SMAR1 forms a ternary complex with p53-MDM2 and negatively regulates p53-mediated transcription.

The intra-cellular level of tumor suppressor protein p53 is tightly controlled by an autoregulatory feedback loop between the protein and its negative regulator MDM2. The role of MDM2 in down-regulating the p53 response in unstressed conditions and in the post-stress recovery phase is well documented. However, interplay between the N-terminal phosphorylations and C-terminal acetylations of p53 in this context remains unclear.

Differential recognition of phosphorylated transactivation domains of p53 by different p300 domains.

Histone acetyltransferases form crucial links in transducing extrinsic signals to actual initiation of transcription. A multitude of stress signal integrations occur through the interaction of p300 with p53 phosphorylated at different residues of the transactivation domain. How such interactions activate different gene expression programs remains largely unknown.

Effect of phosphorylation on the structure and fold of transactivation domain of p53.

Several phosphorylations are known to occur in the N-terminal transactivation domain of human p53. To explore the structural effects of these phosphorylations, we have chemically synthesized the unphosphorylated p53-(1-39) and its three phosphorylated analogs, phosphorylated at Ser-15, Thr-18, and Ser-20. p53-(1-39) and its Ser-15 and Thr-18 phosphorylated analogs were tested for interaction with p300.