31P Nuclear magnetic resonance studies

Yeagle PL (1982) 31P nuclear magnetic resonance studies of the phospholipid-protein interface in cell membranes. Biophys J 37 227-239... 

Desmoulin, F., Galons, J.-P., Canioni, P., Marvaldi, J., Cozzone, P.J. (1986). 31P nuclear magnetic resonance study of a human colon adenocarcinoma cultured cell line. Cancer Res. 46,3768-3774. 

Hawkes, G.E., Powlson, D.S., Randall, E.W., and Tate, K.R. (1984) A 31P nuclear magnetic resonance study of the phosphorus species in alkali extracts from long-term field experiments. J. Soil Sci. 35, 35—45. 

B. Gonzalez, A. de Graaf, M. Renaud and H. Sahm (2000). Dynamic in vivo 31P nuclear magnetic resonance study of Saccharomyces cerevisiae in glucose-limited chemostat culture during the aerobic-anaerobic shift. Yeast, 16, 483 -97. 

N. J. Greenfeld, M. Hussain and J. Lenard (1987). Effect of growth state and amines on cytoplasm and vacuolar pH, phosphate and polyphosphate levels in Saccharomyces cerevisiae a 31P nuclear magnetic resonance study. Biochim. Biophys. Acta, 926, 205-214. 

E. Lohmeier-Vogel, K. Skoog, H. Vogel and B. Hahn-Hagerdal (1989). 31P Nuclear magnetic resonance study of the effect of azide on xylose fermentation by Candida tropicalis. Appl. Envinron. Microbiol., 55, 1974-1980. 

G. Navon, S. Ogawa, R. Schulman and T. Yamane (1977a). 31P nuclear magnetic resonance studies of Ehrlich ascites tumor cells. Proc. Natl. Acad. Sci. USA, 74, 87-91. 

M. Watanabe, K. Kohata and M. Kunugi (1987). 31P nuclear magnetic resonance study of intracellular phosphate pools and polyphosphate metabolism in Heterosigma akashiro (Hada) Hada (Raphidophyceae). J. Phycol., 23, 54—62. 

Ratcliffe PJ, Endre ZFI, Scheinman SJ, Tange JD, Ledingham JG, Radda GK 31P nuclear magnetic resonance study of steady-state adenosine 5 -triphosphate levels during graded hypoxia in the isolated perfused rat kidney. Clin.Sci. 74 437-448,1988... 

MM. Pike, C.S. Luo, S. Yanagida, G.R. Hagcman, P.G. Anderson, 23Na and 31P nuclear magnetic resonance studies of ischemia- induced ventricular fibrillation. Alterations of intracellular Na and cellular energy, Circ Res 77,349-406 (1995). 

Steiert, J.G., W.J. Thoma, K. Ugurbil, and R.L. Crawford. 1988. 31P nuclear magnetic resonance studies of effects of some chlorophenols on Escherichia coli and a pentachlorophenol-degrading bacterium. J. Bacteriol. 170 4954—4957. 

Strohhacker, J., A.A. de Graaf, S.M. Schoberth, R.M. Wittig, and H. Sahm. 1993. 31P nuclear magnetic resonance studies of ethanol inhibition in Zymomonas mobilis. Arch. Microbiol. 159 484-490. 

Pettegrew JW, Kopp SJ, Minshew NJ, Glonek T, Feliksik JM, Tow JP, Cohen MM (1987) 31P nuclear magnetic resonance studies of phosphoglyceride metabolism in developing and degenerating brain prehminaty observations. J Neuropathol Exp Neurol 46 419-430... 

Thomson, J. and Torchia, D. A. 1984. Use of 31P nuclear magnetic resonance spectroscopy of 14C fluorography in studies of glycolysis and regulation of pyruvate kinase... 

Dowd T, Barac-Nieto M, Gupta RK, Spitzer A 31P nuclear magnetic resonance and saturation transfer studies of the isolated perfused rat kidney. Ren Physiol Biochem 12 161 -70,1989... 

Gupta RK, Dowd TL, Spitzer A, Barac-Nieto M 23Na, 19F, 35CI and 31P multinuclear nuclear magnetic resonance studies of perfused rat kidney. Ren Physiol Biochem. 12 144-160,1989... 

Jaroszewski, J. W., Kaplan, O., and Cohen, J. S. (1990). Action of gossypol and rhodamine 123 on wild type and multidrug-resistant MCF-7 human breast cancer cells 31P nuclear magnetic resonance and toxicity studies. Cancer Res. 50, 6936-6943. 

Okunieff, P., Kallinowski, F., Vaupel, P., and Neuringer, L. J. (1988) Effects of hydralazine-induced vasodilation on the energy metabolism of murine tumors studied by in vivo 31P-nuclear magnetic resonance spectroscopy. J. Natl. Cancer. Inst. 80, 745-750. 

Bonar, L.C. et al (1991) Structural and composition studies on the mineral of newly formed dental enamel a chemical, x-ray diffraction, and 31P and proton nuclear magnetic resonance study. /. Bone Miner. Res., 6 (11), 1167-1176. 

Nuclear magnetic resonance (NMR) spectroscopic studies (1H, 13C, and 31P), are consistent with the dipolar ylide structure and suggest only a minor contribution from the ylene structure.135 Theoretical calculations support this view, also.136... 

Solvent effects on nuclear magnetic resonance (NMR) spectra have been studied extensively, and they are described mainly in terms of the observed chemical shifts, 8, corrected for the solvent bulk magnetic susceptibility (Table 3.5). The shifts depend on the nucleus studied and the compound of which it is a constituent, and some nuclei/compounds show particularly large shifts. These can then be employed as probes for certain properties of the solvents. Examples are the chemical shifts of 31P in triethylphosphine oxide, the 13C shifts in the 2-or 3-positions, relative to the 4-position in pyridine N-oxide, and the 13C shifts in N-dimethyl or N-diethyl-benzamide, for the carbonyl carbon relative to those in positions 2 (or 6), 3 (or 5) and 4 in the aromatic ring (Chapter 4) (Marcus 1993). These shifts are particularly sensitive to the hydrogen bond donation abilities a (Lewis acidity) of the solvents. In all cases there is, again, a trade off between non-specific dipole-dipole and dipole-induced dipole effects and those ascribable to specific electron pair donation of the solvent to the solute or vice versa to form solvates. 

Francioso, O., Sanchez-Cortes, S., Tugnoli, V., Ciavatta, C., Sitti, L., and Gessa, C. (1996). Infrared, raman, and nuclear magnetic resonance ( 11, BC, and 31P) spectroscopy in the study of fractions of peat humic acids. Appl. Spectrosc. 50(9), 1165-1174. 

Naritomi H, Sasaki M, Kanashiro M, Kitani M, Sawada T (1988) Flow thresholds for cerebral energy disturbance and Na+ pump failure as studied by in vivo 31P and 23Na nuclear magnetic resonance spectroscopy. J. Cereb. Blood Flow Metab 8 16-23... 

---