4DBL image
Deposition Date 2012-01-16
Release Date 2012-03-07
Last Version Date 2024-10-30
Entry Detail
PDB ID:
4DBL
Keywords:
TRANSPORT PROTEIN
Title:
Crystal structure of E159Q mutant of BtuCDF
Biological Source:
Source Organism:
Escherichia coli (Taxon ID: 83333)
Host Organism:
Escherichia coli
Method Details:
Experimental Method:
X-RAY DIFFRACTION
Resolution:
3.49 Å
R-Value Free:
0.25
R-Value Work:
0.21
R-Value Observed:
0.21
Space Group:
P 1 21 1
4DBL validation report
Macromolecular Entities
Structures with similar UniProt ID
Protein Blast
Polymer Type:polypeptide(L)
Molecule:Vitamin B12 import system permease protein BtuC
Gene (Uniprot):btuC
Mutagens:C18S, C32S, C120S, C156S, C205S, C206S, C267S
Chain IDs:A, B, F, G
Chain Length:349
Number of Molecules:4
Biological Source:Escherichia coli
UniProt ID:P06609 Pfam ID:PF01032 EC:7.6.2.8
Structures with similar UniProt ID
Protein Blast
Polymer Type:polypeptide(L)
Molecule:Vitamin B12 import ATP-binding protein BtuD
Gene (Uniprot):btuD
Mutagens:C180S
Chain IDs:C, D, H, I
Chain Length:249
Number of Molecules:4
Biological Source:Escherichia coli
UniProt ID:P06611 Pfam ID:PF00005 EC:7.6.2.8
Structures with similar UniProt ID
Protein Blast
Polymer Type:polypeptide(L)
Molecule:Vitamin B12-binding protein
Gene (Uniprot):btuF
Chain IDs:E, J
Chain Length:255
Number of Molecules:2
Biological Source:Escherichia coli
UniProt ID:P37028 Pfam ID:PF01497 EC:7.6.2.8
Ligand Molecules
PO4
SO4
Primary Citation
Asymmetric states of vitamin B12 transporter BtuCD are not discriminated by its cognate substrate binding protein BtuF.
Febs Lett. 586 972 976 (2012)
PMID: 22569249 DOI: 10.1016/j.febslet.2012.02.042

Abstact

BtuCD is an ABC transporter catalyzing the uptake of vitamin B₁₂ across the Escherichia coli inner membrane. A previously reported X-ray structure of BtuCD in complex with the periplasmic vitamin B₁₂-binding protein BtuF revealed asymmetry of the transmembrane BtuC subunits. The functional relevance of this asymmetry has remained uncertain. Here we report the X-ray structure of a catalytically impaired BtuCD mutant in complex with BtuF, where the BtuC subunits adopt a distinct asymmetric conformation. The structure suggests that BtuF does not discriminate between, or impose, asymmetric conformations of BtuCD. It also explains the conformational disorder observed in BtuCDF crystals.

Legend

Protein

Chemical

Disease

Primary Citation of related structures
4DBL
Feedback Form
Name
Email
Institute
Feedback