Functional Divergence in Tandemly Duplicated Arabidopsis thaliana Trypsin Inhibitor Genes

doi:10.1534/genetics.166.3.1419

Functional Divergence in Tandemly Duplicated Arabidopsis thaliana Trypsin Inhibitor Genes

M. J. Clauss^a and T. Mitchell-Olds^a
^a Department of Genetics and Evolution, Max Planck Institute of Chemical Ecology, 07745 Jena, Germany

Corresponding author: M. J. Clauss, Max Planck Institute of Chemical Ecology, Beutenberg Campus, Hans Knöll Str. 8, 07745 Jena, Germany., clauss{at}ice.mpg.de (E-mail)

Communicating editor: J. BERGELSON

In multigene families, variation among loci and alleles cancontribute to trait evolution. We explored patterns of functionaland genetic variation in six duplicated Arabidopsis thalianatrypsin inhibitor (ATTI) loci. We demonstrate significant variationin constitutive and herbivore-induced transcription among ATTIloci that show, on average, 65% sequence divergence. Significantvariation in ATTI expression was also found between two molecularlydefined haplotype classes. Population genetic analyses for 17accessions of A. thaliana showed that six ATTI loci arrangedin tandem within 10 kb varied 10-fold in nucleotide diversity,from 0.0009 to 0.0110, and identified a minimum of six recombinationevents throughout the tandem array. We observed a significantpeak in nucleotide and indel polymorphism spanning ATTI lociin the interior of the array, due primarily to divergence betweenthe two haplotype classes. Significant deviation from the neutralequilibrium model for individual genes was interpreted withinthe context of intergene linkage disequilibrium and correlatedpatterns of functional differentiation. In contrast to the outcrosserArabidopsis lyrata for which recombination is observed evenwithin ATTI loci, our data suggest that response to selectionwas slowed in the inbreeding, annual A. thaliana because ofinterference among functionally divergent ATTI loci.

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