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Results:
1-19
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Results: 19
Authors:
Kremer, W
Kalbitzer, HR
Citation: W. Kremer et Hr. Kalbitzer, Physiological conditions and practicality for protein nuclear magnetic resonance spectroscopy: Experimental methodologies and theoretical background, METH ENZYM, 339, 2001, pp. 3-19
Authors:
Bagby, S
Tong, KI
Ikura, M
Citation: S. Bagby et al., Optimization of protein solubility and stability for protein nuclear magnetic resonance, METH ENZYM, 339, 2001, pp. 20-41
Authors:
Cowburn, D
Muir, TW
Citation: D. Cowburn et Tw. Muir, Segmental isotopic labeling using expressed protein ligation, METH ENZYM, 339, 2001, pp. 41-54
Authors:
Flynn, PF
Wand, AJ
Citation: Pf. Flynn et Aj. Wand, High-resolution nuclear magnetic resonance of encapsulated proteins dissolved in low viscosity fluids, METH ENZYM, 339, 2001, pp. 54-70
Authors:
Linge, JP
O'Donoghue, SI
Nilges, M
Citation: Jp. Linge et al., Automated assignment of ambiguous nuclear overhauser effects with ARIA, METH ENZYM, 339, 2001, pp. 71-90
Authors:
Moseley, HNB
Monleon, D
Montelione, GT
Citation: Hnb. Moseley et al., Automatic determination of protein backbone resonance assignments from triple resonance nuclear magnetic resonance data, METH ENZYM, 339, 2001, pp. 91-108
Authors:
Fushman, D
Cowburn, D
Citation: D. Fushman et D. Cowburn, Nuclear magnetic resonance relaxation in determination of residue-specificN-15 chemical shift tensors in proteins in solution: Protein dynamics, structure, and applications of transverse relaxation optimized spectroscopy, METH ENZYM, 339, 2001, pp. 109-126
Authors:
Bax, A
Kontaxis, G
Tjandra, N
Citation: A. Bax et al., Dipolar couplings in macromolecular structure determination, METH ENZYM, 339, 2001, pp. 127-174
Authors:
Kay, LE
Citation: Le. Kay, Nuclear magnetic resonance methods for high molecular weight proteins: A study involving a complex of maltose binding protein and beta-cyclodextrin, METH ENZYM, 339, 2001, pp. 174-203
Authors:
Palmer, AG
Kroenke, CD
Loria, JP
Citation: Ag. Palmer et al., Nuclear magnetic resonance methods for quantifying microsecond-to-millisecond motions in biological macromolecules, METH ENZYM, 339, 2001, pp. 204-238
Authors:
Walters, KJ
Ferentz, AE
Hare, BJ
Hidalgo, P
Jasanoff, A
Matsuo, H
Wagner, G
Citation: Kj. Walters et al., Characterizing protein-protein complexes and oligomers by nuclear magneticresonance spectroscopy, METH ENZYM, 339, 2001, pp. 238-258
Authors:
Dyson, HJ
Wright, PE
Citation: Hj. Dyson et Pe. Wright, Nuclear magnetic resonance methods for elucidation of structure and dynamics in disordered states, METH ENZYM, 339, 2001, pp. 258-270
Authors:
Damberg, P
Jarvet, J
Graslund, A
Citation: P. Damberg et al., Micellar systems as solvents in peptide and protein structure determination, METH ENZYM, 339, 2001, pp. 271-285
Authors:
Opella, SJ
Ma, C
Marassi, FM
Citation: Sj. Opella et al., Nuclear magnetic resonance of membrane-associated peptides and proteins, METH ENZYM, 339, 2001, pp. 285-313
Authors:
Bertini, I
Luchinat, C
Piccioli, M
Citation: I. Bertini et al., Paramagnetic probes in metalloproteins, METH ENZYM, 339, 2001, pp. 314-340
Authors:
Dotsch, V
Citation: V. Dotsch, Protein-DNA interactions, METH ENZYM, 339, 2001, pp. 343-357
Authors:
Allen, M
Varani, L
Varani, G
Citation: M. Allen et al., Nuclear magnetic resonance methods to study structure and dynamics of RNA-protein complexes, METH ENZYM, 339, 2001, pp. 357-376
Authors:
Qin, J
Vinogradova, O
Gronenborn, AM
Citation: J. Qin et al., Protein-protein interactions probed by nuclear magnetic resonance spectroscopy, METH ENZYM, 339, 2001, pp. 377-389
Authors:
Tycko, R
Citation: R. Tycko, Solid-state nuclear magnetic resonance techniques for structural studies of amyloid fibrils, METH ENZYM, 339, 2001, pp. 390-413
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