Model-Free Approach to the Dynamic Interpretation of Residual Dipolar Couplings in Globular Proteins
- 26 May 2001
- journal article
- research article
- Published by American Chemical Society (ACS) in Journal of the American Chemical Society
- Vol. 123 (25) , 6098-6107
- https://doi.org/10.1021/ja010002z
Abstract
The effects of internal motions on residual dipolar NMR couplings of proteins partially aligned in a liquid-crystalline environment are analyzed using a 10 ns molecular dynamics (MD) computer simulation of ubiquitin. For a set of alignment tensors with different orientations and rhombicities, MD-averaged dipolar couplings are determined and subsequently interpreted for different scenarios in terms of effective alignment tensors, average orientations of dipolar vectors, and intramolecular reorientational vector distributions. Analytical relationships are derived that reflect similarities and differences between motional scaling of dipolar couplings and scaling of dipolar relaxation data (NMR order parameters). Application of the self-consistent procedure presented here to dipolar coupling measurements of biomolecules aligned in different liquid-crystalline media should allow one to extract in a “model-free” way average orientations of dipolar vectors and specific aspects of their motions.Keywords
This publication has 38 references indexed in Scilit:
- Global Structure of RNA Determined with Residual Dipolar CouplingsJournal of the American Chemical Society, 2000
- Prediction of Sterically Induced Alignment in a Dilute Liquid Crystalline Phase: Aid to Protein Structure Determination by NMRJournal of the American Chemical Society, 2000
- Orienting domains in proteins using dipolar couplings measured by liquid-state NMR: differences in solution and crystal forms of maltodextrin binding protein loaded with β-cyclodextrinJournal of Molecular Biology, 2000
- The use of dipolar couplings for determining the solution structure of rat apo‐S100B(ββ)Protein Science, 1999
- Observation of Long-Range 1H−1H Distances in Solution by Dipolar Coupling InteractionsJournal of the American Chemical Society, 1998
- A Robust Method for Determining the Magnitude of the Fully Asymmetric Alignment Tensor of Oriented Macromolecules in the Absence of Structural InformationJournal of Magnetic Resonance, 1998
- All-Atom Empirical Potential for Molecular Modeling and Dynamics Studies of ProteinsThe Journal of Physical Chemistry B, 1998
- Long-Range Motional Restrictions in a Multidomain Zinc-Finger Protein from Anisotropic TumblingScience, 1995
- Structure of ubiquitin refined at 1.8 Å resolutionJournal of Molecular Biology, 1987
- CHARMM: A program for macromolecular energy, minimization, and dynamics calculationsJournal of Computational Chemistry, 1983