Plants have several strategies to grow under different environmental changes by adjusting their internal mechanisms. Under far-red (FR) light, phyA is activated to regulate plant growth and development. FIN219/JAR1 acts as a phyA-downstream component and a node of crosstalk with jasmonate (JA) signaling. To further understand functions of FIN219/JAR1 in regulation FR light and JA signaling, an activation-tagging pool of fin219-1 was generated. By selection of extragenic suppressors of fin219-1 under FR light, the 40-3-1 mutant line was obtained with a suppression of fin219-1 long-hypocotyl phenotype and the mutation affected the expression of several light- and JA-responsive genes. Further characterization revealed that the 40-3-1 was caused by SMB overexpression. The assay of smb-3 fin219-2 double mutant suggested that SMB acts in the same pathway as FIN219/JAR1 in FR light and JA signaling. FIN219/JAR1 interrupted SMB dimerization and resulted in the repression of SMB activity. Furthermore, SMB regulated FIN219/JAR1 transcription in a negative feedback manner. SMB also showed a dosage effect on the modulation of hypocotyl elongation. Taken together, the root cap-specific transcription factor SMB regulates JA signaling and further affects hypocotyl elongation in FR-mediated photomorphogenesis, which suggests that the main source of JA in normal development of seedlings might be from root to aboveground tissues to regulate several physiological processes.