- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 2.45 Å
- Oligo State
- homo-dimer
- Ligands
- 2 x FAD: FLAVIN-ADENINE DINUCLEOTIDE(Non-covalent)
- 2 x B6X: (3R)-3-[(carboxymethyl)sulfanyl]nonanoic acid(Non-covalent)
B6X.2: 13 residues within 4Å:- Chain A: M.64, P.66, A.68, N.69, R.263, Y.272, A.285, Y.287, R.328, R.354, I.355, Q.358
- Ligands: FAD.1
12 PLIP interactions:12 interactions with chain A- Hydrophobic interactions: A:P.66, A:Y.272, A:I.355, A:Q.358
- Hydrogen bonds: A:N.69, A:Y.272, A:Y.272, A:Y.287
- Salt bridges: A:R.263, A:R.328, A:R.354, A:R.354
B6X.4: 12 residues within 4Å:- Chain B: M.64, P.66, A.68, N.69, R.263, Y.272, A.285, R.328, R.354, I.355, Q.358
- Ligands: FAD.3
8 PLIP interactions:8 interactions with chain B- Hydrophobic interactions: B:Y.272, B:I.355, B:Q.358
- Hydrogen bonds: B:N.69, B:R.354
- Salt bridges: B:R.263, B:R.328, B:R.354
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Kawasaki, D. et al., Structural Analysis of the Glycine Oxidase Homologue CmiS2 Reveals a Unique Substrate Recognition Mechanism for Formation of a beta-Amino Acid Starter Unit in Cremimycin Biosynthesis. Biochemistry (2019)
- Release Date
- 2019-06-12
- Peptides
- FAD-dependent glycine oxydase: AB
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
B
- Coordinates
- PDB Format
- Method
- X-RAY DIFFRACTION 2.45 Å
- Oligo State
- homo-dimer
- Ligands
- 2 x FAD: FLAVIN-ADENINE DINUCLEOTIDE(Non-covalent)
- 2 x B6X: (3R)-3-[(carboxymethyl)sulfanyl]nonanoic acid(Non-covalent)
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Kawasaki, D. et al., Structural Analysis of the Glycine Oxidase Homologue CmiS2 Reveals a Unique Substrate Recognition Mechanism for Formation of a beta-Amino Acid Starter Unit in Cremimycin Biosynthesis. Biochemistry (2019)
- Release Date
- 2019-06-12
- Peptides
- FAD-dependent glycine oxydase: AB
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
B