1995
DOI: 10.1128/mcb.15.4.2157
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Interaction of p53 with Its Consensus DNA-Binding Site

Abstract: We have analyzed the specific interaction of murine p53 with the consensus DNA-binding sequence 5-AGACATGCCT-AGACATGCCT-3. We used segments of p53 lacking the C-terminal, nonspecific DNA-binding domain because the presence of an autonomous nonspecific DNA-binding domain in wild-type p53 would complicate analysis of site-specific DNA binding. p53 amino acids 1 to 360 bind the consensus sequence as tetramers, and DNA binding promotes tetramer-tetramer interactions. p53 amino acids 80 to 290, lacking both the non… Show more

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Cited by 147 publications
(151 citation statements)
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“…This model can explain, and bring together, several seemingly contradictory observations, e.g. that in some cases at least two half-sites were shown to be required for binding (ElDeiry et al, 1992;, while in others the presence of a single half-site was su cient for binding Wang et al, 1995b), or the requirement for carboxy-terminal activation of the p53 protein for binding to some, but not to all target sites.…”
Section: Discussionmentioning
confidence: 91%
“…This model can explain, and bring together, several seemingly contradictory observations, e.g. that in some cases at least two half-sites were shown to be required for binding (ElDeiry et al, 1992;, while in others the presence of a single half-site was su cient for binding Wang et al, 1995b), or the requirement for carboxy-terminal activation of the p53 protein for binding to some, but not to all target sites.…”
Section: Discussionmentioning
confidence: 91%
“…Biophysical and biochemical data 11,[21][22][23][24] were obtained and a similar p53 core domain tetramer-DNA complex model was proposed 11,[21][22][23][24] . The specific ways of association between p53 and DNA and between p53 monomers are supported by experiments 18,[25][26][27] .…”
Section: Introductionmentioning
confidence: 67%
“…In vitro DNA binding of monomeric p53 can also be achieved by increasing the concentration of the protein in the binding reaction, yielding complexes migrating similarly to wild-type p53-DNA complexes (data not shown). 54 Monomeric p53 variants with a functional DNA binding domain probably aggregate on p53 response elements to form labile DNAprotein complexes. Such complexes are still able to initiate the transcription of genes in vivo.…”
Section: Discussionmentioning
confidence: 99%
“…We suggest that the efficiency of DNA binding of p53 is limiting the transcriptional induction and consider this to be the reason for the more effective transactivation by wild-type p53. 19,[54][55][56][57] At high concentrations of wild-type p53 transactivation activity decreased again. p53 functions as a transcription factor itself and contacts members of the basal transcription machinery, such as TBP, the TATA binding protein 58 and the co-activator p300.…”
Section: Discussionmentioning
confidence: 99%