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Nuclear magnetic resonance biological macromolecules

A field of application of MD that is beginning to bear fruit is the refinement of data from nuclear magnetic resonance (NMR) and from diffraction experiments. High-resolution NMR at frequencies around 500 MHz is able to resolve individual proton resonances of biological macromolecules in solution with molecular weights exceeding 10,000... [Pg.112]

Volume 338. Nuclear Magnetic Resonance of Biological Macromolecules (Part A) Edited by Thomas L. James, Volker Dotsch, and Uli Schmitz... [Pg.32]

Volume 338. Nuclear Magnetic Resonance of Biological Macromolecules (Part A)... [Pg.605]

Mayer, M., and James, T. L. (2005). Discovery of ligands by a combination of computational and NMR-based screening RNA as an example target. In Nuclear Magnetic Resonance of Biological Macromolecules, Part C, Methods in Enzymology, 394, 571-587 Ed. Thomas L. James. [Pg.31]

Jeffrey C. Hoch, Flemming M. Poulsen, and Christina Redfield, Computational Aspects of the Study of Biological Macromolecules by Nuclear Magnetic Resonance Spectroscopy, Proceedings of a NATO Advanced Research Workshop on Computational Aspects of the Study of Biological Macromolecules by Nuclear Magnetic Resonance Spectroscopy, held June 13-18, 1990, in 11 Ciocco, Italy, in NATO ASI Series, Ser. A Life Sciences, Vol. 225, Plenum, New York, 1991. [Pg.292]

In fact, a tremendous amount of information is available on the structures of biological macromolecules descriptions of structures of proteins and nucleic acids make up major portions of modern textbooks in biochemistry and molecular biology. The Protein Data Bank and the Nucleic Acid Database are online archives that contain sequence and structural data on thousands of specific molecules and complexes of molecules. This structural information comes from in vitro experiments, with structures inferred from the x-ray diffraction patterns of crystallized molecules, spectroscopic measurements using multi-dimensional nuclear magnetic resonance, and a host of other methodologies. [Pg.240]

Palmer, A. G., 3rd, Kroenke, C. D., and Loria, J. P. (2001). Nuclear magnetic resonance methods for quantifying microsecond-to-miUisecond motions in biological macromolecules. Methods Enzymol. 339, 204-238. [Pg.347]

The study of biological macromolecules by nuclear magnetic resonance (NMR) spectroscopy has been greatly expanded with the use of isotopic labeling (51). [Pg.118]

For his development of nuclear magnetic resonance spectroscopy for determining the three-dimensional structure of biological macromolecules in solution. ... [Pg.320]

R577 G. Wider, Structure Determination of Biological Macromolecules in Solution Using Nuclear Magnetic Resonance Spectroscopy , BioTechni-ques, 2000, 29, 1278... [Pg.39]

Wider, G. (2000). Structure determination of biological macromolecules in solution using nuclear magnetic resonance spectroscopy. Biotechniques, 6, 1278-1282. [Pg.68]

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