Journal of Molecular Biology
Volume 252, Issue 4, 29 September 1995, Pages 433-446
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Crystal Structure of Cellular Retinoic Acid Binding Protein I Shows Increased Access to the Binding Cavity due to Formation of an Intermolecular β-Sheet

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Abstract

A recombinant form of murine apo-cellular retinoic acid binding protein I (apo-CRABPI) has been purified and crystallized at pH 5.0, and the crystal structure has been refined to anR-factor of 19.6% at a resolution of 2.7 Å. CRABPI binds all-transretinoic acid and some retinoic acid metabolites with nanomolar affinities. Coordinates of the holo form of CRABP were not available during the early stages of the study, and in spite of numerous homologs of known structure, phases were not obtainable through molecular replacement. Instead, an interpretable electron density map was obtained by multple isomorphous replacement methods after improvement of the heavy-atom parameters with density modified trial phases. Two molecules of apo-CRABPI occupy theP3121 asymmetric unit and are related by pseudo 2-fold rotational symmetry. Unique conformational differences are apparent between the two molecules. IN all of the family members studied to date, there is a lack of hydrogen bonds between two of the component β-strands resulting in a gap in the interstand hydrogen bonding pattern. In the crystallographic dimer described here, a continuous intermolecular β-sheet is formed by using this gap region. This is possible because of an 8 Å outward maximum displacement of the tight turn between the third and fourth β-strands on one of the molecules. The result is a double β-barrel containing two apo-CRABPI molecules with a more open, ligand-accessible binding cavity, which has not been observed in other structures of a family of proteins that bind hydrophobic ligands.

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