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The rotating frame nuclear Overhauser effect spectroscopy experiment as an aid to determining solution structures of DNA oligomers

✍ Scribed by Monika Ivancic; Victor L. Hsu

Publisher
Wiley (John Wiley & Sons)
Year
2000
Tongue
English
Weight
241 KB
Volume
54
Category
Article
ISSN
0006-3525

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✦ Synopsis

Important intrinsic characteristics of the rotating frame nuclear Overhauser effect spectroscopy (ROESY) experiment were found to be advantageous in DNA solution structure determination. In a ROESY experiment, the different mechanisms of relaxation result in different signs of cross peaks, enabling a clear distinction between H2Ј resonances and H2Љ resonances of the DNA sugar backbone. This method is of particular importance in crowded spectra, for purine resonances whose H2Ј, H2Љ protons typically resonate closely, as well as in conditions where line broadening makes coupling constants in a correlated spectroscopy experiment impossible to determine. By observing the signs of cross peaks in the base proton to H2Ј, H2ЈЈ sugar proton region, the ROESY spectrum can be used to distinguish A-form, B-form, and Z-form DNA.

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A conformational study of the vicinally
A conformational study of the vicinally branched trisaccharide β-D-Glcp-(1 → 2)[β-D-Glcp-(1 → 3)]α-D-Manp-OMe by nuclear Overhauser effect spectroscopy (NOESY) and transverse rotating-frame Overhauser effect spectroscopy (TROESY) experiments: Comparison to Monte Carlo and Langevin dynamics simulations
✍ Alexandra Kjellberg; Göran Widmalm 📂 Article 📅 1999 🏛 Wiley (John Wiley & Sons) 🌐 English ⚖ 109 KB

The trisaccharide beta-D-Glcp-(1 --> 2)[beta-D-Glcp-(1 --> 3)]alpha-D-Manp-OMe, a model for branching regions in oligosaccharides, has been investigated by one-dimensional DPFGSE (1)H, (1)H nuclear Overhauser effect spectroscopy (NOESY) and transverse rotating-frame Overhauser effect spectroscopy (T