Structure of PDB 5ulw Chain A Binding Site BS04
Receptor Information
>5ulw Chain A (length=373) Species:
9606
(Homo sapiens) [
Search protein sequence
] [
Download receptor structure
] [
Download structure with residue number starting from 1
] [
View receptor structure
]
SSRVIVHVDLDCFYAQVEMISNPELKDKPLGVQQKYLVVTCNYEARKLGV
KKLMNVRDAKEKCPQLVLVNGEDLTRYREMSYKVTELLEEFSPVVERLGF
DENFVDLTEMVEKRLQQLQSDELSAVTVSGHVYNNQSINLLDVLHIRLLV
GSQIAAEMREAMYNQLGLTGCAGVASNKLLAKLVSGVFKPNQQTVLLPES
CQHLIHSLNHIKEIPGIGYKTAKCLEALGINSVRDLQTFSPKILEKELGI
SVAQRIQKLSFGEDNSPVILSGPPQSFSEEDSFKKCSSEVEAKNKIEELL
ASLLNRVCQDGRKPHTVRLIIRRYSGRESRQCPIPSHVIQKDVMTPMVDI
LMKLFRNMVNVLTLLSVCFCNLK
Ligand information
Ligand ID
MG
InChI
InChI=1S/Mg/q+2
InChIKey
JLVVSXFLKOJNIY-UHFFFAOYSA-N
SMILES
Software
SMILES
ACDLabs 10.04
OpenEye OEToolkits 1.5.0
[Mg+2]
CACTVS 3.341
[Mg++]
Formula
Mg
Name
MAGNESIUM ION
ChEMBL
DrugBank
DB01378
ZINC
PDB chain
5ulw Chain A Residue 502 [
Download ligand structure
] [
Download structure with residue number starting from 1
] [
View ligand structure
]
Receptor-Ligand Complex Structure
Global view
Local view
Structure summary
[
Spin on
] [
Spin off
] [
Reset
]
[
High quality
] [
Low quality
]
[
White background
] [
Black background
]
[
Spin on
] [
Spin off
] [
Reset
]
[
High quality
] [
Low quality
]
[
White background
] [
Black background
]
PDB
5ulw
Mechanism of error-free DNA synthesis across N1-methyl-deoxyadenosine by human DNA polymerase-iota.
Resolution
2.617 Å
Binding residue
(original residue number in PDB)
D34 L35 D126
Binding residue
(residue number reindexed from 1)
D9 L10 D101
Annotation score
1
Enzymatic activity
Enzyme Commision number
2.7.7.7
: DNA-directed DNA polymerase.
Gene Ontology
Molecular Function
GO:0003684
damaged DNA binding
GO:0003887
DNA-directed DNA polymerase activity
Biological Process
GO:0006281
DNA repair
View graph for
Molecular Function
View graph for
Biological Process
External links
PDB
RCSB:5ulw
,
PDBe:5ulw
,
PDBj:5ulw
PDBsum
5ulw
PubMed
28272441
UniProt
Q9UNA4
|POLI_HUMAN DNA polymerase iota (Gene Name=POLI)
[
Back to BioLiP
]