Abstract
Background
As a major family of plant-specific transcription factors, SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) genes play crucial regulatory roles in plant growth, development, and stress tolerance. SPL transcription factor family has been widely studied in various plant species, however, there are no systematic studies on SPL genes in genus Ipomoea.
Results
In this study, a total of 29, 27, 26, 23 SPL genes were identified in Ipomoea batatas, Ipomoea trifida, Ipomoea triloba, and Ipomoea nil, respectively. Phylogenetic analysis indicated that Ipomoea SPL genes could be clustered into eight clades. SPL members within the same clade showed similar gene structures, domain organizations, and cis-acting element compositions, suggesting similarity of biological function potentially. Evolutionary analysis revealed that segmental duplication events played a major role in the Ipomoea genus-specific expansion of SPL genes. Of these Ipomoea SPL genes, 69 were predicted as the target genes of miR156, and 7 IbSPL genes were further confirmed by degradome data. Additionally, IbSPL genes showed diverse expression patterns in various tissues, implying their functional conservation and divergence. Finally, by combining the information from expression patterns and regulatory sub-networks, we found that four IbSPL genes (IbSPL16/IbSPL17/IbSPL21/IbSPL28) may be involved in the formation and development of storage roots.
Conclusions
This study not only provides novel insights into the evolutionary and functional divergence of the SPL genes in all available sequenced species in genus Ipomoea, but also lays a foundation for further elucidation of the potential functional roles of IbSPL genes during storage root development.