Mutations in AP22.65 accelerate flowering in Arabidopsis thaliana

Abstract

Identification of the gene(s) responsible for flowering time in Arabidopsis has significant implications. We used the T-DNA insertion library of Arabidopsis thaliana to screen an early-flowering mutant that exhibits accelerated flowering under short-day conditions. AP22.65, a novel flowering-time gene in that species, was isolated and identified via genome-walking and bioinformatics analysis. The flowering time of AP22.65-complementing plants was similar to that of the Col-0 wild type (WT). Conversely, its overexpression delayed flowering. Consistent with this phenotype, expression of AP22.65 was decreased in the ap22.65-1 mutant, recovered in AP22.65-complementing plants, and increased in AP22.65-overexpressing plants. Compared with the WT, expression levels of critical genes in different flowering pathways, i.e., SPY, FLC, GI, CO, FT, and LFY, were down-regulated in loss-of-function mutants. Expression of AP22.65 was distributed in flowers, siliques, rosette leaves, and whole seedlings. Therefore, this gene may be a negative regulator of Arabidopsis flowering.