- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 1.77 Å
- Oligo State
- homo-tetramer
- Ligands
- 4 x YPG: [3-[(3~{R},4~{R})-3-(2-azanyl-6-oxidanylidene-1~{H}-purin-9-yl)-4-[(2~{S})-2-oxidanyl-2-phosphono-ethoxy]pyrrolidin-1-y l]-3-oxidanylidene-propyl]phosphonic acid(Non-covalent)
YPG.1: 19 residues within 4Å:- Chain A: L.74, K.75, G.76, I.142, I.143, D.144, T.145, G.146, K.147, T.148, K.172, K.192, F.193, V.194, L.199, D.200, R.206
- Ligands: MG.2, MG.3
32 PLIP interactions:32 interactions with chain A- Hydrogen bonds: A:L.74, A:K.75, A:G.76, A:D.144, A:D.144, A:T.145, A:T.145, A:T.145, A:T.145, A:G.146, A:K.147, A:K.147, A:T.148, A:T.148, A:T.148, A:K.172, A:V.194, A:V.194, A:V.194, A:R.206, A:R.206
- Water bridges: A:G.77, A:R.107, A:M.149, A:M.149, A:D.200, A:D.200, A:D.200, A:D.200, A:E.203, A:E.203
- pi-Cation interactions: A:F.193
YPG.4: 19 residues within 4Å:- Chain B: L.74, K.75, G.76, I.142, I.143, D.144, T.145, G.146, K.147, T.148, K.172, K.192, F.193, V.194, L.199, D.200, R.206
- Ligands: MG.5, MG.6
23 PLIP interactions:23 interactions with chain B- Hydrogen bonds: B:L.74, B:K.75, B:G.76, B:D.144, B:T.145, B:T.145, B:T.145, B:G.146, B:K.147, B:T.148, B:T.148, B:T.148, B:K.172, B:V.194, B:V.194, B:V.194, B:D.200, B:R.206, B:R.206
- Water bridges: B:G.77, B:T.145, B:T.145, B:M.149
YPG.7: 19 residues within 4Å:- Chain C: L.74, K.75, G.76, I.142, I.143, D.144, T.145, G.146, K.147, T.148, K.172, K.192, F.193, V.194, L.199, D.200, R.206
- Ligands: MG.8, MG.9
26 PLIP interactions:26 interactions with chain C- Hydrogen bonds: C:L.74, C:K.75, C:G.76, C:D.144, C:D.144, C:T.145, C:T.145, C:T.145, C:G.146, C:K.147, C:T.148, C:T.148, C:T.148, C:K.172, C:V.194, C:V.194, C:V.194, C:D.200, C:R.206, C:R.206
- Water bridges: C:G.77, C:M.149, C:D.200, C:E.203, C:E.203
- pi-Stacking: C:F.193
YPG.10: 19 residues within 4Å:- Chain D: L.74, K.75, G.76, I.142, I.143, D.144, T.145, G.146, K.147, T.148, K.172, K.192, F.193, V.194, L.199, D.200, R.206
- Ligands: MG.11, MG.12
26 PLIP interactions:26 interactions with chain D- Hydrogen bonds: D:L.74, D:K.75, D:G.76, D:D.144, D:T.145, D:T.145, D:T.145, D:G.146, D:K.147, D:T.148, D:T.148, D:T.148, D:K.172, D:V.194, D:V.194, D:V.194, D:R.206, D:R.206
- Water bridges: D:G.77, D:R.107, D:T.145, D:T.145, D:M.149, D:D.200, D:D.200, D:D.200
- 8 x MG: MAGNESIUM ION(Non-covalent)
MG.2: 3 residues within 4Å:- Chain A: D.200, R.206
- Ligands: YPG.1
4 PLIP interactions:1 interactions with chain A, 3 Ligand-Water interactions- Metal complexes: A:D.200, H2O.1, H2O.3, H2O.3
MG.3: 3 residues within 4Å:- Chain A: E.140, D.141
- Ligands: YPG.1
6 PLIP interactions:2 interactions with chain A, 4 Ligand-Water interactions- Metal complexes: A:E.140, A:D.141, H2O.1, H2O.1, H2O.2, H2O.3
MG.5: 3 residues within 4Å:- Chain B: D.200, R.206
- Ligands: YPG.4
4 PLIP interactions:1 interactions with chain B, 3 Ligand-Water interactions- Metal complexes: B:D.200, H2O.5, H2O.7, H2O.7
MG.6: 3 residues within 4Å:- Chain B: E.140, D.141
- Ligands: YPG.4
6 PLIP interactions:2 interactions with chain B, 4 Ligand-Water interactions- Metal complexes: B:E.140, B:D.141, H2O.5, H2O.5, H2O.5, H2O.6
MG.8: 3 residues within 4Å:- Chain C: D.200, R.206
- Ligands: YPG.7
4 PLIP interactions:1 interactions with chain C, 3 Ligand-Water interactions- Metal complexes: C:D.200, H2O.10, H2O.12, H2O.12
MG.9: 3 residues within 4Å:- Chain C: E.140, D.141
- Ligands: YPG.7
6 PLIP interactions:2 interactions with chain C, 4 Ligand-Water interactions- Metal complexes: C:E.140, C:D.141, H2O.9, H2O.10, H2O.11, H2O.12
MG.11: 3 residues within 4Å:- Chain D: D.200, R.206
- Ligands: YPG.10
4 PLIP interactions:1 interactions with chain D, 3 Ligand-Water interactions- Metal complexes: D:D.200, H2O.14, H2O.16, H2O.16
MG.12: 3 residues within 4Å:- Chain D: E.140, D.141
- Ligands: YPG.10
6 PLIP interactions:2 interactions with chain D, 4 Ligand-Water interactions- Metal complexes: D:E.140, D:D.141, H2O.14, H2O.14, H2O.15, H2O.15
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Keough, D.T. et al., Design of Plasmodium vivax Hypoxanthine-Guanine Phosphoribosyltransferase Inhibitors as Potential Antimalarial Therapeutics. ACS Chem. Biol. (2017)
- Release Date
- 2017-01-18
- Peptides
- Hypoxanthine-guanine phosphoribosyltransferase: ABCD
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
BC
CD
D
- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 1.77 Å
- Oligo State
- homo-tetramer
- Ligands
- 4 x YPG: [3-[(3~{R},4~{R})-3-(2-azanyl-6-oxidanylidene-1~{H}-purin-9-yl)-4-[(2~{S})-2-oxidanyl-2-phosphono-ethoxy]pyrrolidin-1-y l]-3-oxidanylidene-propyl]phosphonic acid(Non-covalent)
- 8 x MG: MAGNESIUM ION(Non-covalent)
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Keough, D.T. et al., Design of Plasmodium vivax Hypoxanthine-Guanine Phosphoribosyltransferase Inhibitors as Potential Antimalarial Therapeutics. ACS Chem. Biol. (2017)
- Release Date
- 2017-01-18
- Peptides
- Hypoxanthine-guanine phosphoribosyltransferase: ABCD
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
BC
CD
D