{"context":{"query":">>uniprot>>pdb","source_dataset":"uniprot","target_dataset":"pdb"},"stats":{"queried":1,"total":100,"mapped":1},"pagination":{"has_next":true,"next_token":"-1[]P04637,1,P04637,143,1]["},"schema":"id|title|method|resolution|source_organism|chain_count|header","mappings":[{"input":"P04637","source":"P04637|Cellular tumor antigen p53","targets":["1A1U|SOLUTION STRUCTURE DETERMINATION OF A P53 MUTANT DIMERIZATION DOMAIN, NMR, MINIMIZED AVERAGE STRUCTURE|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE","1AIE|P53 TETRAMERIZATION DOMAIN CRYSTAL STRUCTURE|X-RAY DIFFRACTION|1.5|Homo sapiens|0|P53 TETRAMERIZATION","1C26|CRYSTAL STRUCTURE OF P53 TETRAMERIZATION DOMAIN|X-RAY DIFFRACTION|1.7|Homo sapiens|0|GENE REGULATION","1DT7|SOLUTION STRUCTURE OF THE C-TERMINAL NEGATIVE REGULATORY DOMAIN OF P53 IN A COMPLEX WITH CA2+-BOUND S100B(BB)|SOLUTION NMR||Rattus norvegicus; SYNTHETIC CONSTRUCT|0|SIGNALING PROTEIN","1GZH|Crystal structure of the BRCT domains of human 53BP1 bound to the p53 tumor supressor|X-RAY DIFFRACTION|2.6|HOMO SAPIENS|0|GENE REGULATION","1H26|CDK2/CyclinA in complex with an 11-residue recruitment peptide from p53|X-RAY DIFFRACTION|2.24|HOMO SAPIENS; SYNTHETIC CONSTRUCT|0|CELL CYCLE","1HS5|NMR SOLUTION STRUCTURE OF DESIGNED P53 DIMER|SOLUTION NMR||Homo sapiens|0|GENE REGULATION","1JSP|NMR Structure of CBP Bromodomain in complex with p53 peptide|SOLUTION NMR||Homo sapiens; SYNTHETIC CONSTRUCT|0|DNA BINDING PROTEIN","1KZY|Crystal Structure of the 53bp1 BRCT Region Complexed to Tumor Suppressor P53|X-RAY DIFFRACTION|2.5|Homo sapiens|0|DNA BINDING PROTEIN, PROTEIN BINDING","1MA3|Structure of a Sir2 enzyme bound to an acetylated p53 peptide|X-RAY DIFFRACTION|2|Archaeoglobus fulgidus; SYNTHETIC CONSTRUCT|0|PROTEIN BINDING, TRANSCRIPTION","1OLG|HIGH-RESOLUTION SOLUTION STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE","1OLH|HIGH-RESOLUTION SOLUTION STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE PROTEIN","1PES|NMR SOLUTION STRUCTURE OF THE TETRAMERIC MINIMUM TRANSFORMING DOMAIN OF P53|SOLUTION NMR||Homo sapiens|0|DNA-BINDING","1PET|NMR SOLUTION STRUCTURE OF THE TETRAMERIC MINIMUM TRANSFORMING DOMAIN OF P53|SOLUTION NMR||Homo sapiens|0|DNA-BINDING","1SAE|HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAC STRUCTURES)|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE","1SAF|HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAD STRUCTURES)|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE","1SAK|HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAC STRUCTURES)|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE","1SAL|HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAD STRUCTURES)|SOLUTION NMR||Homo sapiens|0|ANTI-ONCOGENE","1TSR|P53 CORE DOMAIN IN COMPLEX WITH DNA|X-RAY DIFFRACTION|2.2|Homo sapiens; SYNTHETIC CONSTRUCT|0|ANTITUMOR PROTEIN/DNA","1TUP|TUMOR SUPPRESSOR P53 COMPLEXED WITH DNA|X-RAY DIFFRACTION|2.2|Homo sapiens; SYNTHETIC CONSTRUCT|0|ANTITUMOR PROTEIN/DNA","1UOL|Crystal structure of the human p53 core domain mutant M133L/V203A/N239Y/N268D at 1.9 A resolution.|X-RAY DIFFRACTION|1.9|HOMO SAPIENS|0|DNA BINDING PROTEIN","1XQH|Crystal structure of a ternary complex of the methyltransferase SET9 (also known as SET7/9) with a P53 peptide and SAH|X-RAY DIFFRACTION|1.75|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSFERASE","1YC5|Sir2-p53 peptide-nicotinamide|X-RAY DIFFRACTION|1.4|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","1YCQ|XENOPUS LAEVIS MDM2 BOUND TO THE TRANSACTIVATION DOMAIN OF HUMAN P53|X-RAY DIFFRACTION|2.3|Xenopus laevis|0|COMPLEX (ONCOGENE PROTEIN/PEPTIDE)","1YCR|MDM2 BOUND TO THE TRANSACTIVATION DOMAIN OF P53|X-RAY DIFFRACTION|2.6|Homo sapiens|0|COMPLEX (ONCOGENE PROTEIN/PEPTIDE)","1YCS|P53-53BP2 COMPLEX|X-RAY DIFFRACTION|2.2|Homo sapiens|0|COMPLEX (ANTI-ONCOGENE/ANKYRIN REPEATS)","2AC0|Structural Basis of DNA Recognition by p53 Tetramers (complex I)|X-RAY DIFFRACTION|1.8|Homo sapiens; SYNTHETIC CONSTRUCT|0|APOPTOSIS/DNA","2ADY|Structural Basis of DNA Recognition by p53 Tetramers (complex IV)|X-RAY DIFFRACTION|2.5|Homo sapiens; SYNTHETIC CONSTRUCT|0|APOPTOSIS/DNA","2AHI|Structural Basis of DNA Recognition by p53 Tetramers (complex III)|X-RAY DIFFRACTION|1.85|Homo sapiens; SYNTHETIC CONSTRUCT|0|APOPTOSIS/DNA","2ATA|Structural Basis of DNA Recognition by p53 Tetramers (complex II)|X-RAY DIFFRACTION|2.2|Homo sapiens; SYNTHETIC CONSTRUCT|0|APOPTOSIS/DNA","2B3G|p53N (fragment 33-60) bound to RPA70N|X-RAY DIFFRACTION|1.6|Homo sapiens|0|REPLICATION","2BIM|human p53 core domain mutant M133L-V203A-N239Y-N268D-R273H|X-RAY DIFFRACTION|1.98|HOMO SAPIENS|0|DNA BINDING PROTEIN","2BIN|human p53 core domain mutant M133L-H168R-V203A-N239Y-N268D|X-RAY DIFFRACTION|1.9|HOMO SAPIENS|0|DNA BINDING PROTEIN","2BIO|human p53 core domain mutant M133L-V203A-N239Y-R249S-N268D|X-RAY DIFFRACTION|1.9|HOMO SAPIENS|0|DNA BINDING PROTEIN","2BIP|human p53 core domain mutant M133L-H168R-V203A-N239Y-R249S-N268D|X-RAY DIFFRACTION|1.8|HOMO SAPIENS|0|DNA BINDING PROTEIN","2BIQ|human p53 core domain mutant T123A-M133L-H168R-V203A-N239Y-R249S- N268D|X-RAY DIFFRACTION|1.8|HOMO SAPIENS|0|DNA BINDING PROTEIN","2FEJ|Solution structure of human p53 DNA binding domain.|SOLUTION NMR||Homo sapiens|0|TRANSCRIPTION","2FOJ|The Crystal Structure of the N-terminal domain of HAUSP/USP7 complexed with p53 peptide 364-367|X-RAY DIFFRACTION|1.6|Homo sapiens; SYNTHETIC CONSTRUCT|0|HYDROLASE","2FOO|The Crystal Structure of the N-terminal domain of HAUSP/USP7 complexed with p53 peptide 359-362|X-RAY DIFFRACTION|2.2|Homo sapiens; SYNTHETIC CONSTRUCT|0|HYDROLASE","2GS0|NMR structure of the complex between the PH domain of the Tfb1 subunit from TFIIH and the activation domain of p53|SOLUTION NMR||Homo sapiens; Saccharomyces cerevisiae|0|TRANSCRIPTION","2H1L|The Structure of the Oncoprotein SV40 Large T Antigen and p53 Tumor Suppressor Complex|X-RAY DIFFRACTION|3.16|Homo sapiens; Simian virus 40|0|VIRAL PROTEIN","2H2D|The Structural Basis for Sirtuin Substrate Affinity|X-RAY DIFFRACTION|1.7|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","2H2F|The Structural basis for Sirtuin Substrate affinity|X-RAY DIFFRACTION|2.2|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","2H4F|Sir2-p53 peptide-NAD+|X-RAY DIFFRACTION|2|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","2H4H|Sir2 H116Y mutant-p53 peptide-NAD|X-RAY DIFFRACTION|1.99|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","2H4J|Sir2-deacetylated peptide (from enzymatic turnover in crystal)|X-RAY DIFFRACTION|2.1|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","2H59|Sir2 H116A-deacetylated p53 peptide-3'-o-acetyl ADP ribose|X-RAY DIFFRACTION|1.9|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","2J0Z|p53 tetramerization domain wild type|SOLUTION NMR|||0|TRANSCRIPTION","2J10|p53 tetramerization domain mutant T329F Q331K|SOLUTION NMR|||0|TRANSCRIPTION","2J11|p53 tetramerization domain mutant Y327S T329G Q331G|SOLUTION NMR|||0|TRANSCRIPTION","2J1W|Human p53 core domain mutant M133L-V143A-V203A-N239Y-N268D|X-RAY DIFFRACTION|1.8|HOMO SAPIENS|0|NUCLEAR PROTEIN","2J1X|Human p53 core domain mutant M133L-V203A-Y220C-N239Y-N268D|X-RAY DIFFRACTION|1.65|HOMO SAPIENS|0|NUCLEAR PROTEIN","2J1Y|Human p53 core domain mutant M133L-V203A-N239Y-G245S-N268D|X-RAY DIFFRACTION|1.69|HOMO SAPIENS|0|NUCLEAR PROTEIN","2J1Z|Human p53 core domain mutant M133L-V203A-N239Y-N268D-F270L|X-RAY DIFFRACTION|1.8|HOMO SAPIENS|0|NUCLEAR PROTEIN","2J20|Human p53 core domain mutant M133L-V203A-N239Y-N268D-R273C|X-RAY DIFFRACTION|1.8|HOMO SAPIENS|0|NUCLEAR PROTEIN","2J21|Human p53 core domain mutant M133L-V203A-N239Y-N268D-R282W|X-RAY DIFFRACTION|1.6|HOMO SAPIENS|0|NUCLEAR PROTEIN","2K8F|Structural Basis for the Regulation of p53 Function by p300|SOLUTION NMR||Homo sapiens|0|Transferase/Transcription","2L14|Structure of CBP nuclear coactivator binding domain in complex with p53 TAD|SOLUTION NMR||Homo sapiens; Mus musculus|0|PROTEIN BINDING","2LY4|HMGB1-facilitated p53 DNA binding occurs via HMG-box/p53 transactivation domain interaction and is regulated by the acidic tail|SOLUTION NMR||Homo sapiens|0|NUCLEAR PROTEIN/ANTITUMOUR PROTEIN","2MEJ|Solution Structure of the Complex Between BCL-xL and the p53 Core Domain determined with PRE restraints|SOLUTION NMR||Homo sapiens|0|APOPTOSIS","2MWO|Solution structure of 53BP1 tandem Tudor domains in complex with a p53K370me2 peptide|SOLUTION NMR||Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION/ANTITUMOR PROTEIN","2MWP|Solution structure of 53BP1 tandem Tudor domains in complex with a p53K382me2 peptide|SOLUTION NMR||Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION/ANTITUMOR PROTEIN","2MWY|Mdmx-p53|SOLUTION NMR||Homo sapiens; SYNTHETIC CONSTRUCT|0|Cell Cycle/Antitumor Protein","2MZD|Characterization of the p300 Taz2-p53 TAD2 Complex and Comparison with the p300 Taz2-p53 TAD1 Complex|SOLUTION NMR||Homo sapiens|0|PROTEIN BINDING","2OCJ|Human p53 core domain in the absence of DNA|X-RAY DIFFRACTION|2.05|Homo sapiens|0|DNA BINDING PROTEIN","2PCX|Crystal structure of p53DBD(R282Q) at 1.54-angstrom Resolution|X-RAY DIFFRACTION|1.54|Homo sapiens|0|TRANSCRIPTION","2RUK|Solution structure of the complex between p53 transactivation domain 2 and TFIIH p62 PH domain|SOLUTION NMR||Homo sapiens|0|TRANSCRIPTION","2V5W|Crystal structure of HDAC8-substrate complex|X-RAY DIFFRACTION|2|HOMO SAPIENS; SYNTHETIC CONSTRUCT|0|HYDROLASE/HYDROLASE SUBSTRATE","2VUK|Structure of the p53 core domain mutant Y220C bound to the stabilizing small-molecule drug PhiKan083|X-RAY DIFFRACTION|1.5|HOMO SAPIENS|0|TRANSCRIPTION","2WGX|HUMAN P53 CORE DOMAIN MUTANT M133L-V203A-Y236F-N239Y-T253I-N268D|X-RAY DIFFRACTION|1.75|HOMO SAPIENS|0|CELL CYCLE","2X0U|STRUCTURE OF THE P53 CORE DOMAIN MUTANT Y220C BOUND TO A 2-amino substituted benzothiazole scaffold|X-RAY DIFFRACTION|1.6|HOMO SAPIENS|0|CELL CYCLE","2X0V|STRUCTURE OF THE P53 CORE DOMAIN MUTANT Y220C BOUND TO 4-(trifluoromethyl)benzene-1,2-diamine|X-RAY DIFFRACTION|1.8|HOMO SAPIENS|0|CELL CYCLE","2X0W|STRUCTURE OF THE P53 CORE DOMAIN MUTANT Y220C BOUND TO 5,6-dimethoxy- 2-methylbenzothiazole|X-RAY DIFFRACTION|2.1|HOMO SAPIENS|0|CELL CYCLE","2XWR|Crystal structure of the DNA-binding domain of human p53 with extended N terminus|X-RAY DIFFRACTION|1.68|HOMO SAPIENS|0|CELL CYCLE","2YBG|Structure of Lys120-acetylated p53 core domain|X-RAY DIFFRACTION|1.9|HOMO SAPIENS|0|CELL CYCLE","2YDR|CpOGA D298N in complex with p53-derived O-GlcNAc peptide|X-RAY DIFFRACTION|2.75|CLOSTRIDIUM PERFRINGENS; SYNTHETIC CONSTRUCT|0|HYDROLASE/PEPTIDE","2Z5S|Molecular basis for the inhibition of p53 by Mdmx|X-RAY DIFFRACTION|2.3|Danio rerio; SYNTHETIC CONSTRUCT|0|CELL CYCLE","2Z5T|Molecular basis for the inhibition of p53 by Mdmx|X-RAY DIFFRACTION|2.3|Danio rerio; SYNTHETIC CONSTRUCT|0|CELL CYCLE","3D05|Human p53 core domain with hot spot mutation R249S (II)|X-RAY DIFFRACTION|1.7|Homo sapiens|0|TRANSCRIPTION","3D06|Human p53 core domain with hot spot mutation R249S (I)|X-RAY DIFFRACTION|1.2|Homo sapiens|0|TRANSCRIPTION","3D07|Human p53 core domain with hot spot mutation R249S (III)|X-RAY DIFFRACTION|2.2|Homo sapiens|0|TRANSCRIPTION","3D08|Human p53 core domain with hot spot mutation R249S and second-site suppressor mutation H168R|X-RAY DIFFRACTION|1.4|Homo sapiens|0|TRANSCRIPTION","3D09|Human p53 core domain with hot spot mutation R249S and second-site suppressor mutations H168R and T123A|X-RAY DIFFRACTION|1.9|Homo sapiens|0|TRANSCRIPTION","3D0A|Human p53 core domain with hot spot mutation R249S and second site suppressor mutation H168R in sequence-specific complex with DNA|X-RAY DIFFRACTION|1.8|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION/DNA","3DAB|Structure of the human Mdmx protein bound to the p53 tumor suppressor transactivation domain|X-RAY DIFFRACTION|1.9|Homo sapiens; SYNTHETIC CONSTRUCT|0|CELL CYCLE","3DAC|Structure of the human Mdmx protein bound to the p53 tumor suppressor transactivation domain|X-RAY DIFFRACTION|1.8|Danio rerio; SYNTHETIC CONSTRUCT|0|CELL CYCLE","3IGK|Diversity in DNA recognition by p53 revealed by crystal structures with Hoogsteen base pairs (p53-DNA complex 2)|X-RAY DIFFRACTION|1.7|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION/DNA","3IGL|Diversity in DNA recognition by p53 revealed by crystal structures with Hoogsteen base pairs (p53-DNA complex 1)|X-RAY DIFFRACTION|1.8|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION/DNA","3KMD|Crystal structure of the p53 core domain bound to a full consensus site as a self-assembled tetramer|X-RAY DIFFRACTION|2.15|Homo sapiens; SYNTHETIC CONSTRUCT|0|DNA BINDING PROTEIN/DNA","3KZ8|Diversity in DNA recognition by p53 revealed by crystal structures with Hoogsteen base pairs (p53-DNA complex 3)|X-RAY DIFFRACTION|1.91|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION/DNA","3LW1|Binary complex of 14-3-3 sigma and p53 pT387-peptide|X-RAY DIFFRACTION|1.28|Homo sapiens; SYNTHETIC CONSTRUCT|0|PEPTIDE BINDING PROTEIN","3OQ5|Crystal structure of the 3-MBT domain from human L3MBTL1 in complex with p53K382me1|X-RAY DIFFRACTION|2.5005|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSCRIPTION","3PDH|Structure of Sir2Tm bound to a propionylated peptide|X-RAY DIFFRACTION|1.8|Thermotoga maritima; SYNTHETIC CONSTRUCT|0|HYDROLASE","3Q01|An induced fit mechanism regulates p53 DNA binding kinetics to confer sequence specificity|X-RAY DIFFRACTION|2.1|Homo sapiens|0|ANTITUMOR PROTEIN","3Q05|An induced fit mechanism regulates p53 DNA binding kinetics to confer sequence specificity|X-RAY DIFFRACTION|2.4|Homo sapiens; SYNTHETIC CONSTRUCT|0|ANTITUMOR PROTEIN/DNA","3Q06|An induced fit mechanism regulates p53 DNA binding kinetics to confer sequence specificity|X-RAY DIFFRACTION|3.2|Homo sapiens; SYNTHETIC CONSTRUCT|0|CELL CYCLE/DNA","3SAK|HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAC STRUCTURES)|SOLUTION NMR||Homo sapiens|0|APOPTOSIS/CELL CYCLE/GENE REGULATION","3TG5|Structure of SMYD2 in complex with p53 and SAH|X-RAY DIFFRACTION|2.3|Homo sapiens; SYNTHETIC CONSTRUCT|0|TRANSFERASE","3TS8|Crystal structure of a multidomain human p53 tetramer bound to the natural CDKN1A(p21) p53-response element|X-RAY DIFFRACTION|2.8|Homo sapiens; SYNTHETIC CONSTRUCT|0|ANTITUMOR PROTEIN/DNA","3ZME|Structure of the p53 core domain mutant Y220C bound to the small molecule PhiKan7242|X-RAY DIFFRACTION|1.35|Homo sapiens|0|CELL CYCLE"]}]}