Chemical shifts of aromatic protons in protein nmr spectra
Dobson, C.M.
S Letters-2: 132-136
1983
DOI: 10.1016/0014-5793(83)80431-1
Accession: 027917329
PDF emailed within 0-6 h: $19.90
Related References
Abronin, I.A.; Gagarin, S.G.; Zhidomirov, G.M. 1975: Effect of protonation of benzene ring on chemical shifts of aromatic protons Russian Chemical Bulletin 24(4): 836-838Katsuyama, I.; Khalil, A.A.; Dunbar, C.; Zjawiony, J.K. 2003: Concentration Dependent Variation of 1 HNmr Chemical Shifts of Aromatic Protons in Sampangine Derivatives Spectroscopy Letters 36(5-6): 477-485
Hellier, D.G.; Webb, F.J. 1977: Nuclear magnetic resonance studies on some cyclic esters containing the t -butyl group Magnetic Resonance in Chemistry 9(6): 347-350
Zawadiak, J.; Mrzyczek, M. 2013: Correlation of substituted aromatic β-diketones' characteristic protons chemical shifts with Hammett substituent constants Magnetic Resonance in Chemistry: Mrc 51(11): 689-694
Exner, O; Buděšínský, Mš 1991: Correlation of substituent inducted chemical shifts of aromatic protons: Substituted benzonitriles and methyl benzoates Collection of Czechoslovak Chemical Communications 56(11): 2234-2250
Matsoukas, J.M.; Goghari, M.H.; Moore, G.J. 1987: Pmr studies of angiotensin ii conformation chemical shifts for the aromatic protons of selected analogues in dmso d 6 at 400mz Theodoropoulos, D (Ed ) Peptides, 19th European Symposium, Chalkidiki, Greece, August 31-September 5, 1986 Xix+684p Walter De Gruyter: Berlin, West Germany; New York, New York, Usa Illus 335-340
D.E. Minnikin 1972: Proton magnetic resonance spectra of methyl ethers of disaccharides; chemical shifts of anomeric protons Carbohydrate Research 23(1): 139-143
Otsuru, M.; Tori, K.; Watanabe, H. 1967: Correlation of the methyl substitution effect upon the chemical shifts of ortho-protons with pi-bond orders in aromatic molecules Chemical and Pharmaceutical Bulletin 15(7): 1015-1020
Shindo, H.; Okhubo, S.; Matsumoto, U.; Giessner-Prettre, C.; Zon, G. 1988: Nuclear magnetic spectra of self complementary decanucleotides in solution; base sequence effect on the chemical shifts of nonexchangeable protons Journal of Biomolecular Structure and Dynamics 5(4): 913-931
Jursic, B.; Sunko, D.E. 1988: Proton nmr study of mixed and inverse micelles solvent effects on chemical shifts of aromatic and heterocyclic protons in some n methylnicotinyl and n methylisonicotinyl esters Bioorganic Chemistry 16(1): 1-11
Philip H Bolton 1969: Three-frequency NMR: Simultaneous determination of carbon-13 chemical shifts, scalar couplings, multiplicities, and chemical shifts of directly bonded protons Journal of Magnetic Resonance 46(2): 343-347
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1995: Computerized analysis of 2D INADEQUATE spectra to assign chemical shifts in aromatic compounds Magnetic Resonance in Chemistry 33(10): 803-811
Okano, T.; Takadate, A. 1969: Electronic properties of N-heteroaromatics. 32. H-nuclear magnetic resonance spectra of chloro- and fluoro-substituted pyrimidine derivatives: relationship between chemical shifts of ring and substituent protons and electron densities Yakugaku Zasshi: Journal of the Pharmaceutical Society of Japan 89(3): 302-309
Klinot, Jří; Buděšínský, Mš; Světlý, J 1990: Conformation of ring A in triterpenoid and 4,4-dimethylsteroid 3-ketones. Chemical shifts of methyl protons and lanthanide and benzene induced shifts Collection of Czechoslovak Chemical Communications 55(3): 766-781
Al-Rawi, J.M.A.; Sheat, M.A.; Ayed, N. 1984: Carbon-13 Nmr of some organophosphorus compounds. 2chemical shifts and P C coupling constants of diaryl-, dialkoxy- and diaryloxy-phosphine amines with general formula Y2Pnrr' Magnetic Resonance in Chemistry 22(5): 336-339