scholarly article | Q13442814 |
P50 | author | Daniel P Raleigh | Q56423022 |
P2093 | author name string | David Eliezer | |
Sebastian McClendon | |||
Bing Shan | |||
Carla Rospigliosi | |||
P2860 | cites work | Using NMRView to visualize and analyze the NMR spectra of macromolecules | Q27860567 |
NMRPipe: a multidimensional spectral processing system based on UNIX pipes | Q27860859 | ||
Measurement of J and dipolar couplings from simplified two-dimensional NMR spectra | Q27860984 | ||
Relationship between nuclear magnetic resonance chemical shift and protein secondary structure | Q28252147 | ||
Direct measurement of distances and angles in biomolecules by NMR in a dilute liquid crystalline medium | Q28253146 | ||
Nuclear magnetic dipole interactions in field-oriented proteins: information for structure determination in solution | Q29041975 | ||
1H, 13C and 15N random coil NMR chemical shifts of the common amino acids. I. Investigations of nearest-neighbor effects | Q29616506 | ||
NOE data demonstrating a compact unfolded state for an SH3 domain under non-denaturing conditions. | Q30175436 | ||
Comparison of the backbone dynamics of a folded and an unfolded SH3 domain existing in equilibrium in aqueous buffer. | Q30193714 | ||
Cold denaturation of proteins under high pressure. | Q30330246 | ||
Ribosomal Protein L9: A Structure Determination by the Combined Use of X-ray Crystallography and NMR Spectroscopy | Q56463555 | ||
Cold Denaturation and Aggregation: A Comparative NMR Study of Titin I28 in Bulk and in a Confined Environment | Q57588190 | ||
Cold denaturation of ubiquitin at high pressure | Q57894823 | ||
Mutational Analysis of the Folding Transition State of the C-Terminal Domain of Ribosomal Protein L9: A Protein with an Unusual β-Sheet Topology† | Q59600458 | ||
The Cold Denatured State Is Compact but Expands at Low Temperatures: Hydrodynamic Properties of the Cold Denatured State of the C-terminal Domain of L9 | Q59600462 | ||
Denatured State Effects and the Origin of Nonclassical φ Values in Protein Folding | Q59600464 | ||
Cold denaturation of barstar: 1H, 15N and 13C NMR assignment and characterisation of residual structure | Q71198469 | ||
Mechanism of helix induction by trifluoroethanol: a framework for extrapolating the helix-forming properties of peptides from trifluoroethanol/water mixtures back to water | Q73470090 | ||
Protein dynamics from NMR | Q74779717 | ||
Low-temperature studies of encapsulated proteins. | Q30351490 | ||
Sensitivity of secondary structure propensities to sequence differences between alpha- and gamma-synuclein: implications for fibrillation | Q30357845 | ||
Stability of protein structure and hydrophobic interaction. | Q30403599 | ||
Cold denaturation of myoglobin | Q30406416 | ||
Direct access to the cooperative substructure of proteins and the protein ensemble via cold denaturation | Q30909229 | ||
Combined NMR-observation of cold denaturation in supercooled water and heat denaturation enables accurate measurement of deltaC(p) of protein unfolding | Q31012503 | ||
Cold denaturation and 2H2O stabilization of a staphylococcal nuclease mutant | Q31033948 | ||
Dynamics of low temperature induced water shedding from AOT reverse micelles | Q31036449 | ||
Cold denaturation of encapsulated ubiquitin | Q31054570 | ||
Statistical coil model of the unfolded state: resolving the reconciliation problem | Q33222591 | ||
Psychrophilic enzymes: revisiting the thermodynamic parameters of activation may explain local flexibility | Q34087734 | ||
A structural model for unfolded proteins from residual dipolar couplings and small-angle x-ray scattering. | Q34144652 | ||
High-resolution, high-pressure NMR studies of proteins | Q34168473 | ||
Psychrophilic enzymes: hot topics in cold adaptation | Q34307568 | ||
Amino acid type determination in the sequential assignment procedure of uniformly 13C/15N-enriched proteins. | Q34363664 | ||
High-resolution nuclear magnetic resonance studies of proteins | Q34620041 | ||
Exchange-transferred NOE spectroscopy and bound ligand structure determination | Q35564024 | ||
Characterizing residual structure in disordered protein States using nuclear magnetic resonance. | Q36587216 | ||
High-pressure NMR spectroscopy of proteins and membranes | Q36722686 | ||
Unbiased cold denaturation: low- and high-temperature unfolding of yeast frataxin under physiological conditions | Q37148556 | ||
Multiple tight phospholipid-binding modes of alpha-synuclein revealed by solution NMR spectroscopy | Q37258811 | ||
Cold denaturation of proteins | Q37977046 | ||
Probing molecular motion by NMR. | Q41622387 | ||
The unfolded state of the C-terminal domain of the ribosomal protein L9 contains both native and non-native structure | Q42557995 | ||
THE TEMPERATURE COEFFICIENT OF THE UREA DENATURATION OF EGG ALBUMIN. | Q42843837 | ||
The low-pH unfolded state of the C-terminal domain of the ribosomal protein L9 contains significant secondary structure in the absence of denaturant but is no more compact than the low-pH urea unfolded state | Q43066044 | ||
Long-range interactions within a nonnative protein | Q43901723 | ||
pH-dependent stability and folding kinetics of a protein with an unusual alpha-beta topology: the C-terminal domain of the ribosomal protein L9. | Q44019108 | ||
Direct demonstration of structural similarity between native and denatured eglin C. | Q44831395 | ||
Structural characterization of unfolded states of apomyoglobin using residual dipolar couplings | Q44966155 | ||
Reverse micelle encapsulation as a model for intracellular crowding | Q45421548 | ||
Protein cold denaturation as seen from the solvent. | Q46179481 | ||
Cold denaturation of yeast frataxin offers the clue to understand the effect of alcohols on protein stability | Q46508123 | ||
Structural and dynamical properties of a denatured protein. Heteronuclear 3D NMR experiments and theoretical simulations of lysozyme in 8 M urea | Q46667139 | ||
On the origin of residual dipolar couplings from denatured proteins | Q47331925 | ||
Dynamics in the unfolded state of beta2-microglobulin studied by NMR. | Q52858320 | ||
Observation of residual dipolar couplings in short peptides. | Q52948319 | ||
P433 | issue | 13 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 4669-4677 | |
P577 | publication date | 2010-04-01 | |
P1433 | published in | Journal of the American Chemical Society | Q898902 |
P1476 | title | The cold denatured state of the C-terminal domain of protein L9 is compact and contains both native and non-native structure | |
P478 | volume | 132 |