Structure of PDB 6tz8 Chain E Binding Site BS04

Receptor Information
>6tz8 Chain E (length=174) Species: 235443 (Cryptococcus neoformans var. grubii H99) [Search protein sequence] [Download receptor structure] [Download structure with residue number starting from 1] [View receptor structure]
GAAESSMFNSLEKNSNFSGPELMRLKKRFMKLDKDGSGSIDKDEFLQIPQ
IANNPLAHRMIAIFDEDGSGTVDFQEFVGGLSAFSSKGGRDEKLRFAFKV
YDMDRDGYISNGELYLVLKQMVGNNLKDQQLQQIVDKTIMEADKDGDGKL
SFEEFTQMVASTDIVKQMTLEDLF
Ligand information
Ligand IDCA
InChIInChI=1S/Ca/q+2
InChIKeyBHPQYMZQTOCNFJ-UHFFFAOYSA-N
SMILES
SoftwareSMILES
CACTVS 3.341[Ca++]
ACDLabs 10.04
OpenEye OEToolkits 1.5.0
[Ca+2]
FormulaCa
NameCALCIUM ION
ChEMBL
DrugBankDB14577
ZINC
PDB chain6tz8 Chain E Residue 303 [Download ligand structure] [Download structure with residue number starting from 1] [View ligand structure]
Receptor-Ligand Complex Structure
Global viewLocal viewStructure 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]
PDB6tz8 Harnessing calcineurin-FK506-FKBP12 crystal structures from invasive fungal pathogens to develop antifungal agents.
Resolution3.3 Å
Binding residue
(original residue number in PDB)
D144 D146 D148 K150 E155
Binding residue
(residue number reindexed from 1)
D143 D145 D147 K149 E154
Annotation score4
Enzymatic activity
Enzyme Commision number ?
Gene Ontology
Molecular Function
GO:0005509 calcium ion binding
GO:0005515 protein binding
GO:0008597 calcium-dependent protein serine/threonine phosphatase regulator activity
GO:0019902 phosphatase binding
GO:0046872 metal ion binding
Biological Process
GO:0006470 protein dephosphorylation
GO:0097720 calcineurin-mediated signaling
Cellular Component
GO:0005955 calcineurin complex

View graph for
Molecular Function

View graph for
Biological Process

View graph for
Cellular Component
External links
PDB RCSB:6tz8, PDBe:6tz8, PDBj:6tz8
PDBsum6tz8
PubMed31537789
UniProtJ9VL81

[Back to BioLiP]