2nne Summary


The Structural Identification of the Interaction Site and Functional State of RBP for its Membrane Receptor

The structure was published by Redondo, C., Vouropoulou, M., Evans, J., and Findlay, J.B., in 2008 in a paper entitled "Identification of the retinol-binding protein (RBP) interaction site and functional state of RBPs for the membrane receptor." (abstract).

This crystal structure was determined using X-ray diffraction at a resolution of 1.6 Å and deposited in 2006.

The experimental data on which the structure is based was also deposited.

The PDB entry contains the structure of Major urinary protein 2. This molecule has the UniProt identifier P02762 (MUP6_MOUSE)search. The sample contained 178 residues which is < 90% of the natural sequence. Out of 178 residues 148 were observed and are deposited in the PDB.

It also contains one or more heterogenic compounds (e.g., ligands, co-factors, ions, modified amino acids, etc.); see here for a complete list.

The molecule is most likely monomeric.

The following tables show cross-reference information to other databases (to obtain a list of all PDB entries sharing the same property or classification, click on the magnifying glass icon):

Chain Name UniProt Name of source organism % of UniProt sequence present in the sample Residues in the sample molecules % of residues observed
A Major urinary protein 2 P02762 (19-75) (MUP6_MOUSE)search ,
P02762 (82-180) (MUP6_MOUSE)search
Mus musculussearch ,
Mus musculussearch
100% ,
178 83%

This entry contains 1 unique UniProt protein:

UniProt accession Name Organism PDB
P02762 (19 - 75) Major urinary protein 2 Mus musculus

Chain Structural classification (CATH) Sequence family (Pfam)
A (P11589)

Chain ID Molecular function (GO) Biological process (GO)
A (P02762) small molecule bindingsearch transporter activitysearch pheromone bindingsearch transportsearch

Chain InterPro annotation
A Lipocalin/cytosolic fatty-acid binding domainsearch Lipocalinsearch Major urinary proteinsearch Calycin-likesearch Calycinsearch Lipocalin family conserved sitesearch