Genome‐scale angiosperm phylogenies based on nuclear, plastome, and mitochondrial datasets

ABSTRACT Angiosperms dominate the Earth's ecosystems and provide most of the basic necessities for human life. The major angiosperm clades comprise 64 orders, as recognized by the APG IV classification. However, the phylogenetic relationships of angiosperms remain unclear, as phylogenetic trees...

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Veröffentlicht in:	Journal of integrative plant biology 2023-06, Vol.65 (6), p.1479-1489
Hauptverfasser:	Hu, Hongyin, Sun, Pengchuan, Yang, Yongzhi, Ma, Jianxiang, Liu, Jianquan
Format:	Artikel
Sprache:	eng
Schlagworte:	Angiosperms Datasets divergence times Genera Genes Genomes genomic Nucleotide sequence Phylogenetics phylogenomics Phylogeny Radiation Topology Transcriptomes
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creator	Hu, Hongyin Sun, Pengchuan Yang, Yongzhi Ma, Jianxiang Liu, Jianquan
description	ABSTRACT Angiosperms dominate the Earth's ecosystems and provide most of the basic necessities for human life. The major angiosperm clades comprise 64 orders, as recognized by the APG IV classification. However, the phylogenetic relationships of angiosperms remain unclear, as phylogenetic trees with different topologies have been reconstructed depending on the sequence datasets utilized, from targeted genes to transcriptomes. Here, we used currently available de novo genome data to reconstruct the phylogenies of 366 angiosperm species from 241 genera belonging to 97 families across 43 of the 64 orders based on orthologous genes from the nuclear, plastid, and mitochondrial genomes of the same species with compatible datasets. The phylogenetic relationships were largely consistent with previously constructed phylogenies based on sequence variations in each genome type. However, there were major inconsistencies in the phylogenetic relationships of the five Mesangiospermae lineages when different genomes were examined. We discuss ways to address these inconsistencies, which could ultimately lead to the reconstruction of a comprehensive angiosperm tree of life. The angiosperm phylogenies presented here provide a basic framework for further updates and comparisons. These phylogenies can also be used as guides to examine the evolutionary trajectories among the three genome types during lineage radiation. Genome‐scale angiosperm phylogenies were reconstructed used currently available de novo genome data of 366 angiosperm species from 241 genera belonging to 97 families across 43 of the 64 orders based on orthologous genes from the nuclear, plastid, and mitochondrial genomes of the same species with compatible datasets.
doi_str_mv	10.1111/jipb.13455
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The major angiosperm clades comprise 64 orders, as recognized by the APG IV classification. However, the phylogenetic relationships of angiosperms remain unclear, as phylogenetic trees with different topologies have been reconstructed depending on the sequence datasets utilized, from targeted genes to transcriptomes. Here, we used currently available de novo genome data to reconstruct the phylogenies of 366 angiosperm species from 241 genera belonging to 97 families across 43 of the 64 orders based on orthologous genes from the nuclear, plastid, and mitochondrial genomes of the same species with compatible datasets. The phylogenetic relationships were largely consistent with previously constructed phylogenies based on sequence variations in each genome type. However, there were major inconsistencies in the phylogenetic relationships of the five Mesangiospermae lineages when different genomes were examined. We discuss ways to address these inconsistencies, which could ultimately lead to the reconstruction of a comprehensive angiosperm tree of life. The angiosperm phylogenies presented here provide a basic framework for further updates and comparisons. These phylogenies can also be used as guides to examine the evolutionary trajectories among the three genome types during lineage radiation. Genome‐scale angiosperm phylogenies were reconstructed used currently available de novo genome data of 366 angiosperm species from 241 genera belonging to 97 families across 43 of the 64 orders based on orthologous genes from the nuclear, plastid, and mitochondrial genomes of the same species with compatible datasets.</description><identifier>ISSN: 1672-9072</identifier><identifier>EISSN: 1744-7909</identifier><identifier>DOI: 10.1111/jipb.13455</identifier><identifier>PMID: 36647606</identifier><language>eng</language><publisher>China (Republic : 1949- ): Wiley Subscription Services, Inc</publisher><subject>Angiosperms ; Datasets ; divergence times ; Genera ; Genes ; Genomes ; genomic ; Nucleotide sequence ; Phylogenetics ; phylogenomics ; Phylogeny ; Radiation ; Topology ; Transcriptomes</subject><ispartof>Journal of integrative plant biology, 2023-06, Vol.65 (6), p.1479-1489</ispartof><rights>2023 Institute of Botany, Chinese Academy of Sciences.</rights><rights>2023. 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The major angiosperm clades comprise 64 orders, as recognized by the APG IV classification. However, the phylogenetic relationships of angiosperms remain unclear, as phylogenetic trees with different topologies have been reconstructed depending on the sequence datasets utilized, from targeted genes to transcriptomes. Here, we used currently available de novo genome data to reconstruct the phylogenies of 366 angiosperm species from 241 genera belonging to 97 families across 43 of the 64 orders based on orthologous genes from the nuclear, plastid, and mitochondrial genomes of the same species with compatible datasets. The phylogenetic relationships were largely consistent with previously constructed phylogenies based on sequence variations in each genome type. However, there were major inconsistencies in the phylogenetic relationships of the five Mesangiospermae lineages when different genomes were examined. We discuss ways to address these inconsistencies, which could ultimately lead to the reconstruction of a comprehensive angiosperm tree of life. The angiosperm phylogenies presented here provide a basic framework for further updates and comparisons. These phylogenies can also be used as guides to examine the evolutionary trajectories among the three genome types during lineage radiation. 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subjects	Angiosperms Datasets divergence times Genera Genes Genomes genomic Nucleotide sequence Phylogenetics phylogenomics Phylogeny Radiation Topology Transcriptomes
title	Genome‐scale angiosperm phylogenies based on nuclear, plastome, and mitochondrial datasets
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