Encyclopedia of Magnetic Resonance 2007
DOI: 10.1002/9780470034590.emrstm0152
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Electron-Nuclear Interactions

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(20 citation statements)
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“…The first question that arises on 13 C direct-detection biomolecular NMR is why one should switch from 1 H to 13 C direct-detection as heteronuclei ( 13 C, 15 N) can be observed with much higher sensitivity through so called inverse detection methods (1,2). Indeed the majority of NMR experiments routinely applied to study biological macromolecules rely on these methods (3)(4)(5)).…”
Section: Switching From 1 H To 13 C Direct-detectionmentioning
confidence: 99%
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“…The first question that arises on 13 C direct-detection biomolecular NMR is why one should switch from 1 H to 13 C direct-detection as heteronuclei ( 13 C, 15 N) can be observed with much higher sensitivity through so called inverse detection methods (1,2). Indeed the majority of NMR experiments routinely applied to study biological macromolecules rely on these methods (3)(4)(5)).…”
Section: Switching From 1 H To 13 C Direct-detectionmentioning
confidence: 99%
“…Indeed the majority of NMR experiments routinely applied to study biological macromolecules rely on these methods (3)(4)(5)). The answer resides in the intrinsic properties of 13 C compared with 1 H nuclei that provide information in those cases where proton NMR is bound to fail. The large gyromagnetic ratio of 1 H, responsible for the high 1 H sensitivity, is the well-known source of the large proton dipolar interactions which may broaden the NMR lines in large or paramagnetic molecules.…”
Section: Switching From 1 H To 13 C Direct-detectionmentioning
confidence: 99%
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