Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species

Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species

Abstract Trametes species are efficient wood decomposers that are widespread throughout the world. Mitogenomes have been widely used to understand the phylogeny and evolution of fungi. Up to now, two mitogenomes from the Trametes genus have been revealed. In the present study, the complete mitogenom...

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Main Authors: Cheng Chen, Qiang Li, Rongtao Fu, Jian Wang, Guangmin Deng, Xiaojuan Chen, Daihua Lu
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-82040-7
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spelling doaj-449982bb484a499eba8738a9c4929c832021-01-31T16:26:18ZengNature Publishing GroupScientific Reports2045-23222021-01-0111111210.1038/s41598-021-82040-7Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes speciesCheng Chen0Qiang Li1Rongtao Fu2Jian Wang3Guangmin Deng4Xiaojuan Chen5Daihua Lu6Institute of Plant Protection, Sichuan Academy of Agricultural Sciences, Key Laboratory of Integrated Pest Management On Crops in Southwest, Ministry of AgricultureKey Laboratory of Coarse Cereal Processing, Ministry of Agriculture and Rural Affairs, School of Food and Biological Engineering, Chengdu UniversityInstitute of Plant Protection, Sichuan Academy of Agricultural Sciences, Key Laboratory of Integrated Pest Management On Crops in Southwest, Ministry of AgricultureInstitute of Plant Protection, Sichuan Academy of Agricultural Sciences, Key Laboratory of Integrated Pest Management On Crops in Southwest, Ministry of AgricultureSichuan Academy of Agricultural SciencesInstitute of Plant Protection, Sichuan Academy of Agricultural Sciences, Key Laboratory of Integrated Pest Management On Crops in Southwest, Ministry of AgricultureInstitute of Plant Protection, Sichuan Academy of Agricultural Sciences, Key Laboratory of Integrated Pest Management On Crops in Southwest, Ministry of AgricultureAbstract Trametes species are efficient wood decomposers that are widespread throughout the world. Mitogenomes have been widely used to understand the phylogeny and evolution of fungi. Up to now, two mitogenomes from the Trametes genus have been revealed. In the present study, the complete mitogenomes of two novel Trametes species, Trametes versicolor and T. coccinea, were assembled and compared with other Polyporales mitogenomes. Both species contained circular DNA molecules, with sizes of 67,318 bp and 99,976 bp, respectively. Comparative mitogenomic analysis indicated that the gene number, length and base composition varied between the four Trametes mitogenomes we tested. In addition, all of the core protein coding genes in Trametes species were identified and subjected to purifying selection. The mitogenome of T. coccinea contained the largest number of introns among the four Trametes species tested, and introns were considered the main factors contributing to size variations of Polyporales. Several novel introns were detected in the Trametes species we assembled, and introns identified in Polyporales were found to undergo frequent loss/gain events. Large-scale gene rearrangements were detected between closely related Trametes species, including gene inversions, insertions, and migrations. A well-supported phylogenetic tree for 77 Basidiomycetes was obtained based on the combined mitochondrial gene set using 2 phylogenetic inference methods. The results showed that mitochondrial genes are effective molecular markers for understanding the phylogeny of Basidiomycetes. This study is the first to report the mitogenome rearrangement and intron dynamics of Trametes species, which shed light on the evolution of Trametes and other related species.https://doi.org/10.1038/s41598-021-82040-7
collection DOAJ
language English
format Article
sources DOAJ
author Cheng Chen
Qiang Li
Rongtao Fu
Jian Wang
Guangmin Deng
Xiaojuan Chen
Daihua Lu
spellingShingle Cheng Chen
Qiang Li
Rongtao Fu
Jian Wang
Guangmin Deng
Xiaojuan Chen
Daihua Lu
Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species
Scientific Reports
author_facet Cheng Chen
Qiang Li
Rongtao Fu
Jian Wang
Guangmin Deng
Xiaojuan Chen
Daihua Lu
author_sort Cheng Chen
title Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species
title_short Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species
title_full Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species
title_fullStr Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species
title_full_unstemmed Comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two Trametes species
title_sort comparative mitochondrial genome analysis reveals intron dynamics and gene rearrangements in two trametes species
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-01-01
description Abstract Trametes species are efficient wood decomposers that are widespread throughout the world. Mitogenomes have been widely used to understand the phylogeny and evolution of fungi. Up to now, two mitogenomes from the Trametes genus have been revealed. In the present study, the complete mitogenomes of two novel Trametes species, Trametes versicolor and T. coccinea, were assembled and compared with other Polyporales mitogenomes. Both species contained circular DNA molecules, with sizes of 67,318 bp and 99,976 bp, respectively. Comparative mitogenomic analysis indicated that the gene number, length and base composition varied between the four Trametes mitogenomes we tested. In addition, all of the core protein coding genes in Trametes species were identified and subjected to purifying selection. The mitogenome of T. coccinea contained the largest number of introns among the four Trametes species tested, and introns were considered the main factors contributing to size variations of Polyporales. Several novel introns were detected in the Trametes species we assembled, and introns identified in Polyporales were found to undergo frequent loss/gain events. Large-scale gene rearrangements were detected between closely related Trametes species, including gene inversions, insertions, and migrations. A well-supported phylogenetic tree for 77 Basidiomycetes was obtained based on the combined mitochondrial gene set using 2 phylogenetic inference methods. The results showed that mitochondrial genes are effective molecular markers for understanding the phylogeny of Basidiomycetes. This study is the first to report the mitogenome rearrangement and intron dynamics of Trametes species, which shed light on the evolution of Trametes and other related species.
url https://doi.org/10.1038/s41598-021-82040-7
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