Nuclear magnetic resonance spectroscopic studies

S. 11.2.2 Nuclear Magnetic Resonance Spectroscopic Studies S. 11.2.3 Infrared Spectroscopic Studies... [Pg.299]

Al-Sa ady, A.K.H., Moss, K., McAuliffe, C.A. and Parish, R.V. (1984) Mossbauer and nuclear magnetic resonance spectroscopic studies on Myocrisin , Solganol , Auranofin , and related gold (I) thiolates. Journal of the Chemical Society, Dalton Transactions, (8), 1609-1616. [Pg.311]

Lin, S.-T., Ding, M.-R, Ghang, C.-W. et al.. Nuclear magnetic resonance spectroscopic study on ionic liquids of l-alkyl-3-methylimidazolium salts. Tetrahedron, 60, 9441,2004. [Pg.368]

J. Forbes, C. Husted and E. Oldfield, High-field, high-resolution magic-angle samplespinning nuclear magnetic resonance spectroscopic studies of gel and liquid crystalline lipid bilayers and the effects of cholesterol, J. Am. Chem. Soc., 1988, 110, 1059-1065. [Pg.288]

Cass, A. E. G., Hill, H. A. O. Anion binding to copper(I) superoxide dismutase A high resolution H nuclear magnetic resonance spectroscopic study. In Chemical and Biochemical Aspects of Superoxide and Superoxide Dismutase (Bannister, J. V., Hill, H. A, O., eds.). New York-Amsterdam-Oxford, Elsevier/North-Holland, 1980, pp. 290-298... [Pg.29]

Larger oligopeptide hormones are also stabilized by such interactions. A nuclear magnetic resonance spectroscopic study of somatostatin by Hirschmann and co-workers (Arison et al., 1981) revealed that the side chains of phenylalanine-6 and phenylalanine-11 make the edge-to-face aromatic-aromatic interaction. Synthetic studies have shown that elimination of one or both of the aromatic groups at positions 6 and 11 abolishes biological activity. However, there is one notable exception. When... [Pg.168]

Forbes J, Bowers J, Shan X, Moran L, Oldfield E, Moscarello MA, Some new developments in solid-state nuclear magnetic resonance spectroscopic studies of lipids and biological membranes, including the effects of cholesterol in model and natural systems, /. Chem. Soc. Faraday Trans., 84 3821-3849, 1988. [Pg.311]

Timken, K. C., S. E. Schramm, R. J. Kirkpatrick, and E. Oldfield (1987). Solid-state oxygen-17 nuclear magnetic resonance spectroscopic studies of alkaline earth metasilicates. J. Phys. Chem. 91, 1054-58. [Pg.500]

Li, S. Purdy, W.C. Circular dichroism, ultraviolet, and proton nuclear magnetic resonance spectroscopic studies of the chiral recognition mechanism of P-cyclodextrin. Anal. Chem. 1992, 64 (13), 1405-1412. [Pg.691]

Baltisberger JH, Xu Z, Stebbins JF, Wang SH, Pines A (1996) Triple-quantum two-dimensional Al magic-angle spinning nuclear magnetic resonance spectroscopic study of aluminosilicate and aluminate crystals and glasses. J Am Chem Soc 118 7209-7214... [Pg.237]

Lian, C., Le, H., Montez, B., Patterson, J., et al. (1994) 19F nuclear magnetic resonance spectroscopic study of fluorophenylalanine- and fluorotryptophan-labeled avian egg white lysozymes. Biochemistry, 33, 5238-5245. [Pg.490]

Yamaguchi, T., T. Oida, and C. Ikeda. 1986c. Intestinal absorption of a beta-adrenergic blocking agent nadolol. Ill Nuclear magnetic resonance spectroscopic study on nadolol-sodium cholate micellar complex and intestinal absorption of nadolol derivatives in rats. Chem. Pharm. Bull. [Pg.152]

Stoffel, W., Zierenberg, O., Tunggal, B. D., and Schreiber, E. (1974). Hoppe-Seyler s Z. Physiol. Chem. 355, 1381. 1 3C Nuclear Magnetic Resonance Spectroscopic Studies on Lipid-Protein Interactions in Human High-Density Lipoprotein (HDL) A Model of the IIDL Particle. [Pg.423]

Table 2.10. Solid-state cross-polarization magic angle spinning nuclear magnetic resonance spectroscopic studies of environmental samples.

Explain why Si NMR can be used to study the amorphous-to-crystalline transition in a silica gel. [Note You may find the following references of use Brown, I.D. and Shannon, R.D. (1973) Empirical bond-strength bond-length curves for oxides, Acta Crystallogr. A 29, 266 Smith, K.A., Kirkpatrick, R.J., Oldfield, E., and Henderson, D.M. (1983) High-resolution Si nuclear magnetic-resonance spectroscopic study of rockforming silicates, Am. Mineral. 68, 1206.]... [Pg.411]

Kirkpatrick, R. J. (1989) Oxygen-17 Nuclear Magnetic Resonance Spectroscopic Studies of Aqueous Alkaline Silicate Solutions, J. Chem. Soc. Dalton Trans., 275-281. [Pg.327]

Knight, C.T.G. (1989) High-field Silicon-29 Nuclear Magnetic Resonance Spectroscopic Studies of dilute Methanolic Tetramethylammoniuni SiUcate Solutions, Zeolites, 9,448-450. [Pg.328]

Kinsey, R.A. et al. 1985. High resolution aluminium-27 and silicon-29 nuclear magnetic resonance spectroscopic study of layer silicates, including clay minerals. American Mineralogist 70 537-48. [Pg.227]

Gil A.M., Lopes M., Rocha J., Neto C.P., A C-13 solid state nuclear magnetic resonance spectroscopic study of cork cell wall structure The effect of suberin removal, Int. J. Biol. MacromoL, 20(4), 1997,293-305. [Pg.319]

Multinuclear Magic-Angle Sample-Spinning Nuclear Magnetic Resonance Spectroscopic Studies of Crystalline and Amorphous Ceramic Materials Am. Ceram. Soc. Bull. 66,656-663. [Pg.198]

Timken, H.K.C., Janes, N., Turner, G.L. etal. (1986) Solid-state oxygen-17 nuclear magnetic resonance spectroscopic studies of zeolites and related systems. J. Am. Chem. Soc, 108, 7236-7241. [Pg.233]

Olah GA, White AM. Stable carbonium ions. XCI. Carbon-13 nuclear magnetic resonance spectroscopic study of carbonium ions. J Am Chem Soc 1969 91 5801-10. [Pg.186]

Olah GA, Donovan DJ. C Nuclear magnetic resonance spectroscopic study of alkyl cations. The constancy of C nuclear magnetic resonance methyl substituent effects and thier application in the study of equilibrating carbocations and the mechanism of some rearrangements. J Am Chem Soc 1977 99 5026-39. [Pg.186]

Chapman, D., and Penkett, S. A., 1966, Nuclear magnetic resonance spectroscopic studies of the interaction of phospholipids with cholesterol. Nature 211 1304. [Pg.366]

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