No evidence for accumulation of deleterious mutations and fitness degradation in clonal fish hybrids: Abandoning sex without regrets

Despite its inherent costs, sexual reproduction is ubiquitous in nature, and the mechanisms to protect it from a competitive displacement by asexuality remain unclear. Popular mutation‐based explanations, like the Muller's ratchet and the Kondrashov's hatchet, assume that purifying selecti...

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Veröffentlicht in:	Molecular ecology 2020-08, Vol.29 (16), p.3038-3055
Hauptverfasser:	Kočí, Jan, Röslein, Jan, Pačes, Jan, Kotusz, Jan, Halačka, Karel, Koščo, Ján, Fedorčák, Jakub, Iakovenko, Nataliia, Janko, Karel
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Sprache:	eng
Schlagworte:	Accumulation Amino acids asexuality clonal decay Degeneration Degradation Empirical analysis exome capture Fish reproduction Fitness Genomes Hybrids Muller’s ratchet Mutation mutation load Original Aritcle ORIGINAL ARITCLES Reproduction (biology) Reproductive fitness Sex Sexual reproduction Time dependence
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container_issue	16
container_start_page	3038
container_title	Molecular ecology
container_volume	29
creator	Kočí, Jan Röslein, Jan Pačes, Jan Kotusz, Jan Halačka, Karel Koščo, Ján Fedorčák, Jakub Iakovenko, Nataliia Janko, Karel
description	Despite its inherent costs, sexual reproduction is ubiquitous in nature, and the mechanisms to protect it from a competitive displacement by asexuality remain unclear. Popular mutation‐based explanations, like the Muller's ratchet and the Kondrashov's hatchet, assume that purifying selection may not halt the accumulation of deleterious mutations in the nonrecombining genomes, ultimately leading to their degeneration. However, empirical evidence is scarce and it remains particularly unclear whether mutational degradation proceeds fast enough to ensure the decay of clonal organisms and to prevent them from outcompeting their sexual counterparts. To test this hypothesis, we jointly analysed the exome sequences and the fitness‐related phenotypic traits of the sexually reproducing fish species and their clonal hybrids, whose evolutionary ages ranged from F1 generations to 300 ky. As expected, mutations tended to accumulate in the clonal genomes in a time‐dependent manner. However, contrary to the predictions, we found no trend towards increased nonsynonymity of mutations acquired by clones, nor higher radicality of their amino acid substitutions. Moreover, there was no evidence for fitness degeneration in the old clones compared with that in the younger ones. In summary, although an efficacy of purifying selection may still be reduced in the asexual genomes, our data indicate that its efficiency is not drastically decreased. Even the oldest investigated clone was found to be too young to suffer fitness consequences from a mutation accumulation. This suggests that mechanisms other than mutation accumulation may be needed to explain the competitive advantage of sex in the short term.
doi_str_mv	10.1111/mec.15539
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Popular mutation‐based explanations, like the Muller's ratchet and the Kondrashov's hatchet, assume that purifying selection may not halt the accumulation of deleterious mutations in the nonrecombining genomes, ultimately leading to their degeneration. However, empirical evidence is scarce and it remains particularly unclear whether mutational degradation proceeds fast enough to ensure the decay of clonal organisms and to prevent them from outcompeting their sexual counterparts. To test this hypothesis, we jointly analysed the exome sequences and the fitness‐related phenotypic traits of the sexually reproducing fish species and their clonal hybrids, whose evolutionary ages ranged from F1 generations to 300 ky. As expected, mutations tended to accumulate in the clonal genomes in a time‐dependent manner. However, contrary to the predictions, we found no trend towards increased nonsynonymity of mutations acquired by clones, nor higher radicality of their amino acid substitutions. Moreover, there was no evidence for fitness degeneration in the old clones compared with that in the younger ones. In summary, although an efficacy of purifying selection may still be reduced in the asexual genomes, our data indicate that its efficiency is not drastically decreased. Even the oldest investigated clone was found to be too young to suffer fitness consequences from a mutation accumulation. 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Moreover, there was no evidence for fitness degeneration in the old clones compared with that in the younger ones. In summary, although an efficacy of purifying selection may still be reduced in the asexual genomes, our data indicate that its efficiency is not drastically decreased. Even the oldest investigated clone was found to be too young to suffer fitness consequences from a mutation accumulation. 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Popular mutation‐based explanations, like the Muller's ratchet and the Kondrashov's hatchet, assume that purifying selection may not halt the accumulation of deleterious mutations in the nonrecombining genomes, ultimately leading to their degeneration. However, empirical evidence is scarce and it remains particularly unclear whether mutational degradation proceeds fast enough to ensure the decay of clonal organisms and to prevent them from outcompeting their sexual counterparts. To test this hypothesis, we jointly analysed the exome sequences and the fitness‐related phenotypic traits of the sexually reproducing fish species and their clonal hybrids, whose evolutionary ages ranged from F1 generations to 300 ky. As expected, mutations tended to accumulate in the clonal genomes in a time‐dependent manner. However, contrary to the predictions, we found no trend towards increased nonsynonymity of mutations acquired by clones, nor higher radicality of their amino acid substitutions. Moreover, there was no evidence for fitness degeneration in the old clones compared with that in the younger ones. In summary, although an efficacy of purifying selection may still be reduced in the asexual genomes, our data indicate that its efficiency is not drastically decreased. Even the oldest investigated clone was found to be too young to suffer fitness consequences from a mutation accumulation. This suggests that mechanisms other than mutation accumulation may be needed to explain the competitive advantage of sex in the short term.</abstract><cop>Oxford</cop><pub>Blackwell Publishing Ltd</pub><pmid>32627290</pmid><doi>10.1111/mec.15539</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0003-3059-6127</orcidid><orcidid>https://orcid.org/0000-0002-3839-9438</orcidid><orcidid>https://orcid.org/0000-0002-7866-4937</orcidid><orcidid>https://orcid.org/0000-0002-9036-8321</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Accumulation Amino acids asexuality clonal decay Degeneration Degradation Empirical analysis exome capture Fish reproduction Fitness Genomes Hybrids Muller’s ratchet Mutation mutation load Original Aritcle ORIGINAL ARITCLES Reproduction (biology) Reproductive fitness Sex Sexual reproduction Time dependence
title	No evidence for accumulation of deleterious mutations and fitness degradation in clonal fish hybrids: Abandoning sex without regrets
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