Recombination and Gene Conversion in a 170-kb Genomic Region of Arabidopsis thaliana

Recombination and Gene Conversion in a 170-kb Genomic Region of Arabidopsis thaliana

Bernhard Haubold^a, Jürgen Kroymann^a, Andreas Ratzka^a, Thomas Mitchell-Olds^a, and Thomas Wiehe^a
^a Max-Planck-Institut für Chemische Ökologie, Department of Genetics and Evolution, D-07745 Jena, Germany

Corresponding author: Bernhard Haubold, Waldhofer Str. 98, D-69123 Heidelberg, Germany., bernhard.haubold{at}lionbioscience.com (E-mail)

Communicating editor: S. W. SCHAEFFER

Arabidopsis thaliana is a highly selfing plant that neverthelessappears to undergo substantial recombination. To reconcile itsselfing habit with the observations of recombination, we havesampled the genetic diversity of A. thaliana at 14 loci of $~$ 500bp each, spread across 170 kb of genomic sequence centered ona QTL for resistance to herbivory. A total of 170 of the 6321nucleotides surveyed were polymorphic, with 169 being biallelic.The mean silent genetic diversity ( ${pi}$ _s) varied between 0.001 and0.03. Pairwise linkage disequilibria between the polymorphismswere negatively correlated with distance, although this effectvanished when only pairs of polymorphisms with four haplotypeswere included in the analysis. The absence of a consistent negativecorrelation between distance and linkage disequilibrium indicatedthat gene conversion might have played an important role indistributing genetic diversity throughout the region. We testedthis by coalescent simulations and estimate that up to 90% ofrecombination is due to gene conversion.

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