2D Heteronuclear Overhauser Effect SpectroscopY (HOESY) is an effective way to determine whether or not a pair of heteronuclear spins are close to one another in space. It is particularly effective for 1H and 19F where both nuclides are 100% naturally abundant. 2D 19F detected 19F - 1H HOESY data are typically obtained which provide all NOE correlations. 2D experiments, however, can be quite time consuming, especially when only a few NOE correlations are sought after. In such cases, 1D 1H detected 1H - 19F HOESY experiments1 are very desirable and can save a great deal of time. When only one 19F resonance is present, they can be obtained by using hard 19F pulses. This was recently illustrated well by Dr. Michael Lumsden of Dalhousie University. When more than one 19F resonance is present, one can use a selective 19F pulse and repeat the experiment selecting each type of fluorine. An example of this is shown in the figure below. Selective 1D 1H detected 1H - 19F HOESY spectra were collected for 2,3-difluoropyridine using a selective 19F pulse. The simple 19F spectra are shown on the left with the selected 19F resonance color coded. The upper two spectra on the right are the HOESY spectra while the spectrum on the bottom right is a simple 1H spectrum. One can see that when the fluorine in the 3-position is selected, there is a strong NOE to the nearest proton, C. Alternatively, when the fluorine in the 2-position is selected, there are no strong NOE's as there are no adjacent protons.
1. L.E. Combettes, P. Clausen-Thue, M.A. King, B. Odell, A.L. Thompson, V. Gouverneur and T.D.W. Claridge. Chem. Eur. J.18, 13133 (2012).
[Question from NMRWiki Q&A forum] Diagnosing 1D selective NOE issues
Diagnosing 1D selective NOE issues
I'm trying to diagnose a possible issue performing a selective 1D NOE (selnogp) on a Bruker Avance II 500Mhz with TopSpin 2.1.
I have been testing a variety of samples in D20 or D20-H20. I'm observing "strange" looking line shapes, and I was curious if you had any insight on what factors could be at play here. I'm not sure if this is a normal issue due to multiplet structures, or a possible configuration issue with our gradients.
For example, attached are two control experiments (First: 0.1% H20 in 99.9% D20 || Second: 0.1% EtOH in 99.9% D20). ...
nmrlearner
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03-05-2014 11:57 PM
[Question from NMRWiki Q&A forum] selective noesy
selective noesy
Hi, I have question for you who have Bruker instruments! On 300 MHz I worked on selective noesy pulse sequence (selnogp) and it worked perfectly (d20=0.05s, pl14=62dB and p12=90ms).When I tried it to do on 600 MHz, it did not work. Please, help me to understand it! Marijana
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02-04-2014 04:22 PM
[Question from NMRWiki Q&A forum] How to perform non-selective spectroscopy with an imager?
How to perform non-selective spectroscopy with an imager?
Greetings NMR Wiki,
I am using a Bruker Biospec 24/30, (100 MHz 1H, DBX, Pv3, XWIN), equiped with a 36mm litz coil probe, to perform basic T1 & T2 measurements as well as DOSY. The sample is water. Images look great, basic spectroscopy has a systematic error.
My prior NMR experience is in chemistry on solid state systems using the chemagnetics CMX II type spectrometer. The Bruker instrument has been sending pulses for 6 months after I made a few repairs and was dormant (cold but not pulsing) for 5 years prior.
Is anyone...
nmrlearner
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03-15-2012 06:10 AM
Frequency-selective heteronuclear dephasing and selective carbonyl labeling to deconvolute crowded spectra of membrane proteins by magic angle spinning NMR.
Frequency-selective heteronuclear dephasing and selective carbonyl labeling to deconvolute crowded spectra of membrane proteins by magic angle spinning NMR.
Frequency-selective heteronuclear dephasing and selective carbonyl labeling to deconvolute crowded spectra of membrane proteins by magic angle spinning NMR.
J Magn Reson. 2011 Mar 17;
Authors: Traaseth NJ, Veglia G
We present a new method that combines carbonyl-selective labeling with frequency-selective heteronuclear recoupling to resolve the spectral overlap of magic angle spinning (MAS) NMR...
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04-13-2011 11:57 PM
Frequency-Selective Heteronuclear Dephasing and Selective Carbonyl Labeling to Deconvolute Crowded Spectra of Membrane Proteins By Magic Angle Spinning NMR
Frequency-Selective Heteronuclear Dephasing and Selective Carbonyl Labeling to Deconvolute Crowded Spectra of Membrane Proteins By Magic Angle Spinning NMR
Publication year: 2011
Source: Journal of Magnetic Resonance, In Press, Accepted Manuscript, Available online 17 March 2011</br>
Nathaniel J., Traaseth , Gianluigi, Veglia</br>
We present a new method that combines carbonyl-selective labeling with frequency-selective heteronuclear recoupling to resolve the spectral overlap of magic angle spinning (MAS) NMR spectra of membrane proteins in fluid lipid membranes with broad lines and...
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03-18-2011 06:43 AM
Discovery of a potent and selective Bcl-2 inhibitor using SAR by NMR.
Discovery of a potent and selective Bcl-2 inhibitor using SAR by NMR.
Related Articles Discovery of a potent and selective Bcl-2 inhibitor using SAR by NMR.
Bioorg Med Chem Lett. 2010 Sep 15;
Authors: Petros AM, Huth JR, Oost T, Park CM, Ding H, Wang X, Zhang H, Nimmer P, Mendoza R, Sun C, Mack J, Walter K, Dorwin S, Gramling E, Ladror U, Rosenberg SH, Elmore SW, Fesik SW, Hajduk PJ
The Bcl-2 family of proteins plays a major role in the regulation of apoptosis, or programmed cell death. Overexpression of the anti-apoptotic members of this...
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09-29-2010 08:04 AM
[U. of Ottawa NMR Facility Blog] Gradient Spin Echoes for Selective Excitation
Gradient Spin Echoes for Selective Excitation
Shaped excitation pulses can replace the non-selective hard pulses typically used in a one-pulse measurement to achieve selective excitation. Another method of achieving selective excitation is the gradient spin echo using a selective 180° pulse. This technique is demonstrated in the figure below. http://4.bp.blogspot.com/_5wBTR2kKTqA/S_UxeG5oXdI/AAAAAAAAAzc/BHWef-Tse7s/s400/grad_spin_echo.jpgA non-selective hard 90°x pulse is first given followed by a pair of identical pulsed field gradients sandwiching a soft selective 180° pulse about the y...
1D Selective 1H - 19F HOESY
Linear Mode
