Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.

Collembola are a basal group of Hexapoda renowned for both unique morphological characters and significant ecological roles. However, a robust and plausible phylogenetic relationship between its deeply divergent lineages has yet to be achieved. We carried out a mitophylogenomic study based on a so f...

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Main Authors: Xin Sun, Daoyuan Yu, Zhijing Xie, Jie Dong, Yinhuan Ding, Haifeng Yao, Penelope Greenslade
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0230827
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spelling doaj-d017f117ab034388921e545f94da0bf22021-03-03T21:39:12ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01154e023082710.1371/journal.pone.0230827Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.Xin SunDaoyuan YuZhijing XieJie DongYinhuan DingHaifeng YaoPenelope GreensladeCollembola are a basal group of Hexapoda renowned for both unique morphological characters and significant ecological roles. However, a robust and plausible phylogenetic relationship between its deeply divergent lineages has yet to be achieved. We carried out a mitophylogenomic study based on a so far the most comprehensive mitochondrial genome dataset. Our data matrix contained mitogenomes of 31 species from almost all major families of all four orders, with 16 mitogenomes newly sequenced and annotated. We compared the linear arrangements of genes along mitochondria across species. Then we conducted 13 analyses each under a different combination of character coding, partitioning scheme and heterotachy models, and assessed their performance in phylogenetic inference. Several hypothetical tree topologies were also tested. Mitogenomic structure comparison revealed that most species share the same gene order of putative ancestral pancrustacean pattern, while seven species from Onychiuridae, Poduridae and Symphypleona bear different levels of gene rearrangements, indicating phylogenetic signals. Tomoceroidea was robustly recovered for the first time in the presence of all its families and subfamilies. Monophyly of Onychiuroidea was supported using unpartitioned models alleviating LBA. Paronellidae was revealed polyphyletic with two subfamilies inserted independently into Entomobryidae. Although Entomobryomorpha has not been well supported, more than half of the analyses obtained convincing topologies by placing Tomoceroidea within or near remaining Entomobryomorpha. The relationship between elongate-shaped and spherical-shaped collembolans still remained ambiguous, but Neelipleona tend to occupy the basal position in most trees. This study showed that mitochondrial genomes could provide important information for reconstructing the relationships among Collembola when suitable analytical approaches are implemented. Of all the data refining and model selecting schemes used in this study, the combination of nucleotide sequences, partitioning model and exclusion of third codon positions performed better in generating more reliable tree topology and higher node supports than others.https://doi.org/10.1371/journal.pone.0230827
collection DOAJ
language English
format Article
sources DOAJ
author Xin Sun
Daoyuan Yu
Zhijing Xie
Jie Dong
Yinhuan Ding
Haifeng Yao
Penelope Greenslade
spellingShingle Xin Sun
Daoyuan Yu
Zhijing Xie
Jie Dong
Yinhuan Ding
Haifeng Yao
Penelope Greenslade
Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
PLoS ONE
author_facet Xin Sun
Daoyuan Yu
Zhijing Xie
Jie Dong
Yinhuan Ding
Haifeng Yao
Penelope Greenslade
author_sort Xin Sun
title Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
title_short Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
title_full Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
title_fullStr Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
title_full_unstemmed Phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
title_sort phylomitogenomic analyses on collembolan higher taxa with enhanced taxon sampling and discussion on method selection.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Collembola are a basal group of Hexapoda renowned for both unique morphological characters and significant ecological roles. However, a robust and plausible phylogenetic relationship between its deeply divergent lineages has yet to be achieved. We carried out a mitophylogenomic study based on a so far the most comprehensive mitochondrial genome dataset. Our data matrix contained mitogenomes of 31 species from almost all major families of all four orders, with 16 mitogenomes newly sequenced and annotated. We compared the linear arrangements of genes along mitochondria across species. Then we conducted 13 analyses each under a different combination of character coding, partitioning scheme and heterotachy models, and assessed their performance in phylogenetic inference. Several hypothetical tree topologies were also tested. Mitogenomic structure comparison revealed that most species share the same gene order of putative ancestral pancrustacean pattern, while seven species from Onychiuridae, Poduridae and Symphypleona bear different levels of gene rearrangements, indicating phylogenetic signals. Tomoceroidea was robustly recovered for the first time in the presence of all its families and subfamilies. Monophyly of Onychiuroidea was supported using unpartitioned models alleviating LBA. Paronellidae was revealed polyphyletic with two subfamilies inserted independently into Entomobryidae. Although Entomobryomorpha has not been well supported, more than half of the analyses obtained convincing topologies by placing Tomoceroidea within or near remaining Entomobryomorpha. The relationship between elongate-shaped and spherical-shaped collembolans still remained ambiguous, but Neelipleona tend to occupy the basal position in most trees. This study showed that mitochondrial genomes could provide important information for reconstructing the relationships among Collembola when suitable analytical approaches are implemented. Of all the data refining and model selecting schemes used in this study, the combination of nucleotide sequences, partitioning model and exclusion of third codon positions performed better in generating more reliable tree topology and higher node supports than others.
url https://doi.org/10.1371/journal.pone.0230827
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