Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition

Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition

Abstract The emergence of cost-effective and rapid sequencing approaches has resulted in an exponential rise in the number of mitogenomes on public databases in recent years, providing greater opportunity for undertaking large-scale comparative genomic and systematic research. Nonetheless, current d...

Full description

Bibliographic Details
Main Authors: Mun Hua Tan, Han Ming Gan, Yin Peng Lee, Heather Bracken-Grissom, Tin-Yam Chan, Adam D. Miller, Christopher M. Austin
Format: Article
Language:English
Published: Nature Publishing Group 2019-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-019-47145-0
id doaj-e4e2bd4f88814192a18b0c9b63308362
record_format Article
spelling doaj-e4e2bd4f88814192a18b0c9b633083622020-12-08T09:11:47ZengNature Publishing GroupScientific Reports2045-23222019-07-019111610.1038/s41598-019-47145-0Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and compositionMun Hua Tan0Han Ming Gan1Yin Peng Lee2Heather Bracken-Grissom3Tin-Yam Chan4Adam D. Miller5Christopher M. Austin6Centre of Integrative Ecology, School of Life and Environmental Sciences Deakin UniversityCentre of Integrative Ecology, School of Life and Environmental Sciences Deakin UniversityCentre of Integrative Ecology, School of Life and Environmental Sciences Deakin UniversityDepartment of Biological Sciences, Florida International UniversityInstitute of Marine Biology and Center of Excellence for the Oceans, National Taiwan Ocean UniversityCentre of Integrative Ecology, School of Life and Environmental Sciences Deakin UniversityCentre of Integrative Ecology, School of Life and Environmental Sciences Deakin UniversityAbstract The emergence of cost-effective and rapid sequencing approaches has resulted in an exponential rise in the number of mitogenomes on public databases in recent years, providing greater opportunity for undertaking large-scale comparative genomic and systematic research. Nonetheless, current datasets predominately come from small and disconnected studies on a limited number of related species, introducing sampling biases and impeding research of broad taxonomic relevance. This study contributes 21 crustacean mitogenomes from several under-represented decapod infraorders including Polychelida and Stenopodidea, which are used in combination with 225 mitogenomes available on NCBI to investigate decapod mitogenome diversity and phylogeny. An overview of mitochondrial gene orders (MGOs) reveals a high level of genomic variability within the Decapoda, with a large number of MGOs deviating from the ancestral arthropod ground pattern and unevenly distributed among infraorders. Despite the substantial morphological and ecological variation among decapods, there was limited evidence for correlations between gene rearrangement events and species ecology or lineage specific nucleotide substitution rates. Within a phylogenetic context, predicted scenarios of rearrangements show some MGOs to be informative synapomorphies for some taxonomic groups providing strong independent support for phylogenetic relationships. Additional comparisons for a range of mitogenomic features including nucleotide composition, strand asymmetry, unassigned regions and codon usage indicate several clade-specific trends that are of evolutionary and ecological interest.https://doi.org/10.1038/s41598-019-47145-0
collection DOAJ
language English
format Article
sources DOAJ
author Mun Hua Tan
Han Ming Gan
Yin Peng Lee
Heather Bracken-Grissom
Tin-Yam Chan
Adam D. Miller
Christopher M. Austin
spellingShingle Mun Hua Tan
Han Ming Gan
Yin Peng Lee
Heather Bracken-Grissom
Tin-Yam Chan
Adam D. Miller
Christopher M. Austin
Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition
Scientific Reports
author_facet Mun Hua Tan
Han Ming Gan
Yin Peng Lee
Heather Bracken-Grissom
Tin-Yam Chan
Adam D. Miller
Christopher M. Austin
author_sort Mun Hua Tan
title Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition
title_short Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition
title_full Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition
title_fullStr Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition
title_full_unstemmed Comparative mitogenomics of the Decapoda reveals evolutionary heterogeneity in architecture and composition
title_sort comparative mitogenomics of the decapoda reveals evolutionary heterogeneity in architecture and composition
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2019-07-01
description Abstract The emergence of cost-effective and rapid sequencing approaches has resulted in an exponential rise in the number of mitogenomes on public databases in recent years, providing greater opportunity for undertaking large-scale comparative genomic and systematic research. Nonetheless, current datasets predominately come from small and disconnected studies on a limited number of related species, introducing sampling biases and impeding research of broad taxonomic relevance. This study contributes 21 crustacean mitogenomes from several under-represented decapod infraorders including Polychelida and Stenopodidea, which are used in combination with 225 mitogenomes available on NCBI to investigate decapod mitogenome diversity and phylogeny. An overview of mitochondrial gene orders (MGOs) reveals a high level of genomic variability within the Decapoda, with a large number of MGOs deviating from the ancestral arthropod ground pattern and unevenly distributed among infraorders. Despite the substantial morphological and ecological variation among decapods, there was limited evidence for correlations between gene rearrangement events and species ecology or lineage specific nucleotide substitution rates. Within a phylogenetic context, predicted scenarios of rearrangements show some MGOs to be informative synapomorphies for some taxonomic groups providing strong independent support for phylogenetic relationships. Additional comparisons for a range of mitogenomic features including nucleotide composition, strand asymmetry, unassigned regions and codon usage indicate several clade-specific trends that are of evolutionary and ecological interest.
url https://doi.org/10.1038/s41598-019-47145-0
work_keys_str_mv AT munhuatan comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
AT hanminggan comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
AT yinpenglee comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
AT heatherbrackengrissom comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
AT tinyamchan comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
AT adamdmiller comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
AT christophermaustin comparativemitogenomicsofthedecapodarevealsevolutionaryheterogeneityinarchitectureandcomposition
_version_ 1724390126430191616

Similar Items