Characterization of Squamosa-Promoter Binding Protein-Box Family Genes Reveals the Critical Role of in Alfalfa Flowering Time Regulation.

() genes affect a broad range of plant biological processes and show potential application in crop improvement by genetic modification. As the most widely planted forage crop in the world, biomass and abiotic stresses tolerance are important breeding targets for alfalfa ( L.). Nevertheless, the systematic analysis of genes in alfalfa genome remains lacking. In the present study, we characterized 22 putative non-redundant genes in alfalfa genome and uncovered the abundant structural variation among genes. The phylogenetic analysis of plant SPL proteins separated them into 10 clades and clade J was an alfalfa-specific clade, suggesting genes in alfalfa might have experienced gene duplication and functional differentiation within the genome. Meanwhile, 11 genes with perfect matches to miRNA response elements (MREs) could be degraded by , and the cleavage sites were gene specific. In addition, we investigated the temporal and spatial expression patterns of genes and their expression patterns in response to multiple treatments, characterizing candidate genes in alfalfa development and abiotic stress tolerant regulation. More importantly, overexpression of the alfalfa-specific gene () showed stable delayed flowering time, as well as increased biomass. Further studies indicated that delayed flowering time by regulating the expression of genes involved in floret development, including , , , and . Together, our findings provide valuable information for future research and utilization of genes in alfalfa and elucidate a possibly alfalfa-specific flowering time regulation, thereby supplying candidate genes for alfalfa molecular-assisted breeding.