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3.A.1.13.1
Vitamin B12 porter. The 3-D structure of BtuCDF has been solved to 2.6 Å (Hvorup et al., 2007). The conformational transition pathways of BtuCD has been revealed by targeted molecular dynamics simulations (Weng et al., 2012). Asymmetric states of BtuCD are not discriminated by its cognate substrate binding protein BtuF (Korkhov et al., 2012).  ATP hydrolysis occurs at the nucleotide-binding domain (NBD) dimer interface, whereas substrate translocation takes place at the translocation pathway between the TM subunits, which is more than 30 angstroms away from the NBD dimer interface.  Hydrolysis of ATP appears to facilitate substrate translocation by opening the cytoplasmic end of translocation pathway (Pan et al. 2016). The molecular mechanism of ATP hydrolysis by BtuCD-F may proceeds in a stepwise manner (Prieß et al. 2018). First, nucleophilic attack of an activated lytic water molecule at the ATP gamma-phosphate yields ADP + HPO42-. A conserved glutamate located close to the gamma-phosphate transiently accepts a proton acting as a catalytic base. In the second step, the proton transfers back from the catalytic base to the gamma-phosphate, yielding ADP + H2PO4-. These two reaction steps are followed by rearrangements of the hydrogen bond network and the coordination of the Mg2+ ion. The overall free energy change of the reaction is close to zero, suggesting that ATP binding is essential for tight dimerization of the nucleotide-binding domains and the transition of the transmembrane domains from inward- to outward-facing. ATP hydrolysis resets the conformational cycle (Prieß et al. 2018).

Accession Number:Q8ZRP7
Protein Name:Vitamin B12-binding protein
Length:266
Molecular Weight:29284.00
Species: [90371]
Number of TMSs:1
Location1 / Topology2 / Orientation3: Periplasm1
Substrate cyanocob(III)alamin

Cross database links:

RefSeq: NP_459211.1   
Entrez Gene ID: 1251724   
Pfam: PF01497   
BioCyc: STYP99287:STM0206-MONOMER   
KEGG: stm:STM0206   

Gene Ontology

GO:0042597 C:periplasmic space
GO:0005381 F:iron ion transmembrane transporter activity
GO:0015889 P:cobalamin transport
GO:0006827 P:high-affinity iron ion transport

References (2)

[1] “A new class of cobalamin transport mutants (btuF) provides genetic evidence for a periplasmic binding protein in Salmonella typhimurium.”  Van Bibber M.et.al.   10464235
[2] “Complete genome sequence of Salmonella enterica serovar Typhimurium LT2.”  McClelland M.et.al.   11677609

External Searches:

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Predict TMSs (Predict number of transmembrane segments)
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FASTA formatted sequence
1:	MAKQMFRALV ALLLTLPVWL YAAPRVITLS PANTELAFAA GITPVGVSSY SDYPPEAQKI 
61:	EQVSTWQGMN LERIVALKPD LVVAWRGGNA ERQVNQLTSL GIKVMWVDAV TIEQIADTLR 
121:	QLAAWSPQPE KAQQAAQTLL NEYAALNAEY AGKAKKRVFL QFGMNPLFTS GKGSIQHQVL 
181:	TTCGGENVFA DSRVPWPQVS REQVLARHPQ AIIVAGKAGE ILKIEQYWGN LLKIPVIPLN 
241:	SDWFERASPR IILAAKQLCN ALSQVN