1. Structure and characterization of a novel chicken biotin-binding protein A (BBP-A)
- Author
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Vesa P. Hytönen, Olli H. Laitinen, Kari Rissanen, Mark S. Johnson, Juha A. E. Määttä, Juhani Huuskonen, Kaisa Helttunen, Henri R. Nordlund, Tomi T. Airenne, Katrin K. Halling, Tiina A. Salminen, Einari A. Niskanen, and Markku S. Kulomaa
- Subjects
Biotin binding ,Protein Conformation ,Sequence (biology) ,Solvent Accessible Surface Area ,ENCODE ,Genome ,Protein structure ,X-Ray Diffraction ,Structural Biology ,Protein Data Bank ,Dissociation Rate ,Mutation A74S ,Subunit Interface ,Animals ,Nanotechnology ,Gene ,lcsh:QH301-705.5 ,biology ,Avidin ,Molecular biology ,Biochemistry ,lcsh:Biology (General) ,biology.protein ,Protein A ,Carrier Proteins ,Crystallization ,Chickens ,Research Article - Abstract
Background The chicken genome contains a BBP-A gene showing similar characteristics to avidin family genes. In a previous study we reported that the BBP-A gene may encode a biotin-binding protein due to the high sequence similarity with chicken avidin, especially at regions encoding residues known to be located at the ligand-binding site of avidin. Results Here, we expand the repertoire of known macromolecular biotin binders by reporting a novel biotin-binding protein A (BBP-A) from chicken. The BBP-A recombinant protein was expressed using two different expression systems and purified with affinity chromatography, biochemically characterized and two X-ray structures were solved – in complex with D-biotin (BTN) and in complex with D-biotin D-sulfoxide (BSO). The BBP-A protein binds free biotin with high, "streptavidin-like" affinity (Kd ~ 10-13 M), which is about 50 times lower than that of chicken avidin. Surprisingly, the affinity of BBP-A for BSO is even higher than the affinity for BTN. Furthermore, the solved structures of the BBP-A – BTN and BBP-A – BSO complexes, which share the fold with the members of the avidin and lipocalin protein families, are extremely similar to each other. Conclusion BBP-A is an avidin-like protein having a β-barrel fold and high affinity towards BTN. However, BBP-A differs from the other known members of the avidin protein family in thermal stability and immunological properties. BBP-A also has a unique ligand-binding property, the ability to bind BTN and BSO at comparable affinities. BBP-A may have use as a novel material in, e.g. modern bio(nano)technological applications., BMC Structural Biology, 7, ISSN:1472-6807
- Published
- 2007