Triplet <scp>NOAH</scp> supersequences optimised for small molecule structure characterisation

Claridge, Timothy D. W.; Mayzel, Maksim; Kupče, Ēriks

doi:10.1002/mrc.4887

Cited by 26 publications

(85 citation statements)

References 24 publications

(41 reference statements)

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“…Whilst the MBSC configuration of the NOAH modules is possible, it is advantageous to start the NOAH supersequences with the least sensitive experiment. Although the 15 N HMQC is by a factor of ~3 less sensitive as compared to an equivalent 13 C experiment, the…”

Section: Resultsmentioning

confidence: 93%

“…The basic set of experiments that are generally employed for structure elucidation of small organic molecules include 13 C-1 H HSQC, 13 C-1 H HMBC and 1 H-1 H COSY. Therefore, the NOAH-3 SBC and the favoured BSC supersequences can be used for structure elucidation in a single measurement.…”

Section: Resultsmentioning

confidence: 99%

“…Typically, one-bond correlation techniques provide direct connectivity information, long-range correlations connect molecular fragments and through-space dipolar couplings provide supplementary stereochemical (3D) information [5][6][7]. Three basic NMR experiments -HSQC, HMBC and COSY are usually employed to obtain information about one-bond X-H (HSQC), long range X-H (HMBC) and three-bond H-H (COSY) connectivities (X = 13 C and 15 N). Additional experiments, such as NOESY, ROESY, TOCSY, DQF-COSY, HMQC, H2BC, HSQC-TOCSY and occasionally 1,1-ADEQUATE (or its variants) are also used to obtain complementary information when the basic experiments prove to be insufficient for structure elucidation purposes.…”

mentioning

confidence: 99%

“…While the INADEQUATE experiment in the PANACEA pulse scheme is one of the most powerful techniques for structure elucidation of small molecules, at natural isotopic abundance it is also one of the least sensitive small molecule NMR experiments. Alternatively, the NOAH (NMR by Ordered Acquisition using 1 H detection) supersequences [11][12][13][14] are constructed from the basic and more sensitive 1 H-detected experiments (modules) that are typically used for small molecule analysis and structure elucidation. Such supersequences not only provide significant time savings and often a superior sensitivity per unit time, but they also ensure that all spectra are recorded under identical experimental conditions thus eliminating inter-experiment variability and associated signal assignment ambiguities.…”

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confidence: 99%

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New NOAH modules for structure elucidation at natural isotopic abundance

Kupče

Claridge

2019

Journal of Magnetic Resonance

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Section: Resultsmentioning

confidence: 93%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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New NOAH modules for structure elucidation at natural isotopic abundance

Kupče

Claridge

2019

Journal of Magnetic Resonance

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“…First, the level of sparsity is crucial as spectra with different dynamic ranges often require different sampling density. For spectra with low dynamic range of intensities as spectra of small molecules 44,45 and triple resonance experiments for protein backbone assignment where the peaks typically are of similar intensity and the peak positions are of higher importance, less points are required, and assertive sample schemes covering only 30% for a 2D spectrum and 10% for a 3D spectrum can be utilized without greatly compromising the spectral quality. For higher dynamic range spectra, such as the NOESY experiment or relaxation measurements, where the intensities of the peaks are crucial, more points are to be sampled.…”

Section: Sampling Schemesmentioning

confidence: 99%

Software for reconstruction of nonuniformly sampled NMR data

Pedersen

Prestel

Teilum

2020

Magnetic Reson in Chemistry

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Nonuniform sampling (NUS) of multidimensional NMR experiments is a powerful tool to obtain high-resolution spectra with less instrument time. With NUS, only a subset of the points needed for conventional Fourier transformation is recorded, and sophisticated algorithms are needed to reconstruct the missing data points. During the last decade, several software packages implementing the reconstruction algorithms have emerged and been refined and now result in spectra of almost similar quality as spectra from conventionally recorded and processed data. However, from the number of literature references to the reconstruction methods, many more multidimensional NMR spectra could presumably be recorded with NUS. To help researchers considering to start using NUS for their NMR experiments, we here review 13 different reconstruction methods found in five software packages (CambridgeCS, hmsIST, MddNMR, NESTA-NMR, and SMILE). We have compared how the methods run with the provided example scripts for reconstructing a nonuniform sampled three-dimensional 15 N-NOESY-HSQC at sampling densities from 5% to 50%. Overall, the spectra are all of similar quality above 20% sampling density. Thus, without any particular knowledge about the details of the reconstruction algorithms, significant reduction in the experiment time can be achieved. Below 20% sampling density, the intensities of particular weak peaks start being affected. MddNMR's IST with virtual echo and the SMILE algorithms still reproduced the spectra with the highest accuracy of peak intensities.

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NORD: NO Relaxation Delay NMR Spectroscopy

Nagy

Kövér

Sørensen³

2021

Angewandte Chemie

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The novel concept of NORD (NO relaxation delay) NMR spectroscopy is introduced. The idea is to design concatenated experiments in a way that the magnetization used in the first relaxes toward equilibrium during the second and vice versa, thus saving instrument time. Applications include complete well-resolved 1 H-1 H and 1 H-13 C one-bond and long-range correlation maps of an 80 mM solution of a trisaccharide recorded in less than two minutes and hydrocortisone with extensive spectral overlap.

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Triplet NOAH supersequences optimised for small molecule structure characterisation

Cited by 26 publications

References 24 publications

New NOAH modules for structure elucidation at natural isotopic abundance

New NOAH modules for structure elucidation at natural isotopic abundance

Software for reconstruction of nonuniformly sampled NMR data

NORD: NO Relaxation Delay NMR Spectroscopy

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