Publications
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Author Title Type [ Year] Filters: Keyword is Protein Folding and Author is Jeffrey Skolnick [Clear All Filters]
Pages
Dynamic Monte Carlo Simulations of a new lattice model of globular protein folding, structure, and dynamicsJournal of Molecular Biology 221, 499–531, 1991.
From independent modules to molten globules: observations on the nature of protein folding intermediatesProceedings of the National Academy of Sciences of the United States of America 90, 2099–100, 1993.
Monte Carlo simulations of protein folding. I. Lattice model and interaction schemeProteins 18, 338-52, 1994.
Are proteins ideal mixtures of amino acids? Analysis of energy parameter setsProtein Science: a Publication of the Protein Society 4, 2107–2117, 1995.
Prediction of quaternary structure of coiled coils. Application to mutants of the GCN4 leucine zipperJournal of Molecular Biology 251, 448–67, 1995.
Does a backwardly read protein sequence have a unique native state?Protein Engineering 9, 5–14, 1996.
Folding simulations and computer redesign of protein A three-helix bundle motifsProteins 25, 286–299, 1996.
Method for predicting the state of association of discretized protein models. Application to leucine zippers.Biochemistry 35, 955–967, 1996.
On the origin of the cooperativity of protein folding: implications from model simulationsProteins 26, 271–287, 1996.
A method for the prediction of surface "U"-turns and transglobular connections in small proteinsProteins 27, 290–308, 1997.
MONSSTER: a method for folding globular proteins with a small number of distance restraintsJournal of Molecular Biology 265, 217–241, 1997.
Assembly of protein structure from sparse experimental data: an efficient Monte Carlo modelProteins 32, 475–494, 1998.
Fold assembly of small proteins using monte carlo simulations driven by restraints derived from multiple sequence alignmentsJournal of Molecular Biology 277, 419–448, 1998.
Nativelike topology assembly of small proteins using predicted restraints in Monte Carlo folding simulationsProceedings of the National Academy of Sciences of the United States of America 95, 1020–1025, 1998.
Ab initio folding of proteins using restraints derived from evolutionary informationProteins Suppl. 3, 177–185, 1999.
De novo simulations of the folding thermodynamics of the GCN4 leucine zipperBiophysical Journal 77, 54–69, 1999.
Dynamics and thermodynamics of beta-hairpin assembly: insights from various simulation techniquesBiophysical Journal 77, 2942–52, 1999.
Monte Carlo simulation of designed helical proteinsActa Poloniae Pharmaceutica – Drug Research 57 Suppl, 119-21, 2000.
Structural genomics and its importance for gene function analysisNature Biotechnology 18, 283–287, 2000.
Structure of proteins: New approach to molecular modelingPolish Journal of Chemistry 75, 587–599, 2001.