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Inheritance in tetraploid yeast revisited: segregation patterns and statistical power under different inheritance models

  1. M. STIFT1,
  2. R. REEVE1,2 and
  3. P. H. Van TIENDEREN3

Article first published online: 27 MAY 2010

DOI: 10.1111/j.1420-9101.2010.02012.x

Issue

Journal of Evolutionary Biology

Journal of Evolutionary Biology

Volume 23, Issue 7, pages 1570–1578, July 2010


Additional Information

How to Cite

STIFT, M., REEVE, R. and Van TIENDEREN, P. H. (2010), Inheritance in tetraploid yeast revisited: segregation patterns and statistical power under different inheritance models. Journal of Evolutionary Biology, 23: 1570–1578. doi: 10.1111/j.1420-9101.2010.02012.x

Author Information

  1. 1

    Division of Ecology and Evolutionary Biology, University of Glasgow, Glasgow, UK

  2. 2

    Boyd Orr Centre for Population and Ecosystem Health, University of Glasgow, Glasgow, UK

  3. 3

    Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, Amsterdam, The Netherlands

*Marc Stift, Division of Ecology and Evolutionary Biology, University of Glasgow, Glasgow G12 8QQ, UK. Tel.: +44 141 330 6637; fax: +44 141 330 5971; e-mail: m.stift@bio.gla.ac.uk

Publication History

  1. Issue published online: 23 JUN 2010
  2. Article first published online: 27 MAY 2010
  3. Received 23 December 2009; revised 30 March 2010; accepted 1 April 2010

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Keywords:

  • autopolyploidisation;
  • double reduction;
  • homoeologous recombination;
  • meiotic configuration;
  • polyploid yeast;
  • power analysis;
  • preferential pairing;
  • tetrad analysis;
  • tetrasomic inheritance;
  • tetraploid segregation

Abstract

In their recent article, Albertin et al. (2009) suggest an autotetraploid origin of 10 tetraploid strains of baker’s yeast (Saccharomyces cerevisiae), supported by the frequent observation of double reduction meiospores. However, the presented inheritance results were puzzling and seemed to contradict the authors’ interpretation that segregation ratios support a tetrasomic model of inheritance. Here, we provide an overview of the expected segregation ratios at the tetrad and meiospore level given scenarios of strict disomic and tetrasomic inheritance, for cases with and without recombination between locus and centromere. We also use a power analysis to derive adequate sample sizes to distinguish alternative models. Closer inspection of the Albertin et al. data reveals that strict disomy can be rejected in most cases. However, disomic inheritance with strong but imperfect preferential pairing could not be excluded with the sample sizes used. The possibility of tetrad analysis in tetraploid yeast offers a valuable opportunity to improve our understanding of meiosis and inheritance of tetraploids.

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