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A pan-genome of 69 Arabidopsis thaliana accessions reveals a conserved genome structure throughout the global species range

Qichao Lian, Bruno Hüettel, Birgit Walkemeier, Baptiste Mayjonade, Céline Lopez‐Roques, Lisa Gil, Fabrice Roux, Korbinian Schneeberger, Raphaël Mercier

2024Nature Genetics141 citationsDOIOpen Access PDF

Abstract

Although originally primarily a system for functional biology, Arabidopsis thaliana has, owing to its broad geographical distribution and adaptation to diverse environments, developed into a powerful model in population genomics. Here we present chromosome-level genome assemblies of 69 accessions from a global species range. We found that genomic colinearity is very conserved, even among geographically and genetically distant accessions. Along chromosome arms, megabase-scale rearrangements are rare and typically present only in a single accession. This indicates that the karyotype is quasi-fixed and that rearrangements in chromosome arms are counter-selected. Centromeric regions display higher structural dynamics, and divergences in core centromeres account for most of the genome size variations. Pan-genome analyses uncovered 32,986 distinct gene families, 60% being present in all accessions and 40% appearing to be dispensable, including 18% private to a single accession, indicating unexplored genic diversity. These 69 new Arabidopsis thaliana genome assemblies will empower future genetic research.

Topics & Concepts

BiologyGenomeGeneticsArabidopsis thalianaGenome evolutionEvolutionary biologyGenomicsPopulationChromosomeReference genomeGeneMutantDemographySociologyChromosomal and Genetic VariationsGenomics and Phylogenetic StudiesPlant Disease Resistance and Genetics
A pan-genome of 69 Arabidopsis thaliana accessions reveals a conserved genome structure throughout the global species range | Litcius