Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses

Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses

Abstract Background The family Labridae made up of 519 species in the world. The functional evolution of the feeding-related jaws leaded to differentiation of species, and the pharyngeal jaw apparatus evolved independently, but evolutionary mechanism still remain unaddressed in wrasses. Mitogenomes...

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Main Authors: Dong Liu, Yuanyuan Zhang, Ming Zhang, Jinquan Yang, Wenqiao Tang
Format: Article
Language:English
Published: BMC 2020-09-01
Series:BMC Evolutionary Biology
Subjects:
Fish
Molecular diversity
16S rRNA
12S rRNA
Transposon
Evolution
Online Access:http://link.springer.com/article/10.1186/s12862-020-01683-8
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spelling doaj-15f9f86b1b71482eb60978e6a95b76ec2021-09-02T16:24:50ZengBMCBMC Evolutionary Biology1471-21482020-09-0120111310.1186/s12862-020-01683-8Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrassesDong Liu0Yuanyuan Zhang1Ming Zhang2Jinquan Yang3Wenqiao Tang4Shanghai Universities Key Laboratory of Marine Animal Taxonomy and EvolutionShanghai Universities Key Laboratory of Marine Animal Taxonomy and EvolutionDepartment of Epidemiology and Biostatistics, University of GeorgiaShanghai Universities Key Laboratory of Marine Animal Taxonomy and EvolutionShanghai Universities Key Laboratory of Marine Animal Taxonomy and EvolutionAbstract Background The family Labridae made up of 519 species in the world. The functional evolution of the feeding-related jaws leaded to differentiation of species, and the pharyngeal jaw apparatus evolved independently, but evolutionary mechanism still remain unaddressed in wrasses. Mitogenomes data can be used to infer genetic diversification and investigate evolutionary history of wrasses, whereas only eight complete mitogenomes in this family have been sequenced to date. Here, we sequenced the complete mitogenomes of Iniistius trivittatus to investigate genetic differentiation among wrasse species. Results We sequenced the complete mitogenomes of I. trivittatus using a novel PCR strategy. The I. trivittatus mitogenomes is 16,820 bp in length and includes 13 protein -coding genes, 2 ribosomal RNA (rRNA) genes, 22 transfer RNA (tRNA) genes, and a control region. Compared to eight known mitochondrial genome, 2 additional noncoding regions (lengths of 121 and 107 bp), or so-called inserts, are found in the intergenic regions 12S rRNA - tRNAVal - 16S rRNA. The presumed origin of the two rare inserts is from tRNA- related retrotransposons. Compared with cytochrome b gene, the two insert sequences are highly conserved at the intraspecies level, but they showed significant variation and low similarity (< 70%) at the interspecies level. The insert events were only observed in I. trivittatus by checking the phylogenetic trees based on the complete mitogenomes of Labrida species. This finding provides evidence that in the mitogenomes, retrotransposon inserts result in intraspecific homoplasmy and interspecific heteroplasmy by natural selection and adaptation to various environments. Conclusions This study found additional mitogenome inserts limited in wrasse species. The rRNA genes with inserts might have experienced a selective pressure for adaptation to feeding modes. Such knowledge can enable a better understanding of molecular mechanism underlying morphological evolution in wrasses.http://link.springer.com/article/10.1186/s12862-020-01683-8FishMolecular diversity16S rRNA12S rRNATransposonEvolution
collection DOAJ
language English
format Article
sources DOAJ
author Dong Liu
Yuanyuan Zhang
Ming Zhang
Jinquan Yang
Wenqiao Tang
spellingShingle Dong Liu
Yuanyuan Zhang
Ming Zhang
Jinquan Yang
Wenqiao Tang
Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses
BMC Evolutionary Biology
Fish
Molecular diversity
16S rRNA
12S rRNA
Transposon
Evolution
author_facet Dong Liu
Yuanyuan Zhang
Ming Zhang
Jinquan Yang
Wenqiao Tang
author_sort Dong Liu
title Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses
title_short Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses
title_full Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses
title_fullStr Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses
title_full_unstemmed Complete mitochondrial genome of Iniistius trivittatus and unique variation in two observed inserts between rRNA and tRNA genes in wrasses
title_sort complete mitochondrial genome of iniistius trivittatus and unique variation in two observed inserts between rrna and trna genes in wrasses
publisher BMC
series BMC Evolutionary Biology
issn 1471-2148
publishDate 2020-09-01
description Abstract Background The family Labridae made up of 519 species in the world. The functional evolution of the feeding-related jaws leaded to differentiation of species, and the pharyngeal jaw apparatus evolved independently, but evolutionary mechanism still remain unaddressed in wrasses. Mitogenomes data can be used to infer genetic diversification and investigate evolutionary history of wrasses, whereas only eight complete mitogenomes in this family have been sequenced to date. Here, we sequenced the complete mitogenomes of Iniistius trivittatus to investigate genetic differentiation among wrasse species. Results We sequenced the complete mitogenomes of I. trivittatus using a novel PCR strategy. The I. trivittatus mitogenomes is 16,820 bp in length and includes 13 protein -coding genes, 2 ribosomal RNA (rRNA) genes, 22 transfer RNA (tRNA) genes, and a control region. Compared to eight known mitochondrial genome, 2 additional noncoding regions (lengths of 121 and 107 bp), or so-called inserts, are found in the intergenic regions 12S rRNA - tRNAVal - 16S rRNA. The presumed origin of the two rare inserts is from tRNA- related retrotransposons. Compared with cytochrome b gene, the two insert sequences are highly conserved at the intraspecies level, but they showed significant variation and low similarity (< 70%) at the interspecies level. The insert events were only observed in I. trivittatus by checking the phylogenetic trees based on the complete mitogenomes of Labrida species. This finding provides evidence that in the mitogenomes, retrotransposon inserts result in intraspecific homoplasmy and interspecific heteroplasmy by natural selection and adaptation to various environments. Conclusions This study found additional mitogenome inserts limited in wrasse species. The rRNA genes with inserts might have experienced a selective pressure for adaptation to feeding modes. Such knowledge can enable a better understanding of molecular mechanism underlying morphological evolution in wrasses.
topic Fish
Molecular diversity
16S rRNA
12S rRNA
Transposon
Evolution
url http://link.springer.com/article/10.1186/s12862-020-01683-8
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