Multiple pulse NMR
Identifieur interne : 000E42 ( Istex/Curation ); précédent : 000E41; suivant : 000E43Multiple pulse NMR
Auteurs : G. A. Webb ; I. BarsukovSource :
- SPR - Nuclear Magnetic Resonance [ 0305-9804 ]
English descriptors
- Teeft :
- Accurate measurement, Adiabatic pulses, Backbone, Base pairs, Biomol, Chemical exchange, Chemical shift, Chemical shift anisotropy, Chemical shifts, Coherence, Coherence transfer, Coherence transfer efficiency, Coherence transfer pathway, Coherence transfer pathways, Constant measurement, Coupling, Cpmg, Cpmg spacing, Decoupling, Different types, Different values, Diffusion coefficients, Dipolar, Dipolar couplings centred, Equilibrium magnetisation, Evolution delay, Evolution period, Exchange contribution, Experiments utilise, Good agreement, Gradient pulses, Heteronuclear, High chemical shift dispersion, Hsqc, Hsqc sequence, Hydrogen bonds, Individual multiplet components, Inept, Inept step, Intensity dependence, Intraresidue, Inversion, Ipap method, Large number, Large proteins, Magn, Magnetisation, Magnetisation transfer, Multiple pulse, Multiplet components, Nucleic, Nucleic acid bases, Nucleic acids, Opposite signs, Passive couplings, Pathway, Proline residues, Proton, Proton magnetisation, Pulse, Relaxation, Relaxation rate, Relaxation rate measurements, Relaxation rates, Residual, Residual dipolar, Residual dipolar couplings, Reson, Resonance experiments, Ribose resonances, Rotational correlation time, Scalar couplings, Secular approximation, Selective decoupling, Selective inversion, Selective observation, Sensitivity enhancement, Sensitivity gain, Sensitivity improvement, Sequential, Sequential correlations, Side chains, Similar experiment, Small proteins, Small values, Transverse magnetisation, Transverse relaxation time, Trosy, Trosy experiment, Trosy method, Trosy versions, Wide range.
Url:
DOI: 10.1039/9781847553881-00292
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ISTEX:9392880F3E1C67AD944ACF0C2B0A74CDC2406B78Le document en format XML
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<profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Accurate measurement</term>
<term>Adiabatic pulses</term>
<term>Backbone</term>
<term>Base pairs</term>
<term>Biomol</term>
<term>Chemical exchange</term>
<term>Chemical shift</term>
<term>Chemical shift anisotropy</term>
<term>Chemical shifts</term>
<term>Coherence</term>
<term>Coherence transfer</term>
<term>Coherence transfer efficiency</term>
<term>Coherence transfer pathway</term>
<term>Coherence transfer pathways</term>
<term>Constant measurement</term>
<term>Coupling</term>
<term>Cpmg</term>
<term>Cpmg spacing</term>
<term>Decoupling</term>
<term>Different types</term>
<term>Different values</term>
<term>Diffusion coefficients</term>
<term>Dipolar</term>
<term>Dipolar couplings centred</term>
<term>Equilibrium magnetisation</term>
<term>Evolution delay</term>
<term>Evolution period</term>
<term>Exchange contribution</term>
<term>Experiments utilise</term>
<term>Good agreement</term>
<term>Gradient pulses</term>
<term>Heteronuclear</term>
<term>High chemical shift dispersion</term>
<term>Hsqc</term>
<term>Hsqc sequence</term>
<term>Hydrogen bonds</term>
<term>Individual multiplet components</term>
<term>Inept</term>
<term>Inept step</term>
<term>Intensity dependence</term>
<term>Intraresidue</term>
<term>Inversion</term>
<term>Ipap method</term>
<term>Large number</term>
<term>Large proteins</term>
<term>Magn</term>
<term>Magnetisation</term>
<term>Magnetisation transfer</term>
<term>Multiple pulse</term>
<term>Multiplet components</term>
<term>Nucleic</term>
<term>Nucleic acid bases</term>
<term>Nucleic acids</term>
<term>Opposite signs</term>
<term>Passive couplings</term>
<term>Pathway</term>
<term>Proline residues</term>
<term>Proton</term>
<term>Proton magnetisation</term>
<term>Pulse</term>
<term>Relaxation</term>
<term>Relaxation rate</term>
<term>Relaxation rate measurements</term>
<term>Relaxation rates</term>
<term>Residual</term>
<term>Residual dipolar</term>
<term>Residual dipolar couplings</term>
<term>Reson</term>
<term>Resonance experiments</term>
<term>Ribose resonances</term>
<term>Rotational correlation time</term>
<term>Scalar couplings</term>
<term>Secular approximation</term>
<term>Selective decoupling</term>
<term>Selective inversion</term>
<term>Selective observation</term>
<term>Sensitivity enhancement</term>
<term>Sensitivity gain</term>
<term>Sensitivity improvement</term>
<term>Sequential</term>
<term>Sequential correlations</term>
<term>Side chains</term>
<term>Similar experiment</term>
<term>Small proteins</term>
<term>Small values</term>
<term>Transverse magnetisation</term>
<term>Transverse relaxation time</term>
<term>Trosy</term>
<term>Trosy experiment</term>
<term>Trosy method</term>
<term>Trosy versions</term>
<term>Wide range</term>
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