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Characterization of protein-folding pathways by reduced-space modelingElectronic properties of amino acid side chains: quantum mechanics calculation of substituent effects.UV resonance Raman investigations of peptide and protein structure and dynamicsThe helix turn helix motif as an ultrafast independently folding domain: The pathway of folding of Engrailed homeodomainMechanism of Protein Kinetic Stabilization by Engineered Disulfide CrosslinksThe unfolded state of the villin headpiece helical subdomain: computational studies of the role of locally stabilized structureCalculation of the free energy and cooperativity of protein foldingA study on the effect of surface lysine to arginine mutagenesis on protein stability and structure using green fluorescent proteinNMR characterization of the near native and unfolded states of the PTB domain of Dok1: alternate conformations and residual clustersStart2Fold: a database of hydrogen/deuterium exchange data on protein folding and stabilityFolding kinetics of staphylococcal nuclease studied by tryptophan engineering and rapid mixing methods.Similarity and difference in the unfolding of thermophilic and mesophilic cold shock proteins studied by molecular dynamics simulationsEffects of frustration, confinement, and surface interactions on the dimerization of an off-lattice beta-barrel protein.An NMR view of the unfolding process of rusticyanin: Structural elements that maintain the architecture of a beta-barrel metalloproteinA segment of cold shock protein directs the folding of a combinatorial protein.Self-assembly of peptides into a beta-barrel motif.Transition states for protein folding have native topologies despite high structural variability.Formation of the folding nucleus of an SH3 domain investigated by loosely coupled molecular dynamics simulations.Calculation of mutational free energy changes in transition states for protein folding.On the polymer physics origins of protein folding thermodynamics.Molecular dynamics simulations of the native and partially folded states of ubiquitin: influence of methanol cosolvent, pH, and temperature on the protein structure and dynamics.Domain-swapped dimer of Pseudomonas aeruginosa cytochrome c551: structural insights into domain swapping of cytochrome c family proteinsProtein dynamism and evolvability.Prediction of functionally significant single nucleotide polymorphisms [SNPs] in PTEN tumor suppressor gene: An in silico approach.Elucidating Peptide and Protein Structure and Dynamics: UV Resonance Raman Spectroscopy.The HD-exchange motions of ribosomal protein S6 are insensitive to reversal of the protein-folding pathway.Fluorescence correlation spectroscopy shows that monomeric polyglutamine molecules form collapsed structures in aqueous solutionsCombining experiment and simulation in protein folding: closing the gap for small model systems.The complete folding pathway of a protein from nanoseconds to microseconds.A conserved folding mechanism for PDZ domains.Development of a technique for the investigation of folding dynamics of single proteins for extended time periodsHow does a knotted protein fold?Predicting peptide structures in native proteins from physical simulations of fragmentsRole of Backbone Dipole Interactions in the Formation of Secondary and Supersecondary Structures of Proteins.Deciphering the folding transition state structure and denatured state properties of nucleophosmin C-terminal domain.Kinetics and reaction coordinates of the reassembly of protein fragments via forward flux sampling.Specific collapse followed by slow hydrogen-bond formation of beta-sheet in the folding of single-chain monellinStructured pathway across the transition state for peptide folding revealed by molecular dynamics simulationsExploring the paths of (virus) assemblyProtein folding at the exit tunnel.
P2860
Q24681623-C9B2A59C-227A-451E-B287-B79152F5E97BQ24812647-A6B7256A-62F5-444D-B1F7-FED3F2C0207FQ26861612-DCAB71C9-8603-4070-B615-8CD4CB924BAFQ27644846-07B39367-FC95-4AEC-93D1-265C42A080A2Q27679527-D138CDC2-736D-4827-A7D6-3E1BA7041247Q28248224-4559E7C7-9FD5-400A-A20D-884B75F2720EQ28469199-E3F63809-C132-4315-A00E-324DEB9A410BQ28481191-35FB7BCA-5E95-45E9-8A2C-4BEE5AC9858EQ28540276-941C713E-5BC6-4DB7-8565-E1A8778B4669Q28603075-65F9256D-BB5C-469F-8B22-ED06FF7EE178Q30158038-22023FCA-91C3-4C94-A605-99C4234D89ECQ30159730-BA462FCB-0775-4DD3-BE56-33F8883C5EDCQ30159990-C6B62CB4-9082-453F-9BAB-4B9DD77C46E4Q30160192-8CB3CF2C-D9E5-42C3-864A-49AA970ECDB8Q30160341-1FE9E896-13ED-4DB8-95A5-1CE76FCB7F0EQ30163926-70667FC9-2AC8-488D-A006-71FC91CDF80BQ30164161-FDE01CC5-517F-402E-A96D-D88A196DDB50Q30164251-71278267-EB58-4F3C-B73C-190C4DA97A40Q30164603-9FA38A33-2B9A-4A7A-AD31-46462658B0ACQ30313760-628457CF-6848-49C1-9A54-8D2243AF5CF5Q30361948-F9839046-BCD6-4423-B543-8F80E521A5C0Q30373495-B9B14D1C-F608-4EF1-9FB8-B28A7F1973D9Q30376087-E5664079-09CA-4F0C-986E-EEB9464BED7CQ30383801-D3763453-ADFC-4C25-B7EE-B2ECF3E7A855Q30400458-205AD7F6-BEDF-4EBB-82B3-B1D6D7C65B9BQ30492596-9A7033F7-D63A-4714-A4F2-409BDD317064Q31072074-3B3FCA65-6EC1-4D63-A65E-84AA63D586E2Q31145148-3EBB7AC5-838D-4470-8752-1FC8CE1A7127Q33186113-8D2BFDCA-24BA-4A3A-8C66-D1B49B3F73DBQ33275051-D765F5FF-09BF-4CD3-935F-20CD9BA7D7E3Q33287397-2746C919-99E5-47C4-97F5-8B918E2D2AE0Q33346450-CF1DEE19-44AF-4AC8-A758-0336ED6EB0F4Q33406232-24797E6B-CF2D-4191-95AE-706E782D5165Q33739133-79907358-55E2-40BA-AC59-C47EE2526E6BQ33777703-BE3FA8F5-6347-4342-B106-5EA1F6059169Q33820769-120720DC-8146-4E45-A068-79FA7EF57C21Q33863164-95D9E153-1AC7-41E0-BF08-C207FB39B46DQ34022990-1FCF192B-304D-4293-8B61-BE1531269560Q34099024-BB54C8F9-69E6-430F-8AFC-024A385A7166Q34168308-BADD5A74-D2BC-4884-A8AF-FD339789100A
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Is there a unifying mechanism for protein folding?
@ast
Is there a unifying mechanism for protein folding?
@en
type
label
Is there a unifying mechanism for protein folding?
@ast
Is there a unifying mechanism for protein folding?
@en
prefLabel
Is there a unifying mechanism for protein folding?
@ast
Is there a unifying mechanism for protein folding?
@en
P1476
Is there a unifying mechanism for protein folding?
@en
P356
10.1016/S0968-0004(02)00012-9
P577
2003-01-01T00:00:00Z