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Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes

The order Hypocreales (Ascomycota) is composed of ubiquitous and ecologically diverse fungi such as saprobes, biotrophs, and pathogens. Despite their phylogenetic relationship, these species exhibit high variability in biomolecules production, lifestyle, and fitness. The mitochondria play an importa...

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Autores principales: Fonseca, Paula L. C., Badotti, Fernanda, De-Paula, Ruth B., Araújo, Daniel S., Bortolini, Dener E., Del-Bem, Luiz-Eduardo, Azevedo, Vasco A., Brenig, Bertram, Aguiar, Eric R. G. R., Góes-Neto, Aristóteles
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7202290/
https://www.ncbi.nlm.nih.gov/pubmed/32411111
http://dx.doi.org/10.3389/fmicb.2020.00765
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author Fonseca, Paula L. C.
Badotti, Fernanda
De-Paula, Ruth B.
Araújo, Daniel S.
Bortolini, Dener E.
Del-Bem, Luiz-Eduardo
Azevedo, Vasco A.
Brenig, Bertram
Aguiar, Eric R. G. R.
Góes-Neto, Aristóteles
author_facet Fonseca, Paula L. C.
Badotti, Fernanda
De-Paula, Ruth B.
Araújo, Daniel S.
Bortolini, Dener E.
Del-Bem, Luiz-Eduardo
Azevedo, Vasco A.
Brenig, Bertram
Aguiar, Eric R. G. R.
Góes-Neto, Aristóteles
author_sort Fonseca, Paula L. C.
collection PubMed
description The order Hypocreales (Ascomycota) is composed of ubiquitous and ecologically diverse fungi such as saprobes, biotrophs, and pathogens. Despite their phylogenetic relationship, these species exhibit high variability in biomolecules production, lifestyle, and fitness. The mitochondria play an important role in the fungal biology, providing energy to the cells and regulating diverse processes, such as immune response. In spite of its importance, the mechanisms that shape fungal mitogenomes are still poorly understood. Herein, we investigated the variability and evolution of mitogenomes and its relationship with the divergence time using the order Hypocreales as a study model. We sequenced and annotated for the first time Trichoderma harzianum mitochondrial genome (mtDNA), which was compared to other 34 mtDNAs species that were publicly available. Comparative analysis revealed a substantial structural and size variation on non-coding mtDNA regions, despite the conservation of copy number, length, and structure of protein-coding elements. Interestingly, we observed a highly significant correlation between mitogenome length, and the number and size of non-coding sequences in mitochondrial genome. Among the non-coding elements, group I and II introns and homing endonucleases genes (HEGs) were the main contributors to discrepancies in mitogenomes structure and length. Several intronic sequences displayed sequence similarity among species, and some of them are conserved even at gene position, and were present in the majority of mitogenomes, indicating its origin in a common ancestor. On the other hand, we also identified species-specific introns that advocate for the origin by different mechanisms. Investigation of mitochondrial gene transfer to the nuclear genome revealed that nuclear copies of the nad5 are the most frequent while atp8, atp9, and cox3 could not be identified in any of the nuclear genomes analyzed. Moreover, we also estimated the divergence time of each species and investigated its relationship with coding and non-coding elements as well as with the length of mitogenomes. Altogether, our results demonstrated that introns and HEGs are key elements on mitogenome shaping and its presence on fast-evolving mtDNAs could be mostly explained by its divergence time, although the intron sharing profile suggests the involvement of other mechanisms on the mitochondrial genome evolution, such as horizontal transference.
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spelling pubmed-72022902020-05-14 Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes Fonseca, Paula L. C. Badotti, Fernanda De-Paula, Ruth B. Araújo, Daniel S. Bortolini, Dener E. Del-Bem, Luiz-Eduardo Azevedo, Vasco A. Brenig, Bertram Aguiar, Eric R. G. R. Góes-Neto, Aristóteles Front Microbiol Microbiology The order Hypocreales (Ascomycota) is composed of ubiquitous and ecologically diverse fungi such as saprobes, biotrophs, and pathogens. Despite their phylogenetic relationship, these species exhibit high variability in biomolecules production, lifestyle, and fitness. The mitochondria play an important role in the fungal biology, providing energy to the cells and regulating diverse processes, such as immune response. In spite of its importance, the mechanisms that shape fungal mitogenomes are still poorly understood. Herein, we investigated the variability and evolution of mitogenomes and its relationship with the divergence time using the order Hypocreales as a study model. We sequenced and annotated for the first time Trichoderma harzianum mitochondrial genome (mtDNA), which was compared to other 34 mtDNAs species that were publicly available. Comparative analysis revealed a substantial structural and size variation on non-coding mtDNA regions, despite the conservation of copy number, length, and structure of protein-coding elements. Interestingly, we observed a highly significant correlation between mitogenome length, and the number and size of non-coding sequences in mitochondrial genome. Among the non-coding elements, group I and II introns and homing endonucleases genes (HEGs) were the main contributors to discrepancies in mitogenomes structure and length. Several intronic sequences displayed sequence similarity among species, and some of them are conserved even at gene position, and were present in the majority of mitogenomes, indicating its origin in a common ancestor. On the other hand, we also identified species-specific introns that advocate for the origin by different mechanisms. Investigation of mitochondrial gene transfer to the nuclear genome revealed that nuclear copies of the nad5 are the most frequent while atp8, atp9, and cox3 could not be identified in any of the nuclear genomes analyzed. Moreover, we also estimated the divergence time of each species and investigated its relationship with coding and non-coding elements as well as with the length of mitogenomes. Altogether, our results demonstrated that introns and HEGs are key elements on mitogenome shaping and its presence on fast-evolving mtDNAs could be mostly explained by its divergence time, although the intron sharing profile suggests the involvement of other mechanisms on the mitochondrial genome evolution, such as horizontal transference. Frontiers Media S.A. 2020-04-29 /pmc/articles/PMC7202290/ /pubmed/32411111 http://dx.doi.org/10.3389/fmicb.2020.00765 Text en Copyright © 2020 Fonseca, Badotti, De-Paula, Araújo, Bortolini, Del-Bem, Azevedo, Brenig, Aguiar and Góes-Neto. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Fonseca, Paula L. C.
Badotti, Fernanda
De-Paula, Ruth B.
Araújo, Daniel S.
Bortolini, Dener E.
Del-Bem, Luiz-Eduardo
Azevedo, Vasco A.
Brenig, Bertram
Aguiar, Eric R. G. R.
Góes-Neto, Aristóteles
Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes
title Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes
title_full Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes
title_fullStr Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes
title_full_unstemmed Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes
title_short Exploring the Relationship Among Divergence Time and Coding and Non-coding Elements in the Shaping of Fungal Mitochondrial Genomes
title_sort exploring the relationship among divergence time and coding and non-coding elements in the shaping of fungal mitochondrial genomes
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7202290/
https://www.ncbi.nlm.nih.gov/pubmed/32411111
http://dx.doi.org/10.3389/fmicb.2020.00765
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