Nuclear magnetic resonance studies of 1,3-butadienes. IX—The 1H spectra of isoprene and related compounds

The 'H and "P NMR spectra of a series of compounds containing the P -N -P " skeleton including CI,PNMeP(Z)CI, (Z = 0 or S), CI,P-NMe.P(O)ClNM~, P,(NMe)& (Z=S, n=1-3; Z=Se, n=l), XP(NBu3,P(Z)X (X=Cl, Z = O or S; X=OMe, Z=S or Se, X=NMe, Z=S or Se; X=NE&, Z=Se), CIPNBu'P4)(CI)NMe 4 = 0 or S), P(NBu?,P

## Abstract Proton magnetic resonance studies at 220 MHz were carried out on the hypothalamic thyrotropin releasing factor (TRF) and a variety of synthetic analogs designed to yield specific information about side chain–side chain and side chain–backbone interactions. The results show that the very

125Te was measured by inverse proton detection using multiple-quantum 1H-{125Te} correlation spectroscopy. One-and two-dimensional heteronuclear multiple quantum coherence (HMQC) experiments are reported for dimethyl telluride, dimethyl ditelluride, benzyl tellurocyanate, trimethyltelluronium chlori

H and I3C N M R studies were carried out on l-ethenylnaphthalene, Zethenylnaphthalene, 9ethenylanthracene, 9ethenylphenanthrene, l-ethenylpyrene and l-ethenylperylene. Assignments of proton and carbon resonances were made with the aid of 2D COSY, 2D HETCOR, 2D COLOC, 2D COLOCS, 3J(H,C) INAPT, and NO

## Abstract The potential of ^13^C NMR techniques for studies of nicotine metabolism has been investigated by acquisition and assignment of ^13^C NMR spectra of nicotine, its metabolites and some related compounds. It is shown that C‐2′ of nicotine would be the best site for ^13^C labelling when us