Local adaptation and the evolution of inversions on sex chromosomes and autosomes

Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences
Tim ConnallonLengxob Yong

Abstract

Spatially varying selection with gene flow can favour the evolution of inversions that bind locally adapted alleles together, facilitate local adaptation and ultimately drive genomic divergence between species. Several studies have shown that the rates of spread and establishment of new inversions capturing locally adaptive alleles depend on a suite of evolutionary factors, including the strength of selection for local adaptation, rates of gene flow and recombination, and the deleterious mutation load carried by inversions. Because the balance of these factors is expected to differ between X (or Z) chromosomes and autosomes, opportunities for inversion evolution are likely to systematically differ between these genomic regions, though such scenarios have not been formally modelled. Here, we consider the evolutionary dynamics of X-linked and autosomal inversions in populations evolving at a balance between migration and local selection. We identify three factors that lead to asymmetric rates of X-linked and autosome inversion establishment: (1) sex-biased migration, (2) dominance of locally adapted alleles and (3) chromosome-specific deleterious mutation loads. This theory predicts an elevated rate of fixation, and depressed opp...Continue Reading

References

Oct 1, 1979·Annals of Human Genetics·T Nagylaki
Dec 1, 1975·Journal of Theoretical Biology·D Charlesworth, B Charlesworth
Dec 1, 1975·Journal of Theoretical Biology·D Charlesworth, B Charlesworth
Jan 1, 1996·Annual Review of Genetics·M W FeldmanF B Christiansen
Oct 6, 2005·Genetics·Mark Kirkpatrick, Nick Barton
Jan 13, 2006·Journal of Evolutionary Biology·M Alleaume-BenhariraO Ronce
Jul 19, 2006·Nature Reviews. Genetics·Beatriz Vicoso, Brian Charlesworth
Nov 3, 2007·Evolution; International Journal of Organic Evolution·Philip W Hedrick
Jun 3, 2008·Trends in Genetics : TIG·Daven C Presgraves
Jul 16, 2008·Genetics·Arjun BhutkarWilliam M Gelbart
Jul 1, 1997·The American Naturalist·M Kirkpatrick, N H Barton
Jul 4, 2009·Evolution; International Journal of Organic Evolution·Manus M Patten, David Haig
Mar 11, 2010·Genetics·Vera B Kaiser, Brian Charlesworth
Mar 25, 2010·The American Naturalist·Tim Connallon
Dec 1, 2008·Annual Review of Ecology, Evolution, and Systematics·Ary A Hoffmann, Loren H Rieseberg
Oct 12, 2010·PLoS Biology·Mark Kirkpatrick
Jul 7, 2011·Evolution; International Journal of Organic Evolution·Sam Yeaman, Michael C Whitlock
Jul 7, 2011·Evolution; International Journal of Organic Evolution·Sam Yeaman, Sarah P Otto
Aug 2, 2011·Theoretical Population Biology·Reinhard Bürger, Ada Akerman
Sep 6, 2011·Genetics·Federico MannaThomas Lenormand
Feb 10, 2012·Molecular Biology and Evolution·Tim ConnallonAndrew G Clark
Sep 12, 2012·Genetics·Amanda M Larracuente, Daven C Presgraves
Jan 4, 2013·PLoS Genetics·Russell B Corbett-Detig, Daniel L Hartl
Apr 5, 2013·Evolution; International Journal of Organic Evolution·Nathaniel P Sharp, Aneil F Agrawal
Apr 24, 2013·Proceedings of the National Academy of Sciences of the United States of America·Sam Yeaman
Jun 25, 2013·Trends in Genetics : TIG·Richard P Meisel, Tim Connallon
Feb 18, 2014·Journal of Evolutionary Biology·S P Otto
Jul 2, 2014·PLoS Biology·Doris BachtrogUNKNOWN Tree of Sex Consortium
Dec 2, 2014·Trends in Ecology & Evolution·Andrew R WhiteleyDavid A Tallmon
Jan 13, 2015·Proceedings of the National Academy of Sciences of the United States of America·Brian Charlesworth
Mar 11, 2015·Evolution; International Journal of Organic Evolution·Daniel M Hooper, Trevor D Price
May 6, 2015·Proceedings of the National Academy of Sciences of the United States of America·Jitka Polechová, Nicholas H Barton
Dec 15, 2015·The American Naturalist·Sam Yeaman
Jan 26, 2016·The American Naturalist·Christina A Muirhead, Daven C Presgraves
Jul 28, 2016·Heredity·B Charlesworth, D Charlesworth
Sep 7, 2016·Current Opinion in Genetics & Development·Timothy H Webster, Melissa A Wilson Sayres
Nov 15, 2016·Nature Reviews. Genetics·Jochen B W Wolf, Hans Ellegren
Mar 4, 2017·Science·Adam M SiepielskiAndrew D C MacColl

❮ Previous
Next ❯

Citations

Nov 13, 2018·Evolution; International Journal of Organic Evolution·Clementine LasneTim Connallon
Dec 7, 2019·Evolution; International Journal of Organic Evolution·Felix E G BeaudryStephen I Wright
Mar 14, 2020·G3 : Genes - Genomes - Genetics·Garrett McKinneyLisa W Seeb
Jul 21, 2020·Molecular Ecology·Julian JunkerCatherine E Wagner
Aug 29, 2018·Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences·Tim ConnallonXiang-Yi Li
Jul 24, 2021·Molecular Ecology·Tim Connallon, Colin Olito
Oct 26, 2021·Chromosome Research : an International Journal on the Molecular, Supramolecular and Evolutionary Aspects of Chromosome Biology·Cassia Fernanda YanoMarcelo de Bello Cioffi

❮ Previous
Next ❯

Related Concepts

Related Feeds

Cell Migration

Cell migration is involved in a variety of physiological and pathological processes such as embryonic development, cancer metastasis, blood vessel formation and remoulding, tissue regeneration, immune surveillance and inflammation. Here is the latest research.

© 2022 Meta ULC. All rights reserved