Overhauser effect spectroscopy ROESY

In order to combat this, the rotating frame Overhauser effect spectroscopy (ROESY) techniques can be employed. An in-depth discussion of how this technique works is outside the remit of this book but suffice to say, in the ROESY methods (1- and 2-D), NOE data is acquired as if in a weak r.f. field rather than in a large, static magnetic field and this assures that all NOEs are present and positive, irrespective of tumbling rate and magnet size. It is possible that some TOCSY correlations can break through in ROESY spectra but these will have opposite phase to the genuine ROESY correlations and so should therefore not be a problem - unless they should overlap accidentally with them. A 2-D ROESY spectrum of the naphthalene compound is shown below (Spectrum 8.6). 

Conformations of mycothiol bimane (MSmB) were studied by H and 13C NMR using rotational nuclear Overhauser effect spectroscopy (ROESY) and heteronuclear single quantum correlation (HSQC) methods with expansions of the anomeric region <2003JOC3380>. NMR characterization of iV-acetyl-L-(Y)-cysteinyl monobimane and peracetylated MSmB was also published (Section 12.10.15.4) <2002JA3492>. 

The data from H NMR studies of 63, which included double quantum filtered phase sensitive correlated spectroscopy (DQF-COSY) and rotating frame nuclear Overhauser effect spectroscopy (ROESY) experiments (Figure 12), are collected in Table 17. 

Rotational nuclear Overhauser effect spectroscopy ROESY Interactions through space/chemical exchange. 

Fattorusso and co-workers identified a component of wormwood called artar-borol. Correlation spectroscopy (COSY) and rotating frame nuclear overhauser effect spectroscopy (ROESY) experiments allowed for deduction of four possible diastereomeric structures of artarborol, 2-5. Low energy conformers of 11-14 were obtained through a molecular mechanics (MM) search. These conformers were screened to identify those having a dihedral angle of around 90 for the C-8 and C-9 protons due to a low coupling constant between these protons. Only conformers of 11 and 13 satisfied this criterion. Next, five low energy conformers, two... 

Rotational Overhauser effect spectroscopy, ROESY. Syn. CAMELSPIN experiment A 2-D NMR experiment similar to the 2-D NOESY experiment except that the ROESY experiment employs a spin-lock using the B, field of the applied RE, thus skirting the problem of the cancellation of the NOE cross peak when correlation times become long enough to reduce the rate constant for the dipolar doubl quantum spin flip. 

CAMELSPIN experiment. See rotational Overhauser effect spectroscopy (ROESY). 

The elucidation of the scalar coupling network by the correlation experiments is, apart from small molecules, not sufficient for the unambiguous, sequential and stereo-specific assignment. The complementary information of spatially adjacent protons is obtained via cross-relaxation experiments, the laboratory-frame nuclear Overhauser enhancement spectroscopy (NOESY) and the rotating-frame nuclear Overhauser effect spectroscopy (ROESY). These experiments provide also the distance restraints for the structure determination and help to recognize exchange processes. 

Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY), NMR, a technique that allows exchange processes to be observed when applied to the trimethylam-monium salt of 12 in dichloromethane-rf2, provided evidence for aggregation in solution (Figure 14). Two resonances were observed between 7.0 and 7.5 ppm... 

NOE becomes negligible and no cross-peaks are observed), which correlates well with IR measurements and theoretical calculations on the same system By deuteriating 95% of the cations and repeating the experiment, they determined the existence of intermolecular NOE transfer. In this work, the rotating-frame Overhauser effect spectroscopy (ROESY) experiment was performed, as it is more suitable for very viscous materials and requires shorter mixing time (reducing the overall experiment time). For a full description of the ROESY experiment, the reader is referred to the excellent text by Jacobsen et al. [34]. 

At 500 MHz, moderate-sized (more than six residues) oligosaccharides lie within the spin-diffusion limit. However, for smaller molecules, as the value of the function (OqT (where (Oq is the Larmor frequency of protons, and is the correlation time of the molecule) approaches 1 then the value of the NOE tends towards 0. Cross-peak intensities of NOESY spectra of smaller oligosaccharides (2-5 residues) may thus become too small to measure accurately. In such cases, the rotating frame Overhauser effect spectroscopy (ROESY, originally referred to as CAMELSPIN) experiment is commonly used to measure NOE values. To reduce the appearance of HOHAHA-like cross-peaks, a low power spin-lock field should be used, and the transmitter carrier offset to the low-field end of spectrum. The offset dependency of cross-peak intensities should also be removed by 90° pulses at either end of spin-lock period. 

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