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Filterable Agents for Hyperpolarization of Water, Metabolites, and Proteins.Investigation of Intrinsically Disordered Proteins through Exchange with Hyperpolarized Water.Anisotropic longitudinal electronic relaxation affects DNP at cryogenic temperatures.Single-scan 13C diffusion-ordered NMR spectroscopy of DNP-hyperpolarised substrates.NMR probing and visualization of correlated structural fluctuations in intrinsically disordered proteins.Network representation of protein interactions-Experimental results.Network representation of protein interactions: Theory of graph description and analysis.Hydrophobic Collapse of the Intrinsically Disordered Transcription Factor Myc Associated Factor X.Characterizing Thermal Mixing Dynamic Nuclear Polarization via Cross-Talk between Spin Reservoirs.Communication: Dissolution DNP reveals a long-lived deuterium spin state imbalance in methyl groups.Sample Ripening through Nanophase Separation Impacts the Performance of Dynamic Nuclear Polarization.Dissolution dynamic nuclear polarization of deuterated molecules enhanced by cross-polarization.Hyperpolarized NMR Spectroscopy: d-DNP, PHIP, and SABRE TechniquesHigh-Resolution NMR of Folded Proteins in Hyperpolarized Physiological SolventsSensitivity-enhanced three-dimensional and carbon-detected two-dimensional NMR of proteins using hyperpolarized waterA DNP-hyperpolarized solid-state water NMR MASER: observation and qualitative analysisConformational tuning of a DNA-bound transcription factorRelaxation of long-lived modes in NMR of deuterated methyl groupsNanoparticle-Coupled Topical Methotrexate Can Normalize Immune Responses and Induce Tissue Remodeling in PsoriasisLong-Lived States in Hyperpolarized Deuterated Methyl Groups Reveal Weak Binding of Small Molecules to ProteinsHyperpolarized Water Enhances Two-Dimensional Proton NMR Correlations: A New Approach for Molecular InteractionsTransport of hyperpolarized samples in dissolution-DNP experimentsApplication and methodology of dissolution dynamic nuclear polarization in physical, chemical and biological contexts
P50
Q31122693-B11A16F8-ED1B-4FA2-B676-5182422C20E0Q31146919-58AF1FDC-2E29-43C3-86BF-30088C2931AEQ36396761-CDA179B8-4944-47D3-B707-E0B1D7D0A2ABQ38600604-6035EEBB-857E-4231-8943-76A4A83778CFQ38842869-D453C1FF-A29F-4462-A71F-696601DBED06Q39703271-B999E724-B4E8-4803-A7A3-1E89DD7E6F22Q39703360-CECD0D44-11E3-4A46-AD34-60C23BE7A116Q47842974-22EC3AE3-1C63-48F3-9B8F-EEF440DD7A9FQ48115448-E188B581-AE22-4907-96D5-A52B69B3940FQ48288207-BB1571C0-56C9-4582-8AE3-671A42678BEBQ50047560-F87404FF-AB27-48E0-88BB-D527E74C48A3Q51051611-E3545B6D-D2F6-4C79-AB07-39F2CC2374B6Q60314017-122E16FA-D15B-4C20-A1E6-F0904C7D4617Q89402791-36344163-9EF9-48AC-850B-CB6883FBD494Q89630880-369CAE81-060F-4CA8-9D47-57BE0C66D9A5Q90246466-C90C8885-F51F-4F94-ADDF-C7F4D2BF5B42Q90290658-552A156D-6508-4056-A820-76D79DF24329Q90837710-BAF5D731-B1F8-4698-B380-F75D44FB5756Q91069198-756C00E3-42EB-4EE2-B71C-A022DB86FC22Q92323498-EB0D99DD-82B9-40DF-A9CE-24F5E5914F85Q92334904-4D0EE5A1-541D-4E45-A300-DC28335B896BQ92743800-FAFD79A2-3FED-449E-8E15-BED002A6761EQ92773364-1B43B20B-EAF0-43AB-9601-ADE54C284578
P50
description
researcher ORCID ID = 0000-0001-6455-2136
@en
wetenschapper
@nl
name
D Kurzbach
@ast
D Kurzbach
@en
D Kurzbach
@nl
type
label
D Kurzbach
@ast
D Kurzbach
@en
D Kurzbach
@nl
prefLabel
D Kurzbach
@ast
D Kurzbach
@en
D Kurzbach
@nl
P106
P31
P496
0000-0001-6455-2136