Cascaded z-filters for efficient single-scan suppression of zero-quantum coherence

Kristin E. Cano; Michael J. Thrippleton; James Keeler; A. J. Shaka

doi:10.1016/j.jmr.2003.12.017

Cascaded z-filters for efficient single-scan suppression of zero-quantum coherence

Kristin E. Cano, Michael J. Thrippleton, James Keeler, A. J. Shaka

Resultado de la investigación: Article › revisión exhaustiva

40 Citas (Scopus)

Resumen

A simple and robust method to suppress zero-quantum coherence (ZQC) in NMR experiments, in a single scan and with very high suppression ratio, is described. It is an appreciable improvement on a previous technique by Thrippleton and Keeler [Angew. Chem. Int. Ed. 42 (2003) 3938]. The method, called a z-filter cascade, preserves longitudinal, or z-magnetization, with high efficiency. Losses depend mostly on T₁ relaxation but not T ₂ relaxation mechanisms. At the same time, suppression of ZQC can be essentially complete in a single scan. The time duration of the z-filter cascade scales inversely to representative chemical shift differences between the coupled spins, and is typically a few tens of milliseconds. The high efficiency of the zero-quantum suppression and excellent retention of the desired z-magnetization, in a single scan without resort to phase cycling or difference spectroscopy, makes the z-filter cascade a useful new pulse sequence building block for a whole range of NMR experiments. In cases where unwanted residual ZQC may have previously contributed to baseline "t ₁-noise" in two-dimensional NMR spectra, the z-filter cascade can deliver a noteworthy improvement in spectral quality.

Idioma original	English (US)
Páginas (desde-hasta)	291-297
Número de páginas	7
Publicación	Journal of Magnetic Resonance
Volumen	167
N.º	2
DOI	https://doi.org/10.1016/j.jmr.2003.12.017
Estado	Published - abr. 2004
Publicado de forma externa	Sí

ASJC Scopus subject areas

Biophysics
Biochemistry
Nuclear and High Energy Physics
Condensed Matter Physics

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10.1016/j.jmr.2003.12.017

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title = "Cascaded z-filters for efficient single-scan suppression of zero-quantum coherence",

abstract = "A simple and robust method to suppress zero-quantum coherence (ZQC) in NMR experiments, in a single scan and with very high suppression ratio, is described. It is an appreciable improvement on a previous technique by Thrippleton and Keeler [Angew. Chem. Int. Ed. 42 (2003) 3938]. The method, called a z-filter cascade, preserves longitudinal, or z-magnetization, with high efficiency. Losses depend mostly on T1 relaxation but not T 2 relaxation mechanisms. At the same time, suppression of ZQC can be essentially complete in a single scan. The time duration of the z-filter cascade scales inversely to representative chemical shift differences between the coupled spins, and is typically a few tens of milliseconds. The high efficiency of the zero-quantum suppression and excellent retention of the desired z-magnetization, in a single scan without resort to phase cycling or difference spectroscopy, makes the z-filter cascade a useful new pulse sequence building block for a whole range of NMR experiments. In cases where unwanted residual ZQC may have previously contributed to baseline {"}t 1-noise{"} in two-dimensional NMR spectra, the z-filter cascade can deliver a noteworthy improvement in spectral quality.",

keywords = "Artifact suppression, Broadband inversion pulse, NOESY, Pulsed field gradient, z-filter, Zero-quantum coherence",

author = "Cano, {Kristin E.} and Thrippleton, {Michael J.} and James Keeler and Shaka, {A. J.}",

note = "Funding Information: This work was supported by the National Science Foundation. M.J.T. thanks the EPSRC, Proctor and Gamble, and the Newton Trust for support.",

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AU - Cano, Kristin E.

AU - Thrippleton, Michael J.

AU - Keeler, James

AU - Shaka, A. J.

N1 - Funding Information: This work was supported by the National Science Foundation. M.J.T. thanks the EPSRC, Proctor and Gamble, and the Newton Trust for support.

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N2 - A simple and robust method to suppress zero-quantum coherence (ZQC) in NMR experiments, in a single scan and with very high suppression ratio, is described. It is an appreciable improvement on a previous technique by Thrippleton and Keeler [Angew. Chem. Int. Ed. 42 (2003) 3938]. The method, called a z-filter cascade, preserves longitudinal, or z-magnetization, with high efficiency. Losses depend mostly on T1 relaxation but not T 2 relaxation mechanisms. At the same time, suppression of ZQC can be essentially complete in a single scan. The time duration of the z-filter cascade scales inversely to representative chemical shift differences between the coupled spins, and is typically a few tens of milliseconds. The high efficiency of the zero-quantum suppression and excellent retention of the desired z-magnetization, in a single scan without resort to phase cycling or difference spectroscopy, makes the z-filter cascade a useful new pulse sequence building block for a whole range of NMR experiments. In cases where unwanted residual ZQC may have previously contributed to baseline "t 1-noise" in two-dimensional NMR spectra, the z-filter cascade can deliver a noteworthy improvement in spectral quality.

AB - A simple and robust method to suppress zero-quantum coherence (ZQC) in NMR experiments, in a single scan and with very high suppression ratio, is described. It is an appreciable improvement on a previous technique by Thrippleton and Keeler [Angew. Chem. Int. Ed. 42 (2003) 3938]. The method, called a z-filter cascade, preserves longitudinal, or z-magnetization, with high efficiency. Losses depend mostly on T1 relaxation but not T 2 relaxation mechanisms. At the same time, suppression of ZQC can be essentially complete in a single scan. The time duration of the z-filter cascade scales inversely to representative chemical shift differences between the coupled spins, and is typically a few tens of milliseconds. The high efficiency of the zero-quantum suppression and excellent retention of the desired z-magnetization, in a single scan without resort to phase cycling or difference spectroscopy, makes the z-filter cascade a useful new pulse sequence building block for a whole range of NMR experiments. In cases where unwanted residual ZQC may have previously contributed to baseline "t 1-noise" in two-dimensional NMR spectra, the z-filter cascade can deliver a noteworthy improvement in spectral quality.

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Cascaded z-filters for efficient single-scan suppression of zero-quantum coherence

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