- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 1.60 Å
- Oligo State
- homo-dimer
- Ligands
- 7 x SO4: SULFATE ION(Non-functional Binders)
- 3 x ACY: ACETIC ACID(Non-functional Binders)
ACY.5: 6 residues within 4Å:- Chain A: V.45, D.46, W.64, S.67, D.69, V.70
2 PLIP interactions:2 interactions with chain A- Hydrophobic interactions: A:D.46
- Hydrogen bonds: A:S.67
ACY.9: 6 residues within 4Å:- Chain B: V.45, D.46, W.64, S.67, D.69, V.70
2 PLIP interactions:2 interactions with chain B- Hydrophobic interactions: B:D.46
- Hydrogen bonds: B:S.67
ACY.10: 3 residues within 4Å:- Chain B: Q.38, H.43, V.44
4 PLIP interactions:4 interactions with chain B- Hydrophobic interactions: B:H.43
- Hydrogen bonds: B:Q.38, B:V.44
- Salt bridges: B:H.43
- Links
- RCSB PDBe PDBj PDBsum CATH PLIP
- Citation
-
Sanishvili, R. et al., The crystal structure of Escherichia coli MoaB suggests a probable role in molybdenum cofactor synthesis. J.Biol.Chem. (2004)
- Release Date
- 2003-04-22
- Peptides
- Molybdenum cofactor biosynthesis protein B: AB
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
B
- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 1.60 Å
- Oligo State
- homo-dimer
- Ligands
- 7 x SO4: SULFATE ION(Non-functional Binders)
- 3 x ACY: ACETIC ACID(Non-functional Binders)
- Links
- RCSB PDBe PDBj PDBsum CATH PLIP
- Citation
-
Sanishvili, R. et al., The crystal structure of Escherichia coli MoaB suggests a probable role in molybdenum cofactor synthesis. J.Biol.Chem. (2004)
- Release Date
- 2003-04-22
- Peptides
- Molybdenum cofactor biosynthesis protein B: AB
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
B