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DNA transposon activity is associated with increased mutation rates in genes of rice and other grasses

Author

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  • Thomas Wicker

    (University of Zurich)

  • Yeisoo Yu

    (Arizona Genomics Institute, School of Plant Sciences, University of Arizona
    Present address: Phyzen Genomics Institute, Phyzen Inc., Seoul 151–836, South Korea)

  • Georg Haberer

    (Plant Genome and Systems Biology, Helmholtz Center Munich)

  • Klaus F. X. Mayer

    (Plant Genome and Systems Biology, Helmholtz Center Munich)

  • Pradeep Reddy Marri

    (Dow AgroSciences)

  • Steve Rounsley

    (Dow AgroSciences
    Present address: Genus plc, DeForest, WI 53532, USA)

  • Mingsheng Chen

    (State Key Laboratory of Plant Genomics, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Chaoyang District)

  • Andrea Zuccolo

    (Institute of Life Sciences, Scuola Superiore Sant’Anna)

  • Olivier Panaud

    (Laboratoire Génome et Développement des Plantes, UMR5096 UPVD/CNRS, Université de Perpignan Via Domitia)

  • Rod A. Wing

    (Arizona Genomics Institute, School of Plant Sciences, University of Arizona
    International Rice Research Institute
    University of Arizona)

  • Stefan Roffler

    (University of Zurich)

Abstract

DNA (class 2) transposons are mobile genetic elements which move within their ‘host’ genome through excising and re-inserting elsewhere. Although the rice genome contains tens of thousands of such elements, their actual role in evolution is still unclear. Analysing over 650 transposon polymorphisms in the rice species Oryza sativa and Oryza glaberrima, we find that DNA repair following transposon excisions is associated with an increased number of mutations in the sequences neighbouring the transposon. Indeed, the 3,000 bp flanking the excised transposons can contain over 10 times more mutations than the genome-wide average. Since DNA transposons preferably insert near genes, this is correlated with increases in mutation rates in coding sequences and regulatory regions. Most importantly, we find this phenomenon also in maize, wheat and barley. Thus, these findings suggest that DNA transposon activity is a major evolutionary force in grasses which provide the basis of most food consumed by humankind.

Suggested Citation

  • Thomas Wicker & Yeisoo Yu & Georg Haberer & Klaus F. X. Mayer & Pradeep Reddy Marri & Steve Rounsley & Mingsheng Chen & Andrea Zuccolo & Olivier Panaud & Rod A. Wing & Stefan Roffler, 2016. "DNA transposon activity is associated with increased mutation rates in genes of rice and other grasses," Nature Communications, Nature, vol. 7(1), pages 1-9, November.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms12790
    DOI: 10.1038/ncomms12790
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    Cited by:

    1. Hanne De Kort & Sylvain Legrand & Olivier Honnay & James Buckley, 2022. "Transposable elements maintain genome-wide heterozygosity in inbred populations," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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