Total FLC transcript dynamics from divergent paralogue expression explains flowering diversity in Brassica napus.

Flowering time is a key adaptive and agronomic trait. In Arabidopsis, natural variation in expression levels of the floral repressor FLOWERING LOCUS C (FLC) leads to differences in vernalization. In Brassica napus there are nine copies of FLC.

Natural variation in autumn expression is the major adaptive determinant distinguishing Arabidopsis FLC haplotypes.

In winter is registered during vernalization through the temperature-dependent repression and epigenetic silencing of floral repressor . Natural Arabidopsis accessions show considerable variation in vernalization. However, which aspect of the repression mechanism is most important for adaptation to different environments is unclear.

QTL-seq identifies BnaFT.A02 and BnaFLC.A02 as candidates for variation in vernalization requirement and response in winter oilseed rape (Brassica napus).

Winter, spring and biennial varieties of Brassica napus that vary in vernalization requirement are grown for vegetable and oil production. Here, we show that the obligate or facultative nature of the vernalization requirement in European winter oilseed rape is determined by allelic variation at a 10 Mbp region on chromosome A02. This region includes orthologues of the key floral regulators FLOWERING LOCUS C (BnaFLC.

Vernalization and Floral Transition in Autumn Drive Winter Annual Life History in Oilseed Rape.

Plants with winter annual life history germinate in summer or autumn and require a period of prolonged winter cold to initiate flowering, known as vernalization. In the Brassicaceae, the requirement for vernalization is conferred by high expression of orthologs of the FLOWERING LOCUS C (FLC) gene, the expression of which is known to be silenced by prolonged exposure to winter-like temperatures [1]. Based on a wealth of vernalization experiments, typically carried out in the range of 5°C-10°C, we would expect field environments during winter to induce flowering in crops with winter annual life history.