Current Plant Biology (Mar 2025)
Natural variation in FLOWERING LOCUS C and FLOWERING LOCUS M underlies the weak temperature sensitivity of the Arabidopsis accession Ellershausen
Abstract
Natural variants of key floral regulator genes underly the adaptation of plant populations to diverse environmental conditions. We identified Ellershausen (El-0) as an early flowering Arabidopsis (Arabidopsis thaliana) accession with decreased sensitivity to changes in temperature and photoperiod. Expression levels of FLOWERING LOCUS M (FLM), including its major splice variants FLM-β and FLM-δ, were dramatically lower in El-0 than in Col-0 or Killean (Kil-0) accessions at different temperatures. The first intron of FLMEl−0 contains a ∼5.7-kb LINE transposon insertion, as in Kil-0, together with several single-nucleotide polymorphisms. However, El-0 flowered earlier than Kil-0 at 23 °C or 16 °C under long-day conditions and at 23°C under short-day conditions. Introducing a genomic copy of FLMCol−0 into El-0 moderately delayed flowering, suggesting that an additional player(s) is involved in the temperature-insensitive flowering of El-0. Accordingly, expression levels of FLOWERING LOCUS C (FLC) and MADS AFFECTING FLOWERING 5 (MAF5) were lower in El-0. Genome resequencing data revealed polymorphisms including deletions in FLCEl−0 and MAF5El−0. β-Glucuronidase activity was weaker in pFLCCol−0:gFLCEl−0-GUS transgenic seedlings than in pFLCCol−0:gFLCCol−0-GUS seedlings, suggesting that polymorphisms in FLCEl−0 result in lower FLCEl−0 transcript levels. Consistent with low FLC expression levels, El-0 plants did not flower earlier following vernalization. Our results suggest that natural variants of these repressor genes in El-0 may facilitate successful adaptation to relatively cooler climates.
