4.5(top 2%)
impact factor
197(top 50%)
papers
14.6K(top 20%)
citations
64(top 10%)
h-index
4.6(top 2%)
impact factor
221
all documents
15.2K
doc citations
117(top 10%)
g-index

Top Articles

#TitleJournalYearCitations
1Direct evaluation of thermal fluctuations in proteins using a single-parameter harmonic potentialFolding & Design19971,243
2Protein aggregation: folding aggregates, inclusion bodies and amyloidFolding & Design19981,001
3How do small single-domain proteins fold?Folding & Design1998810
4Protein folding kinetics: timescales, pathways and energy landscapes in terms of sequence-dependent propertiesFolding & Design1997390
5Protein folding funnels: the nature of the transition state ensembleFolding & Design1996304
6The concept of a random coil: Residual structure in peptides and denatured proteinsFolding & Design1996296
7Double-mutant cycles: a powerful tool for analyzing protein structure and functionFolding & Design1996284
8Discrete molecular dynamics studies of the folding of a protein-like modelFolding & Design1998283
9Probing the partly folded states of proteins by limited proteolysisFolding & Design1997279
10On-pathway versus off-pathway folding intermediatesFolding & Design1996249
11Proteolytic selection for protein folding using filamentous bacteriophagesFolding & Design1998241
12Recovery of protein structure from contact mapsFolding & Design1997230
13Protein thermal stability: hydrogen bonds or internal packing?Folding & Design1997215
14The Levinthal paradox: yesterday and todayFolding & Design1997213
15What is the probability of a chance prediction of a protein structure with an rmsd of 6 å?Folding & Design1998185
16Improving contact predictions by the combination of correlated mutations and other sources of sequence informationFolding & Design1997184
17An inverse correlation between loop length and stability in a four-helix-bundle proteinFolding & Design1997179
18Rate of protein folding near the point of thermodynamic equilibrium between the coil and the most stable chain foldFolding & Design1997176
19Chiral N-substituted glycines can form stable helical conformationsFolding & Design1997175
20A single dipeptide sequence modulates the redox properties of a whole enzyme familyFolding & Design1998174
21Conformational transitions provoked by organic solvents in β-lactoglobulin: can a molten globule like intermediate be induced by the decrease in dielectric constant?Folding & Design1997169
22Protein structures sustain evolutionary driftFolding & Design1997168
23RNA tectonics: towards RNA designFolding & Design1996166
24Scrapie prions: a three-dimensional model of an infectious fragmentFolding & Design1996165
25Structure of the transition state for folding of the 129 aa protein CheY resembles that of a smaller protein, CI-2Folding & Design1996158
26Protein design: a perspective from simple tractable modelsFolding & Design1998148
27Rapid formation of a molten globule intermediate in refolding of α-lactalbuminFolding & Design1996146
28All in one: a highly detailed rotamer library improves both accuracy and speed in the modelling of sidechains by dead-end eliminationFolding & Design1997142
29Optimum superimposition of protein structures: ambiguities and implicationsFolding & Design1996130
30Cooperativity in protein folding: from lattice models with sidechains to real proteinsFolding & Design1998129
31Pairwise calculation of protein solvent-accessible surface areasFolding & Design1998125
32How representative are the known structures of the proteins in a complete genome? A comprehensive structural censusFolding & Design1998118
33Isolation and characterization of fluorophore-binding RNA aptamersFolding & Design1998114
34Conformational switching in designed peptides: the helix/sheet transitionFolding & Design1996106
35Universality and diversity of the protein folding scenarios:a comprehensive analysis with the aid of a lattice modelFolding & Design1996106
36Structure of very early protein folding intermediates: new insights through a variant of hydrogen exchange labellingFolding & Design1996106
37Discrete intermediates versus molten globule models for protein folding: characterization of partially folded intermediates of apomyoglobinFolding & Design1998106
38Neutral networks in protein space: a computational study based on knowledge-based potentials of mean forceFolding & Design1997100
39Helmholtz free energies of atom pair interactions in proteinsFolding & Design199694
40Fold and function predictions for Mycoplasma genitalium proteinsFolding & Design199894
41An evaluation of the use of hydrogen exchange at equilibrium to probe intermediates on the protein folding pathwayFolding & Design199693
42Favourable native-like helical local interactions can accelerate protein foldingFolding & Design199792
43Ribosomes and ribosomal RNA as chaperones for folding of proteinsFolding & Design199792
44Protein hydration and unfolding – insights from experimental partial specific volumes and unfolded protein modelsFolding & Design199892
45X-ray solution scattering studies of protein foldingFolding & Design199690
46Conformational investigation of designed short linear peptides able to fold into β-hairpin structures in aqueous solutionFolding & Design199689
47Local versus nonlocal interactions in protein folding and stability –  an experimentalist's point of viewFolding & Design199686
48Stabilization of proteins by rational design of α-helix stability using helix/coil transition theoryFolding & Design199683
49Adding backbone to protein folding: why proteins are polypeptidesFolding & Design199682
50High helicity of peptide fragments corresponding to β-strand regions of β-lactoglobulin observed by 2D-NMR spectroscopyFolding & Design199678