Nuclear receptor ligand-binding domains: reduction of helix H12 dynamics to favour crystallization

Nuclear receptor ligand-binding domains: reduction of helix H12 dynamics to favour crystallization

Crystallization trials of the human retinoid X receptor alpha ligand-binding domain (RXRalpha LBD) in complex with various ligands have been carried out. Using fluorescence anisotropy, it has been found that when compared with agonists these small-molecule effectors enhance the dynamics of the RXRal...

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Veröffentlicht in:Acta crystallographica. Section F, Structural biology communications Structural biology communications, 2008-07, Vol.64 (Pt 7), p.614-6
Hauptverfasser: Nahoum, Virginie, Lipski, Alexandra, Quillard, Fabien, Guichou, Jean François, Boublik, Yvan, Pérez, Efrèn, Germain, Pierre, de Lera, Angel R., Bourguet, William
Format: Artikel
Sprache:eng
Schlagworte:
Binding Sites
Biochemistry, Molecular Biology
Crystallization
Fluorescence Polarization
Fluorescent Dyes
Humans
Life Sciences
Ligands
Predictive Value of Tests
Protein Binding
Protein Structure, Secondary
Protein Structure, Tertiary
Receptors, Cytoplasmic and Nuclear
Retinoid X Receptor alpha
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Zusammenfassung:Crystallization trials of the human retinoid X receptor alpha ligand-binding domain (RXRalpha LBD) in complex with various ligands have been carried out. Using fluorescence anisotropy, it has been found that when compared with agonists these small-molecule effectors enhance the dynamics of the RXRalpha LBD C-terminal helix H12. In some cases, the mobility of this helix could be dramatically reduced by the addition of a 13-residue co-activator fragment (CoA). In keeping with these observations, crystals have been obtained of the corresponding ternary RXRalpha LBD-ligand-CoA complexes. In contrast, attempts to crystallize complexes with a highly mobile H12 remained unsuccessful. These experimental observations substantiate the previously recognized role of co-regulator fragments in facilitating the crystallization of nuclear receptor LBDs.
ISSN:2053-230X
2053-230X
DOI:10.1107/S1744309108015492