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A molecular mechanism to ensure signaling specificity is a scaffold. REPRESSION OF SHOOT GROWTH (RSG) is a tobacco (Nicotiana tabacum) transcription factor that is involved in gibberellin feedback regulation. The 14-3-3 proteins negatively regulate RSG by sequestering it in the cytoplasm in response to gibberellins. The N. tabacum Ca 2+ -dependent protein kinase NtCDPK1 was identified as an RSG kinase that promotes 14-3-3 binding of RSG by phosphorylation of RSG. CDPKs are unique sensor responders of Ca 2+ that are only found in plants and some protozoans. Here, we report a scaffolding function of CDPK. 14-3-3 proteins bound to NtCDPK1 by a new mode. Autophosphorylation of NtCDPK1 was necessary for the formation of the binding between NtCDPK1 and 14-3-3 but not for its maintenance. NtCDPK1 formed a heterotrimer with RSG and 14-3-3. Furthermore, we found that NtCDPK1 transfers 14-3-3 to RSG after phosphorylation of RSG and that RSG dissociates from NtCDPK1 as a complex with 14-3-3. These results suggest that NtCDPK1 is an interesting scaffolding kinase that increases the specificity and efficiency of signaling by coupling catalysis with scaffolding on the same protein.

plant physiology

Scaffold Function of Ca<sup>2+</sup>-Dependent Protein Kinase: Tobacco Ca<sup>2+</sup>-DEPENDENT PROTEIN KINASE1 Transfers 14-3-3 to the Substrate REPRESSION OF SHOOT GROWTH after Phosphorylation

Scaffold Function of Ca2+-Dependent Protein Kinase: Tobacco Ca2+-DEPENDENT PROTEIN KINASE1 Transfers 14-3-3 to the Substrate REPRESSION OF SHOOT GROWTH after Phosphorylation

Scaffold Function of Ca²⁺-Dependent Protein Kinase: Tobacco Ca²⁺-DEPENDENT PROTEIN KINASE1 Transfers 14-3-3 to the Substrate REPRESSION OF SHOOT GROWTH after Phosphorylation