- Coordinates
- PDB Format
- Method
- ELECTRON MICROSCOPY
- Oligo State
- homo-heptamer
- Ligands
- 7 x MG: MAGNESIUM ION(Non-covalent)
- 7 x ATP: ADENOSINE-5'-TRIPHOSPHATE(Non-covalent)
ATP.2: 18 residues within 4Å:- Chain A: R.186, V.192, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, M.364, P.393, A.394, Q.397
- Chain B: D.317, R.343, R.346
- Ligands: MG.1
21 PLIP interactions:17 interactions with chain A, 4 interactions with chain B- Hydrogen bonds: A:R.186, A:R.186, A:V.192, A:V.192, A:G.233, A:C.234, A:G.235, A:K.236, A:S.237, A:S.237, A:S.237, A:S.238, A:N.332, A:Q.360, A:Q.397
- Salt bridges: A:K.236, A:K.236, B:R.343, B:R.343, B:R.343, B:R.346
ATP.4: 20 residues within 4Å:- Chain B: R.186, S.190, V.192, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, Q.360, M.364, P.393, A.394, Q.397
- Chain C: D.317, R.343, R.346
- Ligands: MG.3
20 PLIP interactions:4 interactions with chain C, 16 interactions with chain B- Salt bridges: C:R.343, C:R.343, C:R.343, C:R.346, B:K.236, B:K.236
- Hydrogen bonds: B:R.186, B:R.186, B:V.192, B:V.192, B:G.233, B:C.234, B:G.235, B:K.236, B:S.237, B:S.238, B:N.332, B:N.332, B:Q.360, B:Q.397
ATP.6: 20 residues within 4Å:- Chain C: R.186, S.190, V.192, L.193, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, M.364, P.393, A.394, Q.397
- Chain D: D.317, R.343, R.346
- Ligands: MG.5
19 PLIP interactions:15 interactions with chain C, 4 interactions with chain D- Hydrogen bonds: C:R.186, C:R.186, C:V.192, C:V.192, C:G.233, C:C.234, C:G.235, C:K.236, C:S.237, C:S.238, C:N.332, C:Q.360, C:Q.397
- Salt bridges: C:K.236, C:K.236, D:R.343, D:R.343, D:R.343, D:R.346
ATP.8: 19 residues within 4Å:- Chain D: R.186, V.192, L.193, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, M.364, P.393, A.394, Q.397
- Chain E: D.317, R.343, R.346
- Ligands: MG.7
19 PLIP interactions:15 interactions with chain D, 4 interactions with chain E- Hydrogen bonds: D:R.186, D:R.186, D:V.192, D:V.192, D:G.233, D:C.234, D:G.235, D:K.236, D:S.237, D:S.238, D:N.332, D:Q.360, D:Q.397
- Salt bridges: D:K.236, D:K.236, E:R.343, E:R.343, E:R.343, E:R.346
ATP.10: 21 residues within 4Å:- Chain E: R.186, S.190, V.192, L.193, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, M.364, P.393, A.394, Q.397
- Chain F: I.220, D.317, R.343, R.346
- Ligands: MG.9
20 PLIP interactions:16 interactions with chain E, 4 interactions with chain F- Hydrogen bonds: E:R.186, E:R.186, E:V.192, E:V.192, E:G.233, E:C.234, E:G.235, E:K.236, E:S.237, E:S.238, E:N.332, E:N.332, E:Q.360, E:Q.397
- Salt bridges: E:K.236, E:K.236, F:R.343, F:R.343, F:R.343, F:R.346
ATP.12: 19 residues within 4Å:- Chain F: R.186, S.190, V.192, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, M.364, P.393, A.394, Q.397
- Chain G: D.317, R.343, R.346
- Ligands: MG.11
20 PLIP interactions:16 interactions with chain F, 4 interactions with chain G- Hydrogen bonds: F:R.186, F:R.186, F:V.192, F:V.192, F:G.233, F:C.234, F:G.235, F:K.236, F:S.237, F:S.238, F:N.332, F:N.332, F:Q.360, F:Q.397
- Salt bridges: F:K.236, F:K.236, G:R.343, G:R.343, G:R.343, G:R.346
ATP.14: 20 residues within 4Å:- Chain A: D.317, R.343, R.346
- Chain G: R.186, S.190, V.192, L.193, P.232, G.233, C.234, G.235, K.236, S.237, S.238, N.332, M.364, P.393, A.394, Q.397
- Ligands: MG.13
19 PLIP interactions:15 interactions with chain G, 4 interactions with chain A- Hydrogen bonds: G:R.186, G:R.186, G:V.192, G:V.192, G:G.233, G:C.234, G:G.235, G:K.236, G:S.237, G:S.238, G:N.332, G:Q.360, G:Q.397
- Salt bridges: G:K.236, G:K.236, A:R.343, A:R.343, A:R.343, A:R.346
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Zhan, J. et al., Conformations of Bcs1L undergoing ATP hydrolysis suggest a concerted translocation mechanism for folded iron-sulfur protein substrate. Nat Commun (2024)
- Release Date
- 2024-06-05
- Peptides
- Mitochondrial chaperone BCS1: ABCDEFG
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
BC
CD
DE
EF
FG
G
- Coordinates
- PDB Format
- Method
- ELECTRON MICROSCOPY
- Oligo State
- homo-heptamer
- Ligands
- 7 x MG: MAGNESIUM ION(Non-covalent)
- 7 x ATP: ADENOSINE-5'-TRIPHOSPHATE(Non-covalent)
- Links
- RCSB PDBe PDBe-KB PDBj PDBsum CATH PLIP
- Citation
- Zhan, J. et al., Conformations of Bcs1L undergoing ATP hydrolysis suggest a concerted translocation mechanism for folded iron-sulfur protein substrate. Nat Commun (2024)
- Release Date
- 2024-06-05
- Peptides
- Mitochondrial chaperone BCS1: ABCDEFG
- SMTL:PDB
- SMTL Chain Id:
PDB Chain Id:A
AB
BC
CD
DE
EF
FG
G