Sex‐chromosome turnovers induced by deleterious mutation load
Olivier Blaser,Christine Grossen,Christine Grossen,Samuel Neuenschwander,Samuel Neuenschwander,Nicolas Perrin +5 more
Reads0
Chats0
TLDR
Individual‐based simulations of a Muller's ratchet process are used to test how the relevant parameters (effective population size, strength and dominance of deleterious mutations, size of nonrecombining segment, and strength of sexually antagonistic selection) are expected to affect the rate of turnovers.Abstract:
In sharp contrast with mammals and birds, many cold-blooded vertebrates present homomorphic sex chromosomes. Empirical evidence supports a role for frequent turnovers, which replace nonrecombining sex chromosomes before they have time to decay. Three main mechanisms have been proposed for such turnovers, relying either on neutral processes, sex-ratio selection, or intrinsic benefits of the new sex-determining genes (due, e.g., to linkage with sexually antagonistic mutations). Here, we suggest an additional mechanism, arising from the load of deleterious mutations that accumulate on nonrecombining sex chromosomes. In the absence of dosage compensation, this load should progressively lower survival rate in the heterogametic sex. Turnovers should occur when this cost outweighs the benefits gained from any sexually antagonistic genes carried by the nonrecombining sex chromosome. We use individual-based simulations of a Muller's ratchet process to test this prediction, and investigate how the relevant parameters (effective population size, strength and dominance of deleterious mutations, size of nonrecombining segment, and strength of sexually antagonistic selection) are expected to affect the rate of turnovers.read more
Citations
More filters
Journal ArticleDOI
Sex Determination: Why So Many Ways of Doing It?
Doris Bachtrog,Judith E. Mank,Catherine L. Peichel,Mark Kirkpatrick,Sarah P. Otto,Tia-Lynn Ashman,Matthew W. Hahn,Jun Kitano,Itay Mayrose,Ray Ming,Nicolas Perrin,Laura Ross,Nicole Valenzuela,Jana C. Vamosi +13 more
TL;DR: The current understanding of how and why sex determination evolves in animals and plants is reviewed.
Journal ArticleDOI
Restriction Site-Associated DNA Sequencing (RAD-seq) Reveals an Extraordinary Number of Transitions among Gecko Sex-Determining Systems
Tony Gamble,Tony Gamble,Jessi Coryell,Tariq Ezaz,Joshua Lynch,Daniel P. Scantlebury,David Zarkower +6 more
TL;DR: Support is found for the hypothesis that sex chromosome systems can readily become trap-like and it is found that adding even a small number of species from understudied clades can greatly enhance hypothesis testing in a model-based phylogenetic framework.
Journal ArticleDOI
Plasticity of gene-regulatory networks controlling sex determination: of masters, slaves, usual suspects, newcomers, and usurpators
Amaury Herpin,Manfred Schartl +1 more
TL;DR: Recently, sex‐determining genes from several animal species have been identified and new studies have elucidated some novel regulatory interactions and biological functions of the downstream network, particularly in vertebrates, which considerably changed classical perception of a simple linear developmental cascade that makes the decision for the embryo to develop as male or female.
Journal ArticleDOI
A rapid rate of sex-chromosome turnover and non-random transitions in true frogs.
Daniel L. Jeffries,Guillaume Lavanchy,Roberto Sermier,Michael J. Sredl,Ikuo Miura,Amaël Borzée,Lisa N. Barrow,Daniele Canestrelli,Pierre-André Crochet,Christophe Dufresnes,Jinzhong Fu,Wen-Juan Ma,Constantino Macías Garcia,Karim Ghali,Alfredo G. Nicieza,Ryan P. O'Donnell,Nicolas Rodrigues,Antonio Romano,Iñigo Martínez-Solano,Ilona Stepanyan,Silvia Zumbach,Alan Brelsford,Nicolas Perrin +22 more
TL;DR: A very high rate of sex chromosome turnover in true frogs is shown, which may be driven by rapid mutation-load accumulation due to the low recombination rate in males, suggesting a key role for mutation- load accumulation in non-recombining genomic regions.
Journal ArticleDOI
Transitions in sex determination and sex chromosomes across vertebrate species
TL;DR: The recently assembled Tree of Sex database is used to assess patterns in the evolution of sex‐determination systems in the remarkably diverse vertebrate clades of teleost fish, squamate reptiles and amphibians, providing the most comprehensive view to date of the Evolution of vertebrate sex determination in a phylogenetic context.
References
More filters
Journal ArticleDOI
The Genetical Theory of Natural Selection
TL;DR: Although it is true that most text-books of genetics open with a chapter on biometry, closer inspection will reveal that this has little connexion with the body of the work, and that more often than not it is merely belated homage to a once fashionable study.
Journal ArticleDOI
An Introduction to Population Genetics Theory
James F. Crow,Motoo Kimura +1 more
TL;DR: An introduction to population genetics theory, An introduction to Population Genetics Theory, Population Genetics theory, Population genetics theory as discussed by the authors, Population genetics, population genetics, and population genetics theories, Population Genetic Theory
Book
The theory of sex allocation
TL;DR: This book is the first comprehensive treatment of sex allocation from the standpoint of modern evolutionary theory, showing how the determination of sex ratio, resource allocation to sperm versus egg within simultaneous hermaphroditism, and the evolution of sex reversal can be explained as examples of a single process.
Journal ArticleDOI
Sex determination and sex differentiation in fish: an overview of genetic, physiological, and environmental influences
TL;DR: The lability of sex-determination systems in fish makes some species sensitive to environmental pollutants capable of mimicking or disrupting sex hormone actions, and such observations provide important insight into potential impacts from endocrine disruptors, and can provide useful monitoring tools for impacts on aquatic environments.
Journal ArticleDOI
The relation of recombination to mutational advance.
TL;DR: It is shown that this calculation does not apply for mutant genes that act advantageously only when in some special combinations with one or more other mutant genes, and that as far as these cases of special synergism are concerned recombining lines have no evolutionary advantage over non-recombining ones.