Net magnetic susceptibility anisotropy of a protein causes its non- random distribution when an isotropic solution is placed in a strong magnetic field. New methods have been developed for measurement of the small dipolar couplings which result from the small degree of alignment with the magnetic field. Even for small diamagnetic proteins the dipolar couplings potentially yield useful constraints for structure calculation and/or validation. Other significant developments, related to macromolecular structure determination by NMR, include the first experimental determination of a fully asymmetric rotational diffusion tensor, carried out for the HIV protease homodimer, and an experimental correlation between hydrogen bond length and the backbone amide deuteron quadrupole coupling. This latter experiment also represents the first time that backbone amide deuteron quadrupole couplings have been measured in a protein. The structure of the HIV-a accessory protein Nef has been determined by multi-dimensional heteronuclear NMR. Structure determination involved a number of non-standard elements, including the use of perdeuteration of non-exchangeable hydrogens, which yielded a protein fold and suggested mutations for reducing protein aggregation. Standard experiments on the less-aggregating form of the protein then yielded a low-resolution three-dimensional structure. Nef binds with submicromolar affinity to Hck SH3, and the interaction surface was determined on the basis of chemical shift perturbation. This interaction represents the first example of an SH3 domain interacting with more than a single (proline-rich) epitope. Similar experiments were used for identification of a specific, albeit low affinity (Kd about 1mM), binding site for a peptide fragment of the cytosolic N- terminal domain of CD4. Binding of Nef to the CD4 peptide and the Hck SH# are weakly cooperative events.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Intramural Research (Z01)
Project #
1Z01DK029020-12
Application #
2572976
Study Section
Special Emphasis Panel (LCP)
Project Start
Project End
Budget Start
Budget End
Support Year
12
Fiscal Year
1996
Total Cost
Indirect Cost
City
State
Country
United States
Zip Code
Lee, Jung Ho; Ying, Jinfa; Bax, Ad (2016) Quantitative evaluation of positive ? angle propensity in flexible regions of proteins from three-bond J couplings. Phys Chem Chem Phys 18:5759-70
Vogeli, Beat; Yao, Lishan; Bax, Ad (2008) Protein backbone motions viewed by intraresidue and sequential HN-Halpha residual dipolar couplings. J Biomol NMR 41:17-28
Chill, Jordan H; Louis, John M; Delaglio, Frank et al. (2007) Local and global structure of the monomeric subunit of the potassium channel KcsA probed by NMR. Biochim Biophys Acta 1768:3260-70
Ying, Jinfa; Chill, Jordan H; Louis, John M et al. (2007) Mixed-time parallel evolution in multiple quantum NMR experiments: sensitivity and resolution enhancement in heteronuclear NMR. J Biomol NMR 37:195-204
Dam, Julie; Baber, James; Grishaev, Alexander et al. (2006) Variable dimerization of the Ly49A natural killer cell receptor results in differential engagement of its MHC class I ligand. J Mol Biol 362:102-13
Grishaev, Alexander; Ying, Jinfa; Bax, Ad (2006) Pseudo-CSA restraints for NMR refinement of nucleic acid structure. J Am Chem Soc 128:10010-1
Ying, Jinfa; Grishaev, Alexander; Bryce, David L et al. (2006) Chemical shift tensors of protonated base carbons in helical RNA and DNA from NMR relaxation and liquid crystal measurements. J Am Chem Soc 128:11443-54
Ying, Jinfa; Bax, Ad (2006) 2'-hydroxyl proton positions in helical RNA from simultaneously measured heteronuclear scalar couplings and NOEs. J Am Chem Soc 128:8372-3
Chill, Jordan H; Louis, John M; Miller, Christopher et al. (2006) NMR study of the tetrameric KcsA potassium channel in detergent micelles. Protein Sci 15:684-98
Ying, Jinfa; Grishaev, Alexander; Bax, Ad (2006) Carbon-13 chemical shift anisotropy in DNA bases from field dependence of solution NMR relaxation rates. Magn Reson Chem 44:302-10

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