A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand

The mutational spectrum of the mitochondrial DNA (mtDNA) does not resemble any of the known mutational signatures of the nuclear genome and variation in mtDNA mutational spectra between different organisms is still incomprehensible. Since mitochondria are responsible for aerobic respiration, it is e...

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Autores principales: Mikhailova, Alina G, Mikhailova, Alina A, Ushakova, Kristina, Tretiakov, Evgeny O, Iliushchenko, Dmitrii, Shamansky, Victor, Lobanova, Valeria, Kozenkov, Ivan, Efimenko, Bogdan, Yurchenko, Andrey A, Kozenkova, Elena, Zdobnov, Evgeny M, Makeev, Vsevolod, Yurov, Valerian, Tanaka, Masashi, Gostimskaya, Irina, Fleischmann, Zoe, Annis, Sofia, Franco, Melissa, Wasko, Kevin, Denisov, Stepan, Kunz, Wolfram S, Knorre, Dmitry, Mazunin, Ilya, Nikolaev, Sergey, Fellay, Jacques, Reymond, Alexandre, Khrapko, Konstantin, Gunbin, Konstantin, Popadin, Konstantin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2022
Materias:
Computational Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9561281/
https://www.ncbi.nlm.nih.gov/pubmed/36130228
http://dx.doi.org/10.1093/nar/gkac779
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author Mikhailova, Alina G
Mikhailova, Alina A
Ushakova, Kristina
Tretiakov, Evgeny O
Iliushchenko, Dmitrii
Shamansky, Victor
Lobanova, Valeria
Kozenkov, Ivan
Efimenko, Bogdan
Yurchenko, Andrey A
Kozenkova, Elena
Zdobnov, Evgeny M
Makeev, Vsevolod
Yurov, Valerian
Tanaka, Masashi
Gostimskaya, Irina
Fleischmann, Zoe
Annis, Sofia
Franco, Melissa
Wasko, Kevin
Denisov, Stepan
Kunz, Wolfram S
Knorre, Dmitry
Mazunin, Ilya
Nikolaev, Sergey
Fellay, Jacques
Reymond, Alexandre
Khrapko, Konstantin
Gunbin, Konstantin
Popadin, Konstantin
author_facet Mikhailova, Alina G
Mikhailova, Alina A
Ushakova, Kristina
Tretiakov, Evgeny O
Iliushchenko, Dmitrii
Shamansky, Victor
Lobanova, Valeria
Kozenkov, Ivan
Efimenko, Bogdan
Yurchenko, Andrey A
Kozenkova, Elena
Zdobnov, Evgeny M
Makeev, Vsevolod
Yurov, Valerian
Tanaka, Masashi
Gostimskaya, Irina
Fleischmann, Zoe
Annis, Sofia
Franco, Melissa
Wasko, Kevin
Denisov, Stepan
Kunz, Wolfram S
Knorre, Dmitry
Mazunin, Ilya
Nikolaev, Sergey
Fellay, Jacques
Reymond, Alexandre
Khrapko, Konstantin
Gunbin, Konstantin
Popadin, Konstantin
author_sort Mikhailova, Alina G
collection PubMed
description The mutational spectrum of the mitochondrial DNA (mtDNA) does not resemble any of the known mutational signatures of the nuclear genome and variation in mtDNA mutational spectra between different organisms is still incomprehensible. Since mitochondria are responsible for aerobic respiration, it is expected that mtDNA mutational spectrum is affected by oxidative damage. Assuming that oxidative damage increases with age, we analyse mtDNA mutagenesis of different species in regards to their generation length. Analysing, (i) dozens of thousands of somatic mtDNA mutations in samples of different ages (ii) 70053 polymorphic synonymous mtDNA substitutions reconstructed in 424 mammalian species with different generation lengths and (iii) synonymous nucleotide content of 650 complete mitochondrial genomes of mammalian species we observed that the frequency of A(H) > G(H) substitutions (H: heavy strand notation) is twice bigger in species with high versus low generation length making their mtDNA more A(H) poor and G(H) rich. Considering that A(H) > G(H) substitutions are also sensitive to the time spent single-stranded (TSSS) during asynchronous mtDNA replication we demonstrated that A(H) > G(H) substitution rate is a function of both species-specific generation length and position-specific TSSS. We propose that A(H) > G(H) is a mitochondria-specific signature of oxidative damage associated with both aging and TSSS.
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spelling pubmed-95612812022-10-18 A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand Mikhailova, Alina G Mikhailova, Alina A Ushakova, Kristina Tretiakov, Evgeny O Iliushchenko, Dmitrii Shamansky, Victor Lobanova, Valeria Kozenkov, Ivan Efimenko, Bogdan Yurchenko, Andrey A Kozenkova, Elena Zdobnov, Evgeny M Makeev, Vsevolod Yurov, Valerian Tanaka, Masashi Gostimskaya, Irina Fleischmann, Zoe Annis, Sofia Franco, Melissa Wasko, Kevin Denisov, Stepan Kunz, Wolfram S Knorre, Dmitry Mazunin, Ilya Nikolaev, Sergey Fellay, Jacques Reymond, Alexandre Khrapko, Konstantin Gunbin, Konstantin Popadin, Konstantin Nucleic Acids Res Computational Biology The mutational spectrum of the mitochondrial DNA (mtDNA) does not resemble any of the known mutational signatures of the nuclear genome and variation in mtDNA mutational spectra between different organisms is still incomprehensible. Since mitochondria are responsible for aerobic respiration, it is expected that mtDNA mutational spectrum is affected by oxidative damage. Assuming that oxidative damage increases with age, we analyse mtDNA mutagenesis of different species in regards to their generation length. Analysing, (i) dozens of thousands of somatic mtDNA mutations in samples of different ages (ii) 70053 polymorphic synonymous mtDNA substitutions reconstructed in 424 mammalian species with different generation lengths and (iii) synonymous nucleotide content of 650 complete mitochondrial genomes of mammalian species we observed that the frequency of A(H) > G(H) substitutions (H: heavy strand notation) is twice bigger in species with high versus low generation length making their mtDNA more A(H) poor and G(H) rich. Considering that A(H) > G(H) substitutions are also sensitive to the time spent single-stranded (TSSS) during asynchronous mtDNA replication we demonstrated that A(H) > G(H) substitution rate is a function of both species-specific generation length and position-specific TSSS. We propose that A(H) > G(H) is a mitochondria-specific signature of oxidative damage associated with both aging and TSSS. Oxford University Press 2022-09-21 /pmc/articles/PMC9561281/ /pubmed/36130228 http://dx.doi.org/10.1093/nar/gkac779 Text en © The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research. https://creativecommons.org/licenses/by-nc/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (https://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Computational Biology
Mikhailova, Alina G
Mikhailova, Alina A
Ushakova, Kristina
Tretiakov, Evgeny O
Iliushchenko, Dmitrii
Shamansky, Victor
Lobanova, Valeria
Kozenkov, Ivan
Efimenko, Bogdan
Yurchenko, Andrey A
Kozenkova, Elena
Zdobnov, Evgeny M
Makeev, Vsevolod
Yurov, Valerian
Tanaka, Masashi
Gostimskaya, Irina
Fleischmann, Zoe
Annis, Sofia
Franco, Melissa
Wasko, Kevin
Denisov, Stepan
Kunz, Wolfram S
Knorre, Dmitry
Mazunin, Ilya
Nikolaev, Sergey
Fellay, Jacques
Reymond, Alexandre
Khrapko, Konstantin
Gunbin, Konstantin
Popadin, Konstantin
A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand
title A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand
title_full A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand
title_fullStr A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand
title_full_unstemmed A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand
title_short A mitochondria-specific mutational signature of aging: increased rate of A > G substitutions on the heavy strand
title_sort mitochondria-specific mutational signature of aging: increased rate of a > g substitutions on the heavy strand
topic Computational Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9561281/
https://www.ncbi.nlm.nih.gov/pubmed/36130228
http://dx.doi.org/10.1093/nar/gkac779
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