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Heteronuclear multiple bond correlation constant-time experiments

To obtain information about the glycosidic linkage, 1H—1H NOESY/ROESY and/or long-range 1H—13C correlated spectra, heteronuclear multiple bond correlation (HMBC) or CT (constant time)-HMBC,12 are recorded. The combined 2D HSQC(HMQC)-NOESY(ROESY) experiments could also be helpful, but have limited applications due to their low sensitivity in samples with natural abundance of 13C. [Pg.199]

Fig. 14. IMPEACH-MBC (IMproved PErformance ACcordion-optimized Heteionucicar multiple bond correlation) pulse sequence developed by Martin and co-workers. The experiment is a further modification of the ACCORD-HMBC experiment that utilizes a constant time variable delay in lieu of a simple variable delay. The con.stant time variable delay introduces the interval, D/2 — 180° "C — D/2, which precedes the variable delay interval, vd. As the evolution lime ti is incremented, the interval vd is decremented in the usual fashion. However, at the same time, the Dll (ct A) intervals are incremented in a manner to keep the overall duration of the period D + vd a constant time interval. Hence, homonuclear modulation, which plagues ACCORD-HMBC experiments, is suppressed by the constant time of the intcrv al D + vd. In contrast, evolving heteronuclear couplings arc refocused at time D by the 180° - C pulse located at DU. These couplings then evolve during the variable interval vd to be sampled in the usual, accordion manner. By using this approach, the constant time variable delay pulse sequence element is of constant duration for homonuclear components of magnetization while serving as a variable delay for heteronuclear components. Fig. 14. IMPEACH-MBC (IMproved PErformance ACcordion-optimized Heteionucicar multiple bond correlation) pulse sequence developed by Martin and co-workers. The experiment is a further modification of the ACCORD-HMBC experiment that utilizes a constant time variable delay in lieu of a simple variable delay. The con.stant time variable delay introduces the interval, D/2 — 180° "C — D/2, which precedes the variable delay interval, vd. As the evolution lime ti is incremented, the interval vd is decremented in the usual fashion. However, at the same time, the Dll (ct A) intervals are incremented in a manner to keep the overall duration of the period D + vd a constant time interval. Hence, homonuclear modulation, which plagues ACCORD-HMBC experiments, is suppressed by the constant time of the intcrv al D + vd. In contrast, evolving heteronuclear couplings arc refocused at time D by the 180° - C pulse located at DU. These couplings then evolve during the variable interval vd to be sampled in the usual, accordion manner. By using this approach, the constant time variable delay pulse sequence element is of constant duration for homonuclear components of magnetization while serving as a variable delay for heteronuclear components.

See other pages where Heteronuclear multiple bond correlation constant-time experiments is mentioned: [Pg.18]    [Pg.158]    [Pg.316]    [Pg.1045]    [Pg.73]    [Pg.218]    [Pg.138]    [Pg.139]    [Pg.166]    [Pg.235]    [Pg.139]   
See also in sourсe #XX -- [ Pg.335 ]




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Bond correlation

Constant multiplication

Constant-time experiments

Correlating Constants

Correlation experiments

Correlation time constants

Correlation times

Heteronuclear 2-bond correlation

Heteronuclear correlations

Heteronuclear experiment

Heteronuclear multiple bond correlation correlations

Heteronuclear multiple bond correlation experiment

Heteronuclear multiple-bond

Heteronuclear multiple-bond correlation

Multiple bond correlations

Multiple correlation

Multiple heteronuclear

Time constant

Time experiment

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