Extensive gene content variation in the Brachypodium distachyon pan-genome correlates with population structure

Sean Gordon; Bruno Contreras‐Moreira; Daniel P. Woods; David L. Des Marais; Diane Burgess; Shengqiang Shu; Christoph Stritt; Anne C. Roulin; Wendy Schackwitz; Ludmila Tyler; Joel Martin; Anna Lipzen; Niklas Dochy; Jeremy Phillips; Kerrie Barry; Koen Geuten; Hikmet Budak; Thomas Juenger; Richard M. Amasino; Ana L. Caicedo; David Goodstein; Patrick Davidson; Luis A. J. Mur; Melania Figueroa; Michael Freeling; Pilar Catalán; John P. Vogel

doi:10.1038/s41467-017-02292-8

Extensive gene content variation in the Brachypodium distachyon pan-genome correlates with population structure

Sean Gordon(Joint Genome Institute), Bruno Contreras‐Moreira(Fundacion Agencia Aragonesa para la Investigacion y el Desarrollo), Daniel P. Woods(United States Department of Energy), David L. Des Marais(Harvard University Press), Diane Burgess(University of California, Berkeley), Shengqiang Shu(Joint Genome Institute), Christoph Stritt(University of Zurich), Anne C. Roulin(University of Zurich), Wendy Schackwitz(Joint Genome Institute), Ludmila Tyler(University of Massachusetts Amherst), Joel Martin(Joint Genome Institute), Anna Lipzen(Joint Genome Institute), Niklas Dochy(KU Leuven), Jeremy Phillips(Joint Genome Institute), Kerrie Barry(Joint Genome Institute), Koen Geuten(KU Leuven), Hikmet Budak(Montana State University), Thomas Juenger(The University of Texas at Austin), Richard M. Amasino(United States Department of Energy), Ana L. Caicedo(University of Massachusetts Amherst), David Goodstein(Joint Genome Institute), Patrick Davidson(Joint Genome Institute), Luis A. J. Mur(Aberystwyth University), Melania Figueroa(University of Minnesota), Michael Freeling(University of California, Berkeley), Pilar Catalán(Universidad de Zaragoza), John P. Vogel(Joint Genome Institute)

Nature Communications

December 13, 2017

10.1038/s41467-017-02292-8

Cited by 414Open Access

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Abstract

While prokaryotic pan-genomes have been shown to contain many more genes than any individual organism, the prevalence and functional significance of differentially present genes in eukaryotes remains poorly understood. Whole-genome de novo assembly and annotation of 54 lines of the grass Brachypodium distachyon yield a pan-genome containing nearly twice the number of genes found in any individual genome. Genes present in all lines are enriched for essential biological functions, while genes present in only some lines are enriched for conditionally beneficial functions (e.g., defense and development), display faster evolutionary rates, lie closer to transposable elements and are less likely to be syntenic with orthologous genes in other grasses. Our data suggest that differentially present genes contribute substantially to phenotypic variation within a eukaryote species, these genes have a major influence in population genetics, and transposable elements play a key role in pan-genome evolution.

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