about
Chemistry and antihypertensive effects of tempol and other nitroxidesRecent excitements in protein NMR: Large proteins and biologically relevant dynamics.Water-proton-spin-lattice-relaxation dispersion of paramagnetic protein solutions.Reorganization of lipid domain structure in membranes by a transmembrane peptide: an ESR spin label study on the effect of the Escherichia coli outer membrane protein A signal peptide on the fluid lipid domain connectivity in binary mixtures of dimyTheory, practice, and applications of paramagnetic relaxation enhancement for the characterization of transient low-population states of biological macromolecules and their complexes.Electron spin resonance studies of lipid-protein interaction in human serum lipoproteinsSpin labeling of a cysteine residue of the Escherichia coli outer membrane lipoprotein in its membrane environment.Evidence that the two free sulfhydryl groups of plasma fibronectin are in different local environments. Saturation-recovery electron spin resonance studyVisualizing transient dark states by NMR spectroscopy.Glycophorin in lipid bilayersSpin-labeled nucleic acids.Practical aspects of (1)H transverse paramagnetic relaxation enhancement measurements on macromolecules.Spin-labeled hemoglobin crystals.A spin-labeled substrate for alpha-chymotrypsin.The interaction of the free radical of 5-methylphenazinium methyl sulfate with the light-induced free radical of Rhodospirillum rubrum chromatophores.The crystal and molecular structure of the potassium salt of 2,2,5,5-tetramethyl-3-carboxypyrroline-1-oxylIn vivo EPR measurement of glutathione in tumor-bearing mice using improved disulfide biradical probe.Use of electron paramagnetic resonance spectroscopy to evaluate the redox state in vivoPeptide-Membrane Interactions by Spin-Labeling EPRParamagnetic labelling of proteins and oligonucleotides for NMR.New developments in spin labels for pulsed dipolar EPR.Orthogonal spin labeling and Gd(III)-nitroxide distance measurements on bacteriophage T4-lysozyme.Spin-labelled nucleic acids.Protein docking using an ensemble of spin labels optimized by intra-molecular paramagnetic relaxation enhancement.Maleimido-proxyl as an EPR spin label for the evaluation of conformational changes of albumin.
P2860
Q24658069-56FBEA75-7A62-4E9E-AC24-860FAEC5DF8CQ30396412-C9114717-EEF6-42CA-9F01-C52F60200436Q30428578-4404241D-60B5-4C0C-BEFD-926A31323C02Q30447663-5CD97546-A4D2-4165-A7F0-9257EF61500EQ33671554-DA6F0FF4-49A3-41FB-9FED-468A0B7CB167Q33820261-4AD7FB93-7B80-4EE7-BA64-28DAE698C113Q33954132-6C394A43-2455-49E4-8240-3BB00339B095Q34124936-830381E0-D18E-4523-ABF3-F39B8C6E1473Q34464287-B076E9E2-23DF-4476-BB9E-72EB9B9FE2D3Q35118422-392287B5-21E4-4791-A6BC-6FBA4BE02CC2Q35976245-09752A1D-BE9F-433D-B03D-3D51187C5456Q36014489-733122D2-5211-43B9-A623-8B0DF347ACF6Q36381173-EC5FA793-B2BE-4BB9-BFFC-87F582E9CCE7Q36457611-FFAF6EF8-2043-4928-8F4B-469D4A989B66Q36465535-4DAB30BA-5677-4A5A-901B-CBB521306C15Q36475552-1CE5474E-F280-41AA-8851-C1D1740108B7Q36808580-C1C2A461-ACEF-467C-A1C3-6A5B24568A01Q36901986-E2B35D78-C620-44FE-B414-AA97A9BB741BQ37226855-08C8FF14-BFBB-4140-B76D-7F0731043128Q37520719-B20BF8F8-AE28-4115-A9F0-5C65121BA083Q38262468-9C857255-7DEC-42A6-AFCD-D7717190B3C9Q40059050-BE0DA934-4598-42E2-9A56-B21723B9EB25Q40101266-B1EEDFB8-A60A-4D07-ADCE-7C9AC6E3F7F4Q40555148-FA5D8DAC-988E-43B6-8B3F-833CE4F4810AQ46301730-6E61FF68-B2CF-462B-86B8-882BF2D8D6BB
P2860
description
1966 nî lūn-bûn
@nan
1966 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1966 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1966年の論文
@ja
1966年論文
@yue
1966年論文
@zh-hant
1966年論文
@zh-hk
1966年論文
@zh-mo
1966年論文
@zh-tw
1966年论文
@wuu
name
A nitroxide-maleimide spin label
@ast
A nitroxide-maleimide spin label
@en
type
label
A nitroxide-maleimide spin label
@ast
A nitroxide-maleimide spin label
@en
prefLabel
A nitroxide-maleimide spin label
@ast
A nitroxide-maleimide spin label
@en
P356
P1476
A nitroxide-maleimide spin label
@en
P2093
Griffith OH
McConnell HM
P356
10.1073/PNAS.55.1.8
P407
P577
1966-01-01T00:00:00Z