Add to ORKGA gradient- and sensitivity-enhanced HMQC experiment has been developed. The sensitivity of the experiment is increased by factors of root 2 and 2 over the conventional and gradient-enhanced HMQC experiments, respectively. This improvement is achieved by retaining both the x and the y magnetization components in the indirectly detected dimension. This experiment will be particularly useful in NMR studies of large biomolecules as the relaxation time of the multiple-quantum coherence is much longer than that of the single-quantum coherence in the slow motion limit. (C) 1998 Academic Press
Long‐range heteronuclear single quantum correlation (LR‐HSQC) experiments may be applied for detecti...
International audience ; A heteronuclear double-resonance (HDR) method based on MLEV-32 or WALTZ-32 ...
Previous theoretical calculations have demonstrated that the multiquantum relaxation rate of H-1(alp...
A gradient- and sensitivity-enhanced HMQC experiment has been developed. The sensitivity of the expe...
Recent studies have indicated that the relaxation rate of the H-1-C-13 multiple-quantum coherence is...
We have previously shown that H-1 pulsed-field-gradient (PFG) NMR spectroscopy provides a facile met...
grantor: University of TorontoThe heteronuclear single quantum coherence (HSQC) experiment...
A new NMR experiment that exploits the advantages of proton double quantum (DQ) NMR through a proton...
A new 20 pulse sequence HMSC (Heteronuclear Multiple- and Single-bond coupling Correlations) for the...
Here, the authors present an approach that enhances the sensitivity of basic 2D biomolecular NMR exp...
parallel evolution in multiple quantum NMR experiments: sensitivity and resolution enhancement in he...
A method that combines sensitivity and a gradient-enhanced two-dimensional heteronuclear shift corre...
The gradient-enhanced, heteronuclear, chemical-shift correlation experiment, which provides F quadra...
‘H-detected multiple-bond correlation (HMBC) provides an extremely effective method for long-range ‘...
The problem of extracting dipole couplings from a system of N spins I = 1/2 and one spin S by NMR te...
Long‐range heteronuclear single quantum correlation (LR‐HSQC) experiments may be applied for detecti...
International audience ; A heteronuclear double-resonance (HDR) method based on MLEV-32 or WALTZ-32 ...
Previous theoretical calculations have demonstrated that the multiquantum relaxation rate of H-1(alp...
A gradient- and sensitivity-enhanced HMQC experiment has been developed. The sensitivity of the expe...
Recent studies have indicated that the relaxation rate of the H-1-C-13 multiple-quantum coherence is...
We have previously shown that H-1 pulsed-field-gradient (PFG) NMR spectroscopy provides a facile met...
grantor: University of TorontoThe heteronuclear single quantum coherence (HSQC) experiment...
A new NMR experiment that exploits the advantages of proton double quantum (DQ) NMR through a proton...
A new 20 pulse sequence HMSC (Heteronuclear Multiple- and Single-bond coupling Correlations) for the...
Here, the authors present an approach that enhances the sensitivity of basic 2D biomolecular NMR exp...
parallel evolution in multiple quantum NMR experiments: sensitivity and resolution enhancement in he...
A method that combines sensitivity and a gradient-enhanced two-dimensional heteronuclear shift corre...
The gradient-enhanced, heteronuclear, chemical-shift correlation experiment, which provides F quadra...
‘H-detected multiple-bond correlation (HMBC) provides an extremely effective method for long-range ‘...
The problem of extracting dipole couplings from a system of N spins I = 1/2 and one spin S by NMR te...
Long‐range heteronuclear single quantum correlation (LR‐HSQC) experiments may be applied for detecti...
International audience ; A heteronuclear double-resonance (HDR) method based on MLEV-32 or WALTZ-32 ...
Previous theoretical calculations have demonstrated that the multiquantum relaxation rate of H-1(alp...