A bidentate iridium carbene complex, Ir(kappaC,O-L1)(COD), has been synthesised which contains a strongly electron donating carbene ligand that is functionalised by a cis-spanning phenolate group. This complex acts as a precursor to effective magnetisation transfer catalysts which form after reaction with H2 and a suitable two electron donor. In solvents such as benzene, containing pyridine, they are exemplified by neutral, chiral Ir(H)2(kappaC,O-L1)(py)2 with inequivalent hydride ligands and Ir-O bond retention, whilst in methanol, Ir-O bond cleavage leads to zwitterionic [Ir(H)2(kappaC,O(-)-L1)(py)3](+), with chemically equivalent hydride ligands. The active catalyst's form is therefore solvent dependent. Both these complexes break the magnetic symmetry of the hydride ligands and are active in the catalytic transfer of polarisation from parahydrogen to a loosely bound ligand. Test results on pyridine, nicotinaldehyde and nicotine reveal up to approximately 1.2% single spin proton polarisation levels in their (1)H NMR signals which compare to the normal 0.003% level at 9.4 Tesla. These results exemplify how rational catalyst design yields a solvent dependent catalyst with good SABRE activity.
Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location
From The DNP-NMR Blog:
Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location
Liao, S.Y., et al., Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location. J Biomol NMR, 2016: p. 1-15.
http://www.ncbi.nlm.nih.gov/pubmed/26873390
nmrlearner
News from NMR blogs
0
02-25-2016 05:21 AM
[NMR paper] Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location.
Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location.
Related Articles Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location.
J Biomol NMR. 2016 Feb 12;
Authors: Liao SY, Lee M, Wang T, Sergeyev IV, Hong M
Abstract
Although dynamic nuclear polarization (DNP) has dramatically enhanced solid-state NMR spectral sensitivities of many synthetic materials and some biological macromolecules, recent studies of membrane-protein DNP using...
nmrlearner
Journal club
0
02-14-2016 08:25 PM
Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location
Efficient DNP NMR of membrane proteins: sample preparation protocols, sensitivity, and radical location
Abstract
Although dynamic nuclear polarization (DNP) has dramatically enhanced solid-state NMR spectral sensitivities of many synthetic materials and some biological macromolecules, recent studies of membrane-protein DNP using exogenously doped paramagnetic radicals as polarizing agents have reported varied and sometimes surprisingly limited enhancement factors. This motivated us to carry out a systematic evaluation of sample preparation protocols...
nmrlearner
Journal club
0
02-12-2016 11:26 PM
[NMR images] 13C-NOESY-HSQC magnetisation transfer
http://www.protein-nmr.org.uk/pictures/experiment_types/13c_noesy_hsqc.png
7/06/2014 7:13:57 PM GMT
13C-NOESY-HSQC magnetisation transfer
More...
nmrlearner
NMR pictures
0
06-07-2014 07:12 PM
[NMR paper] Efficient polarization transfer between spin-1/2 and (14)N nuclei in solid-state MAS NMR spectroscopy.
Efficient polarization transfer between spin-1/2 and (14)N nuclei in solid-state MAS NMR spectroscopy.
Related Articles Efficient polarization transfer between spin-1/2 and (14)N nuclei in solid-state MAS NMR spectroscopy.
J Magn Reson. 2014 May 9;244C:85-89
Authors: Basse K, Jain SK, Bakharev O, Nielsen NC
Abstract
Polarization transfer between spin-1/2 nuclei and quadrupolar spin-1 nuclei such as (14)N in solid-state NMR is severely challenged by the typical presence of large quadrupole coupling interactions. This has...
nmrlearner
Journal club
0
06-02-2014 10:02 PM
[NMR paper] Overcoming solvent saturation-transfer artifacts in protein NMR at neutral pH. Applic
Overcoming solvent saturation-transfer artifacts in protein NMR at neutral pH. Application of pulsed field gradients in measurements of 1H-15N Overhauser effects.
Related Articles Overcoming solvent saturation-transfer artifacts in protein NMR at neutral pH. Application of pulsed field gradients in measurements of 1H-15N Overhauser effects.
J Magn Reson B. 1994 Sep;105(1):45-51
Authors: Li YC, Montelione GT
Artifacts due to solvent saturation-transfer effects result in incorrect measurements of 1H-15N heteronuclear NOE (HNOE). These artifacts...