6OLJ
CryoEM structure of PilB from Geobacter metallireducens: C2ccocco conformation
This is a non-PDB format compatible entry.
Functional Information from GO Data
Chain | GOid | namespace | contents |
A | 0000166 | molecular_function | nucleotide binding |
A | 0005737 | cellular_component | cytoplasm |
A | 0009297 | biological_process | pilus assembly |
A | 0016887 | molecular_function | ATP hydrolysis activity |
A | 0046872 | molecular_function | metal ion binding |
B | 0000166 | molecular_function | nucleotide binding |
B | 0005737 | cellular_component | cytoplasm |
B | 0009297 | biological_process | pilus assembly |
B | 0016887 | molecular_function | ATP hydrolysis activity |
B | 0046872 | molecular_function | metal ion binding |
C | 0000166 | molecular_function | nucleotide binding |
C | 0005737 | cellular_component | cytoplasm |
C | 0009297 | biological_process | pilus assembly |
C | 0016887 | molecular_function | ATP hydrolysis activity |
C | 0046872 | molecular_function | metal ion binding |
D | 0000166 | molecular_function | nucleotide binding |
D | 0005737 | cellular_component | cytoplasm |
D | 0009297 | biological_process | pilus assembly |
D | 0016887 | molecular_function | ATP hydrolysis activity |
D | 0046872 | molecular_function | metal ion binding |
E | 0000166 | molecular_function | nucleotide binding |
E | 0005737 | cellular_component | cytoplasm |
E | 0009297 | biological_process | pilus assembly |
E | 0016887 | molecular_function | ATP hydrolysis activity |
E | 0046872 | molecular_function | metal ion binding |
F | 0000166 | molecular_function | nucleotide binding |
F | 0005737 | cellular_component | cytoplasm |
F | 0009297 | biological_process | pilus assembly |
F | 0016887 | molecular_function | ATP hydrolysis activity |
F | 0046872 | molecular_function | metal ion binding |
Functional Information from PROSITE/UniProt
site_id | PS00662 |
Number of Residues | 15 |
Details | T2SP_E Bacterial type II secretion system protein E signature. LRqdPDiIMIGEIRD |
Chain | Residue | Details |
C | LEU384-ASP398 |