Genome-wide identification, expression analysis and gene duplication analysis of Dof transcription factors between quinoa and its ancestral diploid sub-genome species reveal key CDF homologs involved in photoperiodic flowering regulation

Dof (DNA binding with One Finger) proteins are plant-specific transcription factors characteristic of a highly conserved DNA binding domain. Dof family members have been shown to play important roles in growth, development, stress defense, and light and phytohormone responses. In this study, we identified 38 CqDof genes in quinoa (Chenopodium quinoa). Phylogenetic analysis of Dof genes from quinoa, Arabidopsis, rice, sugar beet, C. pallidicaule and C. suecicum indicated that those Dofs were clustered into 6 sub-groups. Gene structure and conserved motif analysis showed that motif composition varied between different sub-groups. Duplication analysis indicated CqDof family was expanded mainly by segmental duplication, and we found the duplication events CqDof31/CqDof36 and CqDof31/CqDof37 could be traced back to before the divergence of Chenopodium ancestor from sugar beet, and a recent duplication event CqDof33/CqDof34 was detected specific to quinoa. Analysis of cis-acting elements showed that CqDof genes may be involved in light, phytohormone and stress response. Expression pattern analysis showed that CqDof27, CqDof31/CqDof32, CqDof33/CqDof34 and CqDof35/CqDof36 in sub-group VI were affected by different photoperiods and they may act as important floral regulator. Based on the cis-element analysis and diurnal expression results, we speculated the recent duplication event CqDof33/CqDof34 may render quinoa some growth habits to adapt to different latitudes, and CqDof31/CqDof32 might be potential candidates for inflorescence branching and yield improvement. Together, the results obtained in this study will help understand the functions of Dof genes in quinoa.