Calmodulin7 (CAM7) is a key transcription factor of Arabidopsis seedling development. CAM7 works together with HY5 bZIP protein to promote photomorphogenesis at various wavelengths of light. In this study, we show that AtMYB4, identified from a yeast two-hybrid screen, physically interacts with CAM7 and works as a positive regulator of photomorphogenesis at various wavelengths of light. CAM7 and HY5 directly bind to the promoter of AtMYB4 to promote its expression for photomorphogenic growth. On the other hand, ARA4, identified from the same yeast two-hybrid screen, works as a negative regulator of photomorphogenic growth specifically in white light. The double mutant analysis reveals that the altered hypocotyl elongation of atmyb4 and ara4 is either partly or completely suppressed by additional loss of function of CAM7. Furthermore, ARA4 genetically interacts with AtMYB4 in an antagonistic manner to suppress the elongated hypocotyl phenotype of atmyb4. The transactivation studies reveal that while CAM7 activates the promoter of AtMYB4 in association with HY5, ARA4 negatively regulates AtMYB4 expression. Taken together, these results demonstrate that working as a negative regulator of photomorphogenesis, ARA4 plays a balancing act on CAM7 and HY5-mediated regulation of AtMYB4.
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