. A peculiar mitochondrial DNA lineage found predominantly in An. coluzzii and in the hybrid taxon of the African \"far-west\" exhibited divergence comparable to the interspecies divergence in the Anopheles gambiae complex, with a geographic distribution matching closely An. coluzzii's geographic range. This phylogeographic relict of the An. coluzzii and An. gambiae split was associated with population and species structure, but not with the rare Wolbachia occurrence. The lineage was significantly associated with single nucleotide polymorphisms in the nuclear genome, particularly in genes associated with pathogen and insecticide resistance. These findings underline potential mitonuclear coevolution history and the role played by mitochondria in shaping metabolic responses to pathogens and insecticides in Anopheles.</p>","PeriodicalId":12779,"journal":{"name":"Genome Biology and Evolution","volume":"16 9","pages":""},"PeriodicalIF":3.2000,"publicationDate":"2024-09-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11370803/pdf/","citationCount":"0","resultStr":"{\"title\":\"Mitochondrial Variation in Anopheles gambiae and Anopheles coluzzii: Phylogeographic Legacy and Mitonuclear Associations With Metabolic Resistance to Pathogens and Insecticides.\",\"authors\":\"Jorge E Amaya Romero, Clothilde Chenal, Yacine Ben Chehida, Alistair Miles, Chris S Clarkson, Vincent Pedergnana, Bregje Wertheim, Michael C Fontaine\",\"doi\":\"10.1093/gbe/evae172\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Mitochondrial DNA has been a popular marker in phylogeography, phylogeny, and molecular ecology, but its complex evolution is increasingly recognized. 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引用次数: 0
摘要
线粒体DNA一直是系统地理学、系统发生学和分子生态学中常用的标记,但其复杂的进化过程也日益受到重视。在这里,我们通过组装非洲 1,219 只蚊子的有丝分裂基因组,研究了冈比亚按蚊和 coluzzii 按蚊的线粒体 DNA 变异与冈比亚按蚊复合体中其他物种的关系。冈比亚按蚊复合体的线粒体 DNA 系统发生与之前报道的高度网状进化史一致,揭示了与物种树的重要不一致。根据有丝分裂基因组,无法区分三个最广泛分布的物种(冈比亚按蚊、科鲁齐按蚊和阿拉伯按蚊),而这三个物种在历史上曾有过广泛的引入。此外,冈比亚按蚊复合体中三个耐盐水的物种(梅花按蚊、梅拉斯按蚊和布瓦姆巴按蚊)的单系聚类也表明,引种和可能的选择影响了线粒体 DNA 的进化。非洲冈比亚按蚊和 coluzzii 按蚊的线粒体 DNA 变异表明,种群和物种之间存在明显的分化。在非洲 "最西部 "的冈比亚疟蚊和杂交类群中发现了一个奇特的线粒体DNA系,其分化程度与冈比亚疟蚊种间分化程度相当,其地理分布与冈比亚疟蚊的地理分布密切相关。这一科鲁兹疟蚊和冈比亚疟蚊分裂的系统地理学孑遗与种群和物种结构有关,但与罕见的沃尔巴奇发生无关。该品系与核基因组中的单核苷酸多态性,尤其是与病原体和杀虫剂抗性相关的基因有很大关系。这些发现强调了潜在的有丝分裂核共同进化史,以及线粒体在塑造按蚊对病原体和杀虫剂的代谢反应中所扮演的角色。
Mitochondrial Variation in Anopheles gambiae and Anopheles coluzzii: Phylogeographic Legacy and Mitonuclear Associations With Metabolic Resistance to Pathogens and Insecticides.
Mitochondrial DNA has been a popular marker in phylogeography, phylogeny, and molecular ecology, but its complex evolution is increasingly recognized. Here, we investigated mitochondrial DNA variation in Anopheles gambiae and Anopheles coluzzii, in relation to other species in the Anopheles gambiae complex, by assembling the mitogenomes of 1,219 mosquitoes across Africa. The mitochondrial DNA phylogeny of the Anopheles gambiae complex was consistent with previously reported highly reticulated evolutionary history, revealing important discordances with the species tree. The three most widespread species (An. gambiae, An. coluzzii, and Anopheles arabiensis), known for extensive historical introgression, could not be discriminated based on mitogenomes. Furthermore, a monophyletic clustering of the three saltwater-tolerant species (Anopheles merus, Anopheles melas, and Anopheles bwambae) in the Anopheles gambiae complex also suggested that introgression and possibly selection shaped mitochondrial DNA evolution. Mitochondrial DNA variation in An. gambiae and An. coluzzii across Africa revealed significant partitioning among populations and species. A peculiar mitochondrial DNA lineage found predominantly in An. coluzzii and in the hybrid taxon of the African "far-west" exhibited divergence comparable to the interspecies divergence in the Anopheles gambiae complex, with a geographic distribution matching closely An. coluzzii's geographic range. This phylogeographic relict of the An. coluzzii and An. gambiae split was associated with population and species structure, but not with the rare Wolbachia occurrence. The lineage was significantly associated with single nucleotide polymorphisms in the nuclear genome, particularly in genes associated with pathogen and insecticide resistance. These findings underline potential mitonuclear coevolution history and the role played by mitochondria in shaping metabolic responses to pathogens and insecticides in Anopheles.
期刊介绍:
About the journal
Genome Biology and Evolution (GBE) publishes leading original research at the interface between evolutionary biology and genomics. Papers considered for publication report novel evolutionary findings that concern natural genome diversity, population genomics, the structure, function, organisation and expression of genomes, comparative genomics, proteomics, and environmental genomic interactions. Major evolutionary insights from the fields of computational biology, structural biology, developmental biology, and cell biology are also considered, as are theoretical advances in the field of genome evolution. GBE’s scope embraces genome-wide evolutionary investigations at all taxonomic levels and for all forms of life — within populations or across domains. Its aims are to further the understanding of genomes in their evolutionary context and further the understanding of evolution from a genome-wide perspective.