The structure and dynamics of rat apo-cellular retinol-binding protein II in solution: comparison with the X-ray structure.Lu, J., Lin, C.L., Tang, C., Ponder, J.W., Kao, J.L., Cistola, D.P., Li, E.
(1999) J.Mol.Biol. 286: 1179-1195
- PubMed: 10047490
- DOI: 10.1006/jmbi.1999.2544
- PubMed Abstract:
- Lipid-Binding Proteins: A Family of Fatty Acid and Retinoid Transport Proteins
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Hodsdon, M.E.,Cistola, D.P.
(1997) Biochemistry 36: 2278
- Crystal Structures of Holo and Apo-Cellular Retinol-Binding Protein II
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(1993) J.Mol.Biol. 230: 1247
- The NMR Solution Structure of Intestinal Fatty Acid-Binding Protein Complexed with Palmitate: Application of a Novel Distance Geometry Algorithm
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The structure and dynamics of rat apo-cellular retinol binding protein II (apo-CRBP II) in solution has been determined by multidimensional NMR analysis of uniformly enriched recombinant rat 13C, 15N-apo-CRBP II and 15N-apo-CRBP II. The final ensembl ...
The structure and dynamics of rat apo-cellular retinol binding protein II (apo-CRBP II) in solution has been determined by multidimensional NMR analysis of uniformly enriched recombinant rat 13C, 15N-apo-CRBP II and 15N-apo-CRBP II. The final ensemble of 24 NMR structures has been calculated from 3274 conformational restraints or 24.4 restraints/residue. The average root-mean-square deviation of the backbone atoms for the final 24 structures relative to their mean structure is 1.06 A. Although the average solution structure is very similar to the crystal structure, it differs at the putative entrance to the binding cavity, which is formed by the helix-turn-helix motif, the betaC-betaD turn and the betaE-betaF turn. The mean coordinates of the main-chain atoms of amino acid residues 28-38 are displaced in the solution structure relative to the crystal structure. The side-chain of F58, located on the betaC-betaD turn, is reoriented such that it interacts with L37 and no longer blocks entry into the ligand-binding pocket. Residues 28-35, which form the second helix of the helix-turn-helix motif in the crystal structure, do not exhibit a helical conformation in the solution structure. The solution structure of apo-CRBP II exhibits discrete regions of backbone disorder which are most pronounced at residues 28-32, 37-38 and 73-76 in the betaE-betaF turn as evaluated by the consensus chemical shift index, the root-mean-square deviation, amide 1H exchange rates and 15N relaxation studies. These studies indicate that fluctuations in protein conformation occur on the microseconds to ms time-scale in these regions of the protein. Some of these exchange processes can be directly observed in the three-dimensional 15N-resolved NOESY spectrum. These results suggest that in solution, apo-CRBP II undergoes conformational changes on the microseconds to ms time-scale which result in increased access to the binding cavity.
Department of Internal Medicine, Washington University School of Medicine, St. Louis, MO 63110, USA.