Anomalous Nuclear Overhauser Effects in Carbon-Substituted Aziridines: Scalar Cross-Relaxation of the First Kind**
نویسندگان
چکیده
Anomalous NOESY cross-peaks that cannot be explained by dipolar cross-relaxation or chemical exchange are described for carbon-substituted aziridines. The origin of these is identified as scalar cross-relaxation of the first kind, as demonstrated by a complete theoretical description of this relaxation process and by computational simulation of the NOESY spectra. It is shown that this process relies on the stochastic modulation of J-coupling by conformational transitions, which in the case of aziridines arise from inversion at the nitrogen center. The observation of scalar cross-relaxation between protons does not appear to have been previously reported for NOESY spectra. Conventional analysis would have assigned the cross-peaks as being indicative of a chemical exchange process occurring between correlated spins, were it not for the fact that the pairs of nuclei displaying them cannot undergo such exchange.
منابع مشابه
Comparison of the conformation and dynamics of a polysaccharide and of its isolated heptasaccharide repeating unit on the basis of nuclear Overhauser effect, long-range C-C and C-H coupling constants, and NMR relaxation data.
A comparison of the conformation and dynamics of the cell wall polysaccharide of S. mitis J22 and the heptasaccharide repeating unit made from this polysaccharide was performed on the basis on nmr data. We have previously reported a model for this highly flexible polysaccharide in which four residues of the antigenic epitope adopt a defined conformation as do the two residues of the lectin-bind...
متن کاملThe structure of the double - stranded RNA pentamer 5 ’ ( CACAG ) - 5 ’ ( CUGUG ) determined by nuclear Overhauser enhancement measurements : Interproton distance determination and structure refinement
The structure in solution of the duplex RNA pentamer 5’(CACAG) 5’(CUCUC), comprising the stem of the T YC loop of yeast tRNAPh‘, has been investigated by means of oneand two-dimensional nuclear Overhauser enhancement measurements. All non-exchangeable base and sugar proton resonances with the exception of the H5’/H5” sugar resonances are assigned in a sequential manner. From the relative intens...
متن کاملQuantitative Analysis of Transferred Nuclear Overhauser Effects in Complex Spin Systems by Full Relaxation Matrix Analysis
A computer program was developed for studying transferred nuclear Overhauser effects in complex spin systems. It permits quantitative analysis of nuclear Overhauser effects observed in biologically important systems, such as ligands interacting with transmembrane receptors in the presence of lipid bilayers. The full generalized relaxation matrix approach takes into account the local mobility, s...
متن کاملPulsed FT-NMR double resonance studies of yeast tRNAPhe: specific nuclear Overhauser effects and reinterpretation of low temperature relaxation data.
Cross-relaxation effects are demonstrated between the imino protons and other protons in yeast tRNAPhe and H2O. A detailed examination has been made of the observed relaxation rate of the proton resonance at 11.8 ppm from DSS as a function of the D2O content in the solvent. This result, as well as the size and number of observed nuclear Overhauser effects, suggests that dipolar magnetization tr...
متن کاملOptimization and prediction of the electron–nuclear dipolar and scalar interaction in 1H and 13C liquid state dynamic nuclear polarization
During the last 10–15 years, dynamic nuclear polarization (DNP) has evolved as a powerful tool for hyperpolarization of NMR and MRI nuclides. However, it is not as well appreciated that solution-state dynamic nuclear polarization is a powerful approach to study intermolecular interactions in solution. For solutions and fluids, the H nuclide is usually dominated by an Overhauser dipolar enhancem...
متن کامل