RT Journal Article
SR Electronic
T1 Genome-wide scans of selection highlight the impact sof biotic and abiotic constraints in natural populations of the model grass <em>Brachypodium distachyon</em>
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 246090
DO 10.1101/246090
A1 Yann Bourgeois
A1 Christoph Stritt
A1 Jean-Claude Walser
A1 Sean P. Gordon
A1 John P. Vogel
A1 Anne C. Roulin
YR 2018
UL http://biorxiv.org/content/early/2018/06/17/246090.abstract
AB Grasses are essential plants for ecosystem functioning. Quantifying the selective pressures that act on natural variation in grass species is therefore essential regarding biodiversity maintenance. In this study, we investigate the selection pressures that act on two distinct populations of the grass model Brachypodium distachyon without prior knowledge about the traits under selection. We took advantage of whole-genome sequencing data produced for 44 natural accessions of B. distachyon and used complementary genome-wide scans of selection (GWSS) methods to detect genomic regions under balancing and positive selection. We show that selection is shaping genetic diversity at multiple temporal and spatial scales in this species and affects different genomic regions across the two populations. Gene Ontology annotation of candidate genes reveals that pathogens may constitute important factors of positive and balancing selection in Brachypodium distachyon. We eventually cross-validated our results with QTL data available for leaf-rust resistance in this species and demonstrate that, when paired with classical trait mapping, GWSS can help pinpointing candidate genes for further molecular validation. Thanks to a near-base perfect reference genome and the large collection of freely available natural accessions collected across its natural range, B. distachyon appears as a prime system for studies in ecology, population genomics and evolutionary biology.