SQUAMOSA promoter-binding protein-like (SPL) is a class of plant-specific transcription factors that play critical roles in regulating plant growth and development. However, little systematic research on SPL genes has been conducted in strawberry. In this study, 14 SPL genes were identified in the genome of woodland strawberry (Fragaria vesca), one of the model plants of the family Rosaceae. Chromosome localization analysis indicated that the 14 FvSPL genes were unevenly distributed on six chromosomes. Phylogenetic analysis indicated that the FvSPL proteins could be clustered into six groups (G1 to G6). Genes with similar structure were classified into the same group, implying their functional redundancy. In addition, nine out of the 14 FvSPL genes, belonging to G1, G2, and G5, were found to be the putative targets of FvmiR156 genes. Expression analysis indicated FvSPL genes exhibited highly diverse expression patterns in the tissues and organs examined. The transcript levels of most FvmiR156-targeted FvSPL genes in fruit were lower than those non-miR156-targeted genes. In addition, the expression of the FvmiR156-targeted FvSPL genes decreased during fruit ripening, whereas the expression of FvmiR156 genes increased in fruit during this process. The results provide a foundation for future functional analysis of FvSPL genes in strawberry growth and development.
Identification and expression analysis of strigolactone biosynthetic and signaling genes reveal strigolactones are involved in fruit development of the woodland strawberry (Fragaria vesca)