Q9H3D4 (P63_HUMAN) Homo sapiens (Human)
Tumor protein 63 UniProtKBInterProSTRINGInteractive Modelling
680 aa; Sequence (Fasta) ; (Isoform 2; Isoform 3; Isoform 4; Isoform 5; Isoform 6; Isoform 7; Isoform 8; Isoform 9; Isoform 10; Isoform 11; Isoform 12);
4 identical sequences: Homo sapiens: A0A0S2Z4N5; Pan troglodytes: H2QNY5, A0A6D2WN84; Pan paniscus: A0A2R9BLB5
It is possible new templates exist for this target since these models were created.
Available Structures
24 Experimental Structures
Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
---|---|---|---|---|---|---|
Crystal structure of p63 DNA binding domain in complex with inhibitory DARPin G4 |
Heteromer | 100.0 | 1×ZN; | |||
Crystal structure of p63 DBD in complex with darpin C14 |
Heteromer | 100 | 1×ZN; | |||
Crystal structure of p63 SAM in complex with darpin A5 |
Heteromer | 100 | 1×PEG; | |||
P63/p73 hetero-tetramerisation domain |
Heteromer O15350; | 98.31 | ||||
CRYSTAL STRUCTURE OF HUMAN P63 TETRAMERIZATION DOMAIN |
Heteromer | 100 | 1×PE4; | |||
Crystal structure of wild type p63-p73 heterotetramer (tetramerisation domain) in complex with darp… |
Heteromer O15350; | 100 | 2×GOL; | |||
Crystal structure of p63-p73 heterotetramer (tetramerisation domain) in complex with darpin 1810 F11 |
Heteromer O15350; | 98.15 | 8×EDO; | |||
Crystal structure of p63 tetramerization domain in complex with darpin 8F1 |
Heteromer | 100 | ||||
Crystal structure of p63-p73 heterotetramer (tetramerisation domain) in complex with darpin 1810 A2 |
Heteromer O15350; | 97.83 | ||||
Crystal structure of Casein Kinase I delta (CK1d) in complex with double phosphorylated p63 PAD2P p… |
Heteromer P48730; | 93.33 | 1×ADP; 10×EDO; 1×NA; | |||
Crystal structure of Casein Kinase I delta (CK1d) in complex with triple phosphorylated p63 PAD3P p… |
Heteromer P48730; | 100 | 1×ADP; 5×EDO; 1×NA; 1×SO4; | |||
Crystal structure of Casein Kinase I delta (CK1d) in complex with monophosphorylated p63 PAD1P pept… |
Heteromer P48730; | 100 | 1×ACP; 1×NA; 7×EDO; | |||
Structure of p63 DNA Binding Domain in Complex with a 22 Base Pair A/T Rich Response Element Contai… | homo-4-mer | 100 | 4×ZN; | |||
Structure of p63 DNA Binding Domain in Complex with a 22 Base Pair A/T Rich Response Element Contai… | homo-4-mer | 100 | 4×ZN; | |||
Structure of p63 DNA Binding Domain in Complex with a 22 Base Pair Response Element Containing a Tw… | homo-4-mer | 100.0 | 4×ZN; | |||
Structure of p63 DNA Binding Domain in Complex with a 10 Base Pair A/T Rich Response Element Half S… | homo-4-mer | 100.0 | 4×ZN; | |||
Structure of p63 DNA Binding Domain in Complex with a 19 Base Pair A/T Rich Response Element Contai… | homo-4-mer | 100.0 | 4×ZN; | |||
Crystal structure of the human p63 tetramerization domain | homo-4-mer | 100 | ||||
Crystal structure of a truncated variant of the human p63 tetramerization domain lacking the C-term… | homo-4-mer | 100 | ||||
The solution structure of the p63 DNA-binding domain | monomer | 99.55 | 1×ZN; | |||
Structural basis of p63a SAM domain mutants involved in AEC syndrome | monomer | 100 | ||||
Structural basis of p63a SAM domain mutants involved in AEC syndrome | monomer | 100 | 1×SO4; | |||
Solution structure of the C-terminal domain of p63 | monomer | 100 | ||||
Solution Structure of p300Taz2-p63TA | monomer | 96.3 | 3×ZN; | |||
4 SWISS-MODEL models
Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
---|---|---|---|---|---|---|
2y9t.1.A | monomer | 0.67 | 100.00 | |||
3q05.1.C | monomer | 0.61 | 1×ZN; | 53.02 | ||
8f2h.1.A | monomer | 0.60 | 47.46 | |||
6xre.1.M | monomer | 0.53 | 47.46 | |||
39 SWISS-MODEL models built on isoform sequence
Isoform | Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
---|---|---|---|---|---|---|---|
Isoform 2 | 2y9t.1.A | monomer | 0.67 | 100.00 | |||
Isoform 2 | 3q05.1.C | monomer | 0.65 | 1×ZN; | 53.02 | ||
Isoform 2 | 8f2h.1.A | monomer | 0.61 | 47.46 | |||
Isoform 2 | 6xre.1.M | monomer | 0.52 | 47.46 | |||
Isoform 3 | 3q05.1.C | monomer | 0.65 | 1×ZN; | 52.79 | ||
Isoform 3 | 8f2h.1.A | monomer | 0.62 | 47.46 | |||
Isoform 3 | 6xre.1.M | monomer | 0.52 | 47.46 | |||
Isoform 4 | 7ezj.3.A | homo-4-mer | 0.79 | 4×ZN; | 85.86 | ||
Isoform 4 | 4mzr.1.A | homo-4-mer | 0.65 | 4×ZN; | 52.14 | ||
Isoform 4 | 8f2h.1.A | monomer | 0.60 | 47.46 | |||
Isoform 4 | 6xre.1.M | monomer | 0.53 | 47.46 | |||
Isoform 5 | 7ezj.3.A | homo-4-mer | 0.76 | 4×ZN; | 85.86 | ||
Isoform 5 | 4mzr.1.A | homo-4-mer | 0.63 | 4×ZN; | 52.14 | ||
Isoform 5 | 8f2h.1.A | monomer | 0.61 | 47.46 | |||
Isoform 5 | 6xre.1.M | monomer | 0.54 | 50.97 | |||
Isoform 6 | 7ezj.3.A | homo-4-mer | 0.80 | 4×ZN; | 85.86 | ||
Isoform 6 | 4mzr.1.A | homo-4-mer | 0.67 | 4×ZN; | 52.14 | ||
Isoform 6 | 8f2h.1.A | monomer | 0.60 | 47.46 | |||
Isoform 6 | 6xre.1.M | monomer | 0.54 | 47.46 | |||
Isoform 7 | 3q05.1.A | monomer | 0.65 | 1×ZN; | 52.79 | ||
Isoform 7 | 8f2h.1.A | monomer | 0.61 | 47.46 | |||
Isoform 7 | 6xre.1.M | monomer | 0.52 | 47.46 | |||
Isoform 8 | 4mzr.1.A | homo-4-mer | 0.67 | 4×ZN; | 52.14 | ||
Isoform 8 | 8f2h.1.A | monomer | 0.60 | 47.46 | |||
Isoform 8 | 6xre.1.M | monomer | 0.53 | 47.46 | |||
Isoform 9 | 3q05.1.C | monomer | 0.65 | 1×ZN; | 48.70 | ||
Isoform 9 | 8f2h.1.A | monomer | 0.59 | 44.28 | |||
Isoform 9 | 6xre.1.M | monomer | 0.52 | 44.28 | |||
Isoform 10 | 2y9t.1.A | monomer | 0.64 | 100.00 | |||
Isoform 10 | 8f2h.1.A | monomer | 0.59 | 47.56 | |||
Isoform 10 | 3q06.1.A | monomer | 0.57 | 1×ZN; | 52.91 | ||
Isoform 10 | 6xre.1.M | monomer | 0.51 | 47.56 | |||
Isoform 11 | 2y9t.1.A | monomer | 0.62 | 100.00 | |||
Isoform 11 | 8f2h.1.A | monomer | 0.60 | 47.43 | |||
Isoform 11 | 3q05.1.C | monomer | 0.59 | 1×ZN; | 53.02 | ||
Isoform 11 | 6xre.1.M | monomer | 0.52 | 47.43 | |||
Isoform 12 | 2y9t.1.A | monomer | 0.67 | 100.00 | |||
Isoform 12 | 8f2h.1.A | monomer | 0.61 | 47.43 | |||
Isoform 12 | 3q05.1.C | monomer | 0.61 | 1×ZN; | 53.02 | ||