about
Facing and Overcoming Sensitivity Challenges in Biomolecular NMR SpectroscopyRelative Orientation of POTRA Domains from Cyanobacterial Omp85 Studied by Pulsed EPR Spectroscopy.Distance Measurement on an Endogenous Membrane Transporter in E. coli Cells and Native Membranes Using EPR Spectroscopy.Multifrequency pulsed electron paramagnetic resonance on metalloproteins.Base-specific spin-labeling of RNA for structure determination.An algorithm to analyze PELDOR data of rigid spin label pairs.Liquid state DNP of water at 9.2 T: an experimental access to saturation.Host-guest complexes as water-soluble high-performance DNP polarizing agents.High-field liquid state NMR hyperpolarization: a combined DNP/NMRD approach.Characterization and optimization of the visualization performance of continuous flow overhauser DNP hyperpolarized water MRI: Inversion recovery approach.Conformational states of human H-Ras detected by high-field EPR, ENDOR, and 31P NMR spectroscopy.Tailoring of Polarizing Agents in the bTurea Series for Cross-Effect Dynamic Nuclear Polarization in Aqueous Media.A PELDOR-based nanometer distance ruler for oligonucleotides.Synthesis of spin-labeled RNAs for long range distance measurements by peldor.Counting the monomers in nanometer-sized oligomers by pulsed electron-electron double resonance.High-field dynamic nuclear polarization in aqueous solutions.Dynamic nuclear polarization coupling factors calculated from molecular dynamics simulations of a nitroxide radical in water.Dynamic nuclear polarization of water by a nitroxide radical: rigorous treatment of the electron spin saturation and comparison with experiments at 9.2 Tesla.Liquid state DNP using a 260 GHz high power gyrotron.Liquid state Dynamic Nuclear Polarization probe with Fabry-Perot resonator at 9.2 T.Hydrogen bonds between nitrogen donors and the semiquinone in the Qi-site of the bc1 complex.High-field pulsed electron-electron double resonance spectroscopy to determine the orientation of the tyrosyl radicals in ribonucleotide reductaseHigh field dynamic nuclear polarization--the renaissance.Pulsed 180-GHz EPR/ENDOR/PELDOR spectroscopy.Continuous-flow DNP polarizer for MRI applications at 1.5 T.Measurement of the g-tensor of the P700+. signal from deuterated cyanobacterial photosystem I particles.Long-range distance determinations in biomacromolecules by EPR spectroscopy.Pulsed electron-electron double-resonance determination of spin-label distances and orientations on the tetrameric potassium ion channel KcsA.New pulsed EPR methods and their application to characterize mitochondrial complex I.Dynamic nuclear polarization at high magnetic fields in liquids.Flexibility and conformation of the cocaine aptamer studied by PELDOR.Flexibilities of isoindoline-derived spin labels for nucleic acids by orientation selective PELDOR.Orientation selection in photosynthetic PS I multilayers: structural investigation of the charge separated state P(700)(+z.rad;)A(1)(-z.rad;) by high-field/high-frequency time-resolved EPR at 3.4 T/95 GHz.Determination of the proton environment of high stability Menasemiquinone intermediate in Escherichia coli nitrate reductase A by pulsed EPR.1,3,5,7-Tetra-kis(4-iodo-phen-yl)adamantane benzene tetra-solvate.Direct evidence for nitrogen ligation to the high stability semiquinone intermediate in Escherichia coli nitrate reductase A.4,4',4''-(Methane-triyl)triphenyl tris-(2,2,5,5-tetra-methyl-1-oxyl-3-pyrroline-3-carboxyl-ate) benzene tris-olvate.Biphenyl-4,4'-diyl bis-(2,2,5,5-tetra-methyl-1-oxyl-3-pyrroline-3-carboxyl-ate).HYSCORE evidence that endogenous mena- and ubisemiquinone bind at the same Q site (Q(D)) of Escherichia coli nitrate reductase A.Analytical method to determine the orientation of rigid spin labels in DNA.
P50
Q26852344-BD0FA6AC-BFBD-434F-B75E-05A47C236D6AQ30152782-6AD292DB-ABFD-4BE6-A3B3-2C1D6A84295FQ30300270-95933B8D-4725-44CF-80C0-5F52E8DB0860Q30381794-30A59EA7-3980-408B-9DAC-672307A3C03CQ30479589-24A5DA52-E173-4E54-A899-479C7F4D4C7DQ30578589-EB7E0DDA-7F3A-4EAE-A58F-3F9966D164BCQ30598729-85A4C0BE-2E9D-4AC7-AAAC-3EE70D7E8A37Q30702088-A74F8238-BDD4-43E2-B54B-4FB0AD02E61CQ30839740-3885D5D5-5195-4258-A12A-04C8055F1346Q30935367-59A01F5C-9EAE-41FD-9E58-C95776F89B5EQ31012206-E89A81B7-6968-43AD-B0A6-A7B6DB4B33D8Q31060642-A63CF6D4-9E5B-42CB-B1D5-F496D52A5CCAQ33202602-89D1160D-0ADD-4038-A219-BD4EDE03024AQ33225911-1E30F3F7-7282-4EA8-AABD-FC80D7C379DCQ33284029-AE772D7E-BC28-4CEC-BF00-298CF0DB611DQ33429226-291F3199-5463-469F-9353-932311BA87A9Q33488204-C5CA06C0-89E6-4CC3-909D-D8AE20C0FFA1Q33488207-9C45EC13-B892-4C96-AAAB-80157C49D0FBQ33575979-6C7AE91C-7B3B-44CA-94B9-F784BDC1B709Q34183557-73C9A8E3-2C53-49CC-8A8A-A1BCA0E8FDA8Q34697745-E4895685-AB1B-41CE-A5EE-3B1D5EEF4AC0Q35037255-7A8D9A62-83BE-4B39-BAD3-FEA92A778F7BQ35624018-6E11C31D-BB2B-402F-AC6E-43353B98A45EQ36290717-F7956CFD-948D-491F-B996-0FBDC6B04447Q36307156-2A385BEA-E8A6-4FE2-B753-F163F2922F8EQ36594901-24B676C7-DC48-41DF-B11D-750BB8C7F4D3Q36848309-6AFCEDA9-B99B-4B15-9AE7-FF709EB4F1BBQ37426306-F0209562-A5FF-41DC-BB1A-11D904EE3BBEQ37444303-6343D631-62D2-4B07-8847-C542F93921A7Q38009411-D6B943CA-8DF4-43FC-ACC8-FE6A5735AAABQ38294467-DD31C294-531C-434D-B535-8036D53EE036Q39717117-B0433A00-7CFF-4408-B430-01E79C50F5B3Q40630437-0BE5FA2D-09F6-4715-AC50-92C0577B2085Q41221508-CEA7A9C8-80AF-475C-8A89-0D2B6684E423Q41345773-15950622-5E3F-4FA7-886C-F554BB6A2220Q41821387-A8CD8CC9-D4E0-4959-AF64-02B32B811A37Q42125811-BBF7AD0B-EB5C-4AA8-9294-951017577B68Q42373562-10FFD926-7414-4DF1-949A-AB7DAD2FF055Q43101441-951CE8E3-3416-4146-825E-817240FD9A8FQ43109742-D12B07B0-734B-44FB-91BC-97F506757A68
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Thomas F Prisner
@ast
Thomas F Prisner
@en
Thomas F Prisner
@es
Thomas F Prisner
@nl
Thomas F Prisner
@sl
type
label
Thomas F Prisner
@ast
Thomas F Prisner
@en
Thomas F Prisner
@es
Thomas F Prisner
@nl
Thomas F Prisner
@sl
prefLabel
Thomas F Prisner
@ast
Thomas F Prisner
@en
Thomas F Prisner
@es
Thomas F Prisner
@nl
Thomas F Prisner
@sl
P106
P21
P31
P496
0000-0003-2850-9573