Can you please help me by drawing a serie of schematic figures that demonstrates the information in the paragraph below.

The carboxy terminus of the p53 protein acts as an allosteric regulator of sequence-specific DNA binding. This was demonstrated initially by Hupp et al. (1992) using a bacterially expressed protein. Recombinant bacterial p53 bound poorly to DNA, and binding could be enhanced by the addition of antibodies specific to the C-terminal region of the protein. Phosphorylation of Ser315 and Ser392 within this domain also enhance sequence-specific DNA binding. Dephosphorylation of Ser376 of p53 after IR allows the association of 14-3-3 proteins with the C terminus of the protein (Waterman et al., 1998). Stavridi et al. (2001) demonstrate that this interaction is required for p53 to activate the downstream gene, p21waf1/cip1, and for the G1 cell cycle checkpoint arrest response. Interestingly, this dephosphorylation event seems to be ATM-dependent, possibly by a phosphatase that is activated by ATM after IR (Waterman et al., 1998). p53 also binds nonspecifically to short single-stranded DNA fragments through its carboxy-terminal domain, and this binding may enhance sequence-specific DNA binding, thus providing a potential role for p53 in DNA repair after damage. However, the significance of p53 associating with single-stranded DNA is not known.