NMR spectral studies of quinoline derivatives. Long range 13C1H coupling constants in methylquinoline derivatives

## Abstract Chemical shifts and long‐range ^13^C, ^1^H coupling constants to the two carbonyl C atoms were determined for a series of ethyl 2‐acyloxy‐2‐alkenoates. The ^3^__J__(C,H) coupling constant across the double bond is 9.5–10.1 Hz for the __E__‐ and 2.9–3.8 Hz for the __Z__‐isomer. ^3^__J__(

Bldg 201-BS-07, Proton and carbon-I 3 assignments based on long-range coupling to the methyl protons are reported for the three isomeric N-methyldiazabenzene salts. All resolved "J,, coupling constants are reported.

## Abstract ^1^H and ^13^C NMR data for 1‐cyano‐, 4‐cyano‐, 4‐bromo‐ and 4‐bromo‐5‐nitro‐substituted isoquinolines, isoquinoline N‐oxides and N‐methoxy and N‐ethyl salts in different solvents are reported. The substituent chemical shifts are discussed with regard to the reactivity of the N‐methoxy

## Abstract The assignments of the long‐range ^13^C, ^1^H coupling constants in the ^13^C NMR spectra of the base moieties of several purine and pyrimidine nucleosides and their analogues were established by the application of long‐range selective ^1^H decoupling with low‐power ^1^H irradiation. Th

Natural abundance 13C and 15N NMR studies were carried out on a series of N -methylated and N -tert -butylated tetrazoles. Longrange 13C,1H and 15N,1H NMR coupling constants together with 1J (15N,13C) allowed unequivocal assignments of 13C and 15N chemical shifts for isomeric 1,5-and 2,5-disubstitut

## Abstract The tautomerism and protonation of the putative inotropic 2‐(2′,4′‐dimethoxy)phenyl‐1__H__‐imidazo[1,2‐__a__]imidazole (2) has been studied in several solvents by comparing its ^1^H and ^13^C chemical shifts with those of its 1‐ and 7‐methyl derivatives 3 and 4, respectively, and acid s