Sengupta, A.; Howarth, D.

DIVARICATA (DIV) and DRIF are MYB genes involved in many developmental processes in flowering plants. DIV proteins have multiple MYB domains while DRIF proteins have one. However, the origin of these domains--and of the corresponding genes--is not well-understood. We surveyed eukaryotes for close homologs of these MYB domains. Employing Bayesian phylogenetic reconstruction, we identified the different subclades of the MYB-superfamily that contributed the MYB domains in DIV and DRIF. We evaluated the selection pressures, and other molecular processes, associated with the gain and loss of these domains during the evolution of these genes. DIV genes are a fusion of two simpler genes, each with two conserved domains. The first gene had two MYB domains (MYBA-MYB1), and the other gene had one MYB domain and a non-MYB HDI domain (MYB2-HDI). The ancestral DIV genes, hence, had four domains in the following sequence: MYBA-MYB1-MYB2-HDI. The MYBA domain was later lost, possibly through a non-gradual process leading to the following configuration in later-diverging DIV: MYB1-MYB2-HDI. The MYBA and MYB2 domains were derived from the SHAQKY clade. MYB1 and the MYB domain of DRIF were derived from the clade associated with the SANT2 domain of ZUO1/ZRF genes. DIV genes, which are best known for their developmental role in flowering plants, evolved before the diversification of plants through fusion of two MYB genes. DIV and DRIF homologs are present in a diversity of eukaryotes suggesting that their interaction may be ancestral to a large group of eukaryotes.