- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 1.70 Å
- Oligo State
- homo-hexamer
- Ligands
- 8 x HG: MERCURY (II) ION(Non-covalent)
- 10 x MBO: MERCURIBENZOIC ACID(Non-covalent)
MBO.2: 11 residues within 4Å:- Chain A: C.16, T.17, A.18, P.19, T.23, L.27, L.80, H.83, H.84, P.85, P.89
4 PLIP interactions:4 interactions with chain A- Hydrophobic interactions: A:T.23, A:L.27
- pi-Stacking: A:H.84
- Metal complexes: A:C.16
MBO.3: 7 residues within 4Å:- Chain A: C.39
- Chain C: T.17, Y.50, E.61, H.84, T.88, E.90
6 PLIP interactions:1 interactions with chain A, 5 interactions with chain C- Metal complexes: A:C.39, C:E.90
- Hydrophobic interactions: C:T.17
- Water bridges: C:T.17, C:H.84
- Salt bridges: C:H.84
MBO.5: 10 residues within 4Å:- Chain B: C.16, T.17, P.19, T.23, L.27, L.80, H.83, H.84, P.85, P.89
7 PLIP interactions:6 interactions with chain B, 1 Ligand-Water interactions- Hydrophobic interactions: B:L.27, B:H.84
- Hydrogen bonds: B:T.23, B:H.83
- pi-Stacking: B:H.84
- Metal complexes: B:C.16, H2O.4
MBO.6: 6 residues within 4Å:- Chain A: T.17, Y.50, E.61, H.84, E.90
- Chain B: C.39
6 PLIP interactions:1 interactions with chain B, 5 interactions with chain A- Metal complexes: B:C.39, A:E.90
- Hydrophobic interactions: A:T.17
- Water bridges: A:T.17, A:H.84
- Salt bridges: A:H.84
MBO.9: 11 residues within 4Å:- Chain C: C.16, T.17, A.18, P.19, T.23, L.27, L.80, H.83, H.84, P.85, P.89
5 PLIP interactions:5 interactions with chain C- Hydrophobic interactions: C:T.23, C:L.27, C:H.84
- pi-Stacking: C:H.84
- Metal complexes: C:C.16
MBO.12: 10 residues within 4Å:- Chain D: C.16, T.17, A.18, P.19, T.23, L.27, L.80, H.83, H.84, P.85
3 PLIP interactions:3 interactions with chain D- Hydrophobic interactions: D:L.27
- pi-Stacking: D:H.84
- Metal complexes: D:C.16
MBO.14: 11 residues within 4Å:- Chain E: C.16, T.17, A.18, P.19, T.23, L.27, L.80, H.83, H.84, P.85, P.89
6 PLIP interactions:6 interactions with chain E- Hydrophobic interactions: E:A.18, E:L.27, E:H.83
- Water bridges: E:T.23
- pi-Stacking: E:H.84
- Metal complexes: E:C.16
MBO.15: 5 residues within 4Å:- Chain D: T.17, E.61, H.84, E.90
- Chain E: C.39
9 PLIP interactions:7 interactions with chain D, 1 interactions with chain E, 1 Ligand-Water interactions- Hydrophobic interactions: D:T.17, D:E.90
- Water bridges: D:H.84, D:H.84, D:T.88
- Salt bridges: D:H.84
- Metal complexes: D:E.90, E:C.39, H2O.8
MBO.17: 10 residues within 4Å:- Chain F: C.16, T.17, P.19, T.23, L.27, L.80, H.83, H.84, P.85, P.89
5 PLIP interactions:5 interactions with chain F- Hydrophobic interactions: F:T.23, F:L.27
- Water bridges: F:T.23
- pi-Cation interactions: F:H.84
- Metal complexes: F:C.16
MBO.18: 6 residues within 4Å:- Chain E: T.17, S.48, E.61, H.84, E.90
- Chain F: C.39
7 PLIP interactions:1 interactions with chain F, 6 interactions with chain E- Metal complexes: F:C.39, E:E.90
- Hydrophobic interactions: E:T.17, E:E.90
- Water bridges: E:E.61, E:E.90
- Salt bridges: E:H.84
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Arnesano, F. et al., The evolutionarily conserved trimeric structure of CutA1 proteins suggests a role in signal transduction. J.Biol.Chem. (2003)
- Release Date
- 2003-11-25
- Peptides
- Periplasmic divalent cation tolerance protein cutA: ABCDEF
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
BC
CD
DE
EF
F
- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 1.70 Å
- Oligo State
- homo-hexamer
- Ligands
- 8 x HG: MERCURY (II) ION(Non-covalent)
- 10 x MBO: MERCURIBENZOIC ACID(Non-covalent)
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Arnesano, F. et al., The evolutionarily conserved trimeric structure of CutA1 proteins suggests a role in signal transduction. J.Biol.Chem. (2003)
- Release Date
- 2003-11-25
- Peptides
- Periplasmic divalent cation tolerance protein cutA: ABCDEF
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
BC
CD
DE
EF
F