Intraspecies variation of the mitochondrial genome: An evaluation for phylogenetic approaches based on the conventional choices of genes and segments on mitogenome

Intraspecies nucleotide sequence variation is a key to understanding the evolutionary history of a species, such as the geographic distribution and population structure. To date, numerous phylogenetic and population genetics studies have been conducted based on the sequences of a gene or an intergen...

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Veröffentlicht in:	PloS one 2022-08, Vol.17 (8), p.e0273330
Hauptverfasser:	Morón-López, Jesús, Vergara, Karen, Sato, Masanao, Gajardo, Gonzalo, Ueki, Shoko
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biology and life sciences Computer and Information Sciences Cytochrome Cytochrome-c oxidase Cytochromes Datasets DNA sequencing DNA, Mitochondrial - genetics Earth Sciences Ecology and Environmental Sciences Electron Transport Complex IV - genetics Fungi Gene sequencing Genes Genes, Mitochondrial Genetic research Genetics Genome, Mitochondrial - genetics Genomes Geographical distribution Intraspecific genetic variation Mammals Mammals - genetics Markers Methods Mitochondria Mitochondrial DNA Nucleotide sequence Nucleotide sequencing Nucleotides Organisms Pathogens Phylogenetics Phylogeny Phylogeography Population Population genetics Population structure Population studies Proteins Research and Analysis Methods Segments Topology
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description	Intraspecies nucleotide sequence variation is a key to understanding the evolutionary history of a species, such as the geographic distribution and population structure. To date, numerous phylogenetic and population genetics studies have been conducted based on the sequences of a gene or an intergenic region on the mitochondrial genome (mtDNA), such as cytochrome c oxidase subunits or the D-loop. To evaluate the credibility of the usage of such 'classic' markers, we compared the phylogenetic inferences based on the analyses of the partial and entire mtDNA sequences. Importantly, the phylogenetic reconstruction based on the short marker sequences did not necessarily reproduce the tree topologies based on the analyses of the entire mtDNA. In addition, analyses on the datasets of various organisms revealed that the analyses based on the classic markers yielded phylogenetic trees with poor confidence in all tested cases compared to the results based on full-length mtDNA. These results demonstrated that phylogenetic analyses based on complete mtDNA sequences yield more insightful results compared to those based on mitochondrial genes and segments. To ameliorate the shortcomings of the classic markers, we identified a segment of mtDNA that may be used as an 'approximate marker' to closely reproduce the phylogenetic inference obtained from the entire mtDNA in the case of mammalian species, which can be utilized to design amplicon-seq-based studies. Our study demonstrates the importance of the choice of mitochondrial markers for phylogenetic analyses and proposes a novel approach to choosing appropriate markers for mammalian mtDNA that reproduces the phylogenetic inferences obtained from full-length mtDNA.
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subjects	Animals Biology and life sciences Computer and Information Sciences Cytochrome Cytochrome-c oxidase Cytochromes Datasets DNA sequencing DNA, Mitochondrial - genetics Earth Sciences Ecology and Environmental Sciences Electron Transport Complex IV - genetics Fungi Gene sequencing Genes Genes, Mitochondrial Genetic research Genetics Genome, Mitochondrial - genetics Genomes Geographical distribution Intraspecific genetic variation Mammals Mammals - genetics Markers Methods Mitochondria Mitochondrial DNA Nucleotide sequence Nucleotide sequencing Nucleotides Organisms Pathogens Phylogenetics Phylogeny Phylogeography Population Population genetics Population structure Population studies Proteins Research and Analysis Methods Segments Topology
title	Intraspecies variation of the mitochondrial genome: An evaluation for phylogenetic approaches based on the conventional choices of genes and segments on mitogenome
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