We have explored the genetic basis of variation in vernalization requirement and response in Arabidopsis accessions, selected on the basis of their phenotypic distinctiveness. Phenotyping of F2 populations in different environments, plus fine mapping, indicated possible causative genes. Our data support the identification of FRI and FLC as candidates for the major-effect QTL underlying variation in vernalization response, and identify a weak FLC allele, caused by a Mutator-like transposon, contributing to flowering time variation in two N. American accessions. They also reveal a number of additional QTL that contribute to flowering time variation after saturating vernalization. One of these was the result of expression variation at the FT locus. Overall, our data suggest that distinct phenotypic variation in the vernalization and flowering response of Arabidopsis accessions is accounted for by variation that has arisen independently at relatively few major-effect loci.

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fri flowering time variation majoreffect qtl locus mutatorlike transposon the vernalization and flowering response flc allele

Caroline Dean,Magnus Nordborg,Norman Warthmann,Clare Lister,Jillian Anderson,Chikako Shindo,Amy Strange,Peijin Li,Judith Irwin,.Major-effect alleles at relatively few loci underlie distinct vernalization and flowering variation in Arabidopsis accessions.. 6 (5),.

Caroline Dean,Magnus Nordborg,Norman Warthmann,Clare Lister,Jillian Anderson,Chikako Shindo,Amy Strange,Peijin Li,Judith Irwin,"Major-effect alleles at relatively few loci underlie distinct vernalization and flowering variation in Arabidopsis accessions." 6

Caroline Dean,Magnus Nordborg,Norman Warthmann,Clare Lister,Jillian Anderson,Chikako Shindo,Amy Strange,Peijin Li,Judith Irwin,"Major-effect alleles at relatively few loci underlie distinct vernalization and flowering variation in Arabidopsis accessions."