A three-state prediction of single point mutations on protein stability changes

Prevost M(1991)Contribution of the hydrophobic effect to protein stability: analysis based on simulations of the Ile-96-Ala mutation in barnase Proc Natl Acad Sci U S A 88 10880-10884

Wodak SJ(1997)Prediction of the stability of protein mutants based on structural environment-dependent amino acid substitution and propensity tables Protein Eng 10 7-21

Tidor B(2000)Exhaustive mutagenesis in silico: multicoordinate free energy calculations on proteins and peptides Proteins 41 385-397

Karplus M(1997)Predicting protein stability changes upon mutation using database-derived potentials: solvent accessibility determines the importance of local versus non-local interactions along the sequence J. Mol. Biol 272 276-290

Topham CM(2002)PoPMuSiC, rationally designing point mutations in protein structures Bioinformatics 18 1701-1702

Srinivasan N(2001)Are the parameters of various stabilization factors estimated from mutant human lysozymes compatible with other proteins? Protein Eng 14 127-134

Blundell TL(2002)Predicting changes in the stability of proteins and protein complexes: a study of more than 1000 mutations J Mol Biol 320 369-387

Pitera JW(2002)Distance-scaled, finite ideal-gas reference state improves structure-derived potentials of mean force for structure selection and stability prediction Protein Sci 11 2714-2726

Kollman PA(2006)CUPSAT: prediction of protein stability upon point mutations Nucleic Acids Research 34 W239-42

Gilis D(2007)Structural analysis and prediction of protein mutant stability using distance and torsion potentials: role of secondary structure and solvent accessibility Proteins 66 41-52

Prevost M(1991)Contribution of the hydrophobic effect to protein stability: analysis based on simulations of the Ile-96-Ala mutation in barnase Proc Natl Acad Sci U S A 88 10880-10884

Wodak SJ(1997)Prediction of the stability of protein mutants based on structural environment-dependent amino acid substitution and propensity tables Protein Eng 10 7-21

Tidor B(2000)Exhaustive mutagenesis in silico: multicoordinate free energy calculations on proteins and peptides Proteins 41 385-397

Karplus M(1997)Predicting protein stability changes upon mutation using database-derived potentials: solvent accessibility determines the importance of local versus non-local interactions along the sequence J. Mol. Biol 272 276-290

Topham CM(2002)PoPMuSiC, rationally designing point mutations in protein structures Bioinformatics 18 1701-1702

Srinivasan N(2001)Are the parameters of various stabilization factors estimated from mutant human lysozymes compatible with other proteins? Protein Eng 14 127-134

Blundell TL(2002)Predicting changes in the stability of proteins and protein complexes: a study of more than 1000 mutations J Mol Biol 320 369-387

Pitera JW(2002)Distance-scaled, finite ideal-gas reference state improves structure-derived potentials of mean force for structure selection and stability prediction Protein Sci 11 2714-2726

Kollman PA(2006)CUPSAT: prediction of protein stability upon point mutations Nucleic Acids Research 34 W239-42

Gilis D(2007)Structural analysis and prediction of protein mutant stability using distance and torsion potentials: role of secondary structure and solvent accessibility Proteins 66 41-52