Homonuclear long-range correlation spectra from HMBC experiments by covariance processing

Norbert Müller; Wolfgang Schöfberger

Homonuclear long-range correlation spectra from HMBC experiments by covariance processing

Institut für Anorganische Chemie

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

Abstract

We present a newapplication of covariance nuclear magnetic resonance processing based on 1H13C-HMBC experiments which provides an effective way for establishing indirect 1H1H and 13C13C nuclear spin connectivity at natural isotope abundance. Themethod, which identifies correlated spin networks in terms of covariance between one-dimensional traces from a single decoupledHMBC experiment, derives 13C13C as well as 1H1H spin connectivity maps from the two-dimensional frequency domain heteronuclear longrange correlation data matrix. The potential and limitations of this novel covariance NMR application are demonstrated on two compounds: eugenyl-b-D-glucopyranoside and an emodin-derivative.

Originalsprache	Englisch
Seiten (von - bis)	583-589
Seitenumfang	7
Fachzeitschrift	Magnetic Resonance in Chemistry
Volume	45
Publikationsstatus	Veröffentlicht - 2007

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104015 Organische Chemie

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abstract = "We present a newapplication of covariance nuclear magnetic resonance processing based on 1H13C-HMBC experiments which provides an effective way for establishing indirect 1H1H and 13C13C nuclear spin connectivity at natural isotope abundance. Themethod, which identifies correlated spin networks in terms of covariance between one-dimensional traces from a single decoupledHMBC experiment, derives 13C13C as well as 1H1H spin connectivity maps from the two-dimensional frequency domain heteronuclear longrange correlation data matrix. The potential and limitations of this novel covariance NMR application are demonstrated on two compounds: eugenyl-b-D-glucopyranoside and an emodin-derivative.",

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AB - We present a newapplication of covariance nuclear magnetic resonance processing based on 1H13C-HMBC experiments which provides an effective way for establishing indirect 1H1H and 13C13C nuclear spin connectivity at natural isotope abundance. Themethod, which identifies correlated spin networks in terms of covariance between one-dimensional traces from a single decoupledHMBC experiment, derives 13C13C as well as 1H1H spin connectivity maps from the two-dimensional frequency domain heteronuclear longrange correlation data matrix. The potential and limitations of this novel covariance NMR application are demonstrated on two compounds: eugenyl-b-D-glucopyranoside and an emodin-derivative.

M3 - Article

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