How did the guppy Y chromosome evolve?
The sex chromosome pairs of many species do not undergo genetic recombination, unlike the autosomes. It has been proposed that the suppressed recombination results from natural selection favouring close linkage between sex-determining genes and mutations on this chromosome with advantages in one sex...
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| Published in | PLoS genetics Vol. 17; no. 8; p. e1009704 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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09.08.2021
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| Abstract | The sex chromosome pairs of many species do not undergo genetic recombination, unlike the autosomes. It has been proposed that the suppressed recombination results from natural selection favouring close linkage between sex-determining genes and mutations on this chromosome with advantages in one sex, but disadvantages in the other (these are called sexually antagonistic mutations). No example of such selection leading to suppressed recombination has been described, but populations of the guppy display sexually antagonistic mutations (affecting male coloration), and would be expected to evolve suppressed recombination. In extant close relatives of the guppy, the Y chromosomes have suppressed recombination, and have lost all the genes present on the X (this is called genetic degeneration). However, the guppy Y occasionally recombines with its X, despite carrying sexually antagonistic mutations. We describe evidence that a new Y evolved recently in the guppy, from an X chromosome like that in these relatives, replacing the old, degenerated Y, and explaining why the guppy pair still recombine. The male coloration factors probably arose after the new Y evolved, and have already evolved expression that is confined to males, a different way to avoid the conflict between the sexes. |
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| AbstractList | The sex chromosome pairs of many species do not undergo genetic recombination, unlike the autosomes. It has been proposed that the suppressed recombination results from natural selection favouring close linkage between sex-determining genes and mutations on this chromosome with advantages in one sex, but disadvantages in the other (these are called sexually antagonistic mutations). No example of such selection leading to suppressed recombination has been described, but populations of the guppy display sexually antagonistic mutations (affecting male coloration), and would be expected to evolve suppressed recombination. In extant close relatives of the guppy, the Y chromosomes have suppressed recombination, and have lost all the genes present on the X (this is called genetic degeneration). However, the guppy Y occasionally recombines with its X, despite carrying sexually antagonistic mutations. We describe evidence that a new Y evolved recently in the guppy, from an X chromosome like that in these relatives, replacing the old, degenerated Y, and explaining why the guppy pair still recombine. The male coloration factors probably arose after the new Y evolved, and have already evolved expression that is confined to males, a different way to avoid the conflict between the sexes.
We report new findings concerning the long-studied the guppy XY pair, which has remained somewhat mystifying. We show that it can be understood as a case of a recent sex chromosome turnover event in which an older, highly degenerated Y chromosome was lost, and creation of a new sex chromosome from the ancestral X. This chromosome acquired a male-determining factor, possibly by a mutation in (or a duplication of) a previously X-linked gene, or (less likely) by movement of an ancestral Y-linked maleness factor onto the X. We relate the findings to theoretical models of such events, and argue that the proposed change was free from factors thought to impede such turnovers. The change resulted in the intriguing situation where the X chromosome is old and the Y is much younger, and we discuss some other species where a similar change seems likely to have occurred. The sex chromosome pairs of many species do not undergo genetic recombination, unlike the autosomes. It has been proposed that the suppressed recombination results from natural selection favouring close linkage between sex-determining genes and mutations on this chromosome with advantages in one sex, but disadvantages in the other (these are called sexually antagonistic mutations). No example of such selection leading to suppressed recombination has been described, but populations of the guppy display sexually antagonistic mutations (affecting male coloration), and would be expected to evolve suppressed recombination. In extant close relatives of the guppy, the Y chromosomes have suppressed recombination, and have lost all the genes present on the X (this is called genetic degeneration). However, the guppy Y occasionally recombines with its X, despite carrying sexually antagonistic mutations. We describe evidence that a new Y evolved recently in the guppy, from an X chromosome like that in these relatives, replacing the old, degenerated Y, and explaining why the guppy pair still recombine. The male coloration factors probably arose after the new Y evolved, and have already evolved expression that is confined to males, a different way to avoid the conflict between the sexes. |
| Audience | Academic |
| Author | Graham, Chay Bergero, Roberta Keegan, Karen Gardner, Jim Charlesworth, Deborah |
| AuthorAffiliation | 1 Institute of Evolutionary Biology, School of Biological Sciences, University of Edinburgh, Edinburgh, United Kingdom 2 University of Cambridge, Department of Biochemistry, Sanger Building, 80 Tennis Court Road, Cambridge, United Kingdom University of Georgia, UNITED STATES |
| AuthorAffiliation_xml | – name: 2 University of Cambridge, Department of Biochemistry, Sanger Building, 80 Tennis Court Road, Cambridge, United Kingdom – name: University of Georgia, UNITED STATES – name: 1 Institute of Evolutionary Biology, School of Biological Sciences, University of Edinburgh, Edinburgh, United Kingdom |
| Author_xml | – sequence: 1 fullname: Charlesworth, Deborah – sequence: 2 fullname: Bergero, Roberta – sequence: 3 fullname: Graham, Chay – sequence: 4 fullname: Gardner, Jim – sequence: 5 fullname: Keegan, Karen |
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| CitedBy_id | crossref_primary_10_3390_fishes8080407 crossref_primary_10_1093_g3journal_jkab435 crossref_primary_10_1073_pnas_2121469119 crossref_primary_10_1111_mec_16674 crossref_primary_10_1111_mec_17048 crossref_primary_10_3390_cells11071118 crossref_primary_10_1007_s10577_022_09699_0 crossref_primary_10_1093_gbe_evad105 crossref_primary_10_1093_gbe_evad128 crossref_primary_10_1093_jhered_esae031 crossref_primary_10_1101_gr_278127_123 crossref_primary_10_24072_pcjournal_373 crossref_primary_10_1093_genetics_iyad198 crossref_primary_10_1093_gbe_evad030 |
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| ContentType | Journal Article |
| Copyright | COPYRIGHT 2021 Public Library of Science 2021 Charlesworth et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2021 Charlesworth et al 2021 Charlesworth et al |
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| DOI | 10.1371/journal.pgen.1009704 |
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| Notes | new_version ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Current address: Scottish Rural Agricultural College, Peter Wilson Building, The King’s Buildings, West Mains Road, Edinburgh, United Kingdom The authors have declared that no competing interests exist. |
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| SubjectTerms | Biology and Life Sciences Coloration Degeneration Evolution Genes Genetic aspects Genetic research Genomes Guppies Localization Males Medicine and Health Sciences Mutation Natural history Natural selection Physiological aspects Recombination Sex chromosomes Sex determination, Genetic X chromosomes Y chromosome Y chromosomes Zoological research |
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| Title | How did the guppy Y chromosome evolve? |
| URI | https://www.proquest.com/docview/2573455831 https://search.proquest.com/docview/2560066508 https://pubmed.ncbi.nlm.nih.gov/PMC8376059 https://doaj.org/article/a74fb9b179da4bfcab739dafbc4ced14 http://dx.doi.org/10.1371/journal.pgen.1009704 |
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