Gene duplication led to divergence of expression patterns, protein-protein interaction patterns and floral development functions of AGL6-like genes in the basal angiosperm Magnolia wufengensis (Magnoliaceae).

The MADS-box family genes play critical roles in the regulation of growth and development of flowering plants. AGAMOUS-LIKE 6 (AGL6)-like genes are one of the most enigmatic subfamilies of the MADS-box family because of highly variable expression patterns and ambiguous functions, which have long puzzled researchers. A lot of AGL6 homologs have been identified from gymnosperms and angiosperms. However, only a few have been characterized, especially for basal angiosperm taxa. Magnolia wufengensis is a woody basal angiosperm from the family Magnoliaceae. In the current study, the phylogenesis, expression and protein-protein interaction (PPI) patterns, and functions of two AGL6 homologs from M. wufengensis, MawuAGL6-1 and MawuAGL6-2, were analyzed. Phylogenetic analysis indicated that the two AGL6 duplicates may have arisen by gene duplication before the divergence of Magnoliaceae and Lauraceae, with the diversification of their expression and PPI patterns after gene duplication. Functional analysis revealed that, in addition to common functions in accelerating flowering, MawuAGL6-1 might be responsible for flower meristem determinacy, while MawuAGL6-2 is preferentially recruited to regulate tepal morphogenesis. These findings further advance our understanding of the evolution of phylogenesis, expression, interaction and functions of AGL6 lineage genes from basal angiosperms, as well as the entire AGL6 lineage genes, and the significance of AGL6 lineage genes in the evolution and biological diversity.