1H1H correlation via isotropic mixing of 13C magnetization, a new three-dimensional approach for assigning 1H and 13C spectra of 13C-enriched proteins

A series of three-dimensional NMR experiments for the establishment of \({ }^{1} \mathrm{H}-{ }^{13} \mathrm{C}\) and \({ }^{13} \mathrm{C}-{ }^{13} \mathrm{C}\) connectivities in a scalarcoupled four-spin fragment \(\left({ }^{1} \mathrm{H}-{ }^{13} \mathrm{C}-{ }^{13} \mathrm{C}-{ }^{1} \mathrm{H}

## One-bond and long-range two-dimensional 'H-I'C NMR experiments allow the unequivocal assignment of 13C and 'H spectra. On this basis, previous assignments of 13C signals of grossularine-1 and -2 have been revised.

Two-dimensional carbon-carbon correlated spectra (2D-INADEQUATE) and proton-carbon correlated spectra obtained with proton detection have been used to determine the absolute configuration and conformation of a hexahydrocannabinol derivative obtained with highly stereocontrolled synthesis. From the p

The complete assignment of the proton and carbon NMR spectra for ikarisoside A and epimedoside C from the aerial parts of Epimedium koreanum were achieved using the concerted application of one-and two-dimensional NMR techniques including COSY and HMBC spectroscopy. The parameters previously reporte