Systematic analysis of domain motions in proteins from conformational change: new results on citrate synthase and T4 lysozyme S Hayward, HJC Berendsen Proteins: structure, function, and bioinformatics 30 (2), 144-154, 1998 | 943 | 1998 |
Collective protein dynamics in relation to function HJC Berendsen, S Hayward Current opinion in structural biology 10 (2), 165-169, 2000 | 508 | 2000 |
Model‐free methods of analyzing domain motions in proteins from simulation: a comparison of normal mode analysis and molecular dynamics simulation of lysozyme S Hayward, A Kitao, HJC Berendsen Proteins: Structure, Function, and Bioinformatics 27 (3), 425-437, 1997 | 338 | 1997 |
Collective variable description of native protein dynamics S Hayward, N Go Annual review of physical chemistry 46 (1), 223-250, 1995 | 328 | 1995 |
Improvements in the analysis of domain motions in proteins from conformational change: DynDom version 1.50 S Hayward, RA Lee Journal of Molecular Graphics and Modelling 21 (3), 181-183, 2002 | 316 | 2002 |
Energy landscape of a native protein: Jumping‐among‐minima model A Kitao, S Hayward, N Go Proteins: Structure, Function, and Bioinformatics 33 (4), 496-517, 1998 | 313 | 1998 |
Effect of solvent on collective motions in globular protein S Hayward, A Kitao, F Hirata, N Gō Journal of molecular biology 234 (4), 1207-1217, 1993 | 238 | 1993 |
Domain motions in bacteriophage T4 lysozyme: a comparison between molecular dynamics and crystallographic data BL de Groot, S Hayward, DMF Van Aalten, A Amadei, HJC Berendsen Proteins: Structure, Function, and Bioinformatics 31 (2), 116-127, 1998 | 220 | 1998 |
Normal modes and essential dynamics S Hayward, BL De Groot Molecular Modeling of Proteins, 89-106, 2008 | 188 | 2008 |
Harmonicity and anharmonicity in protein dynamics: a normal mode analysis and principal component analysis S Hayward, A Kitao, N Gō Proteins: Structure, Function, and Bioinformatics 23 (2), 177-186, 1995 | 187 | 1995 |
Structural principles governing domain motions in proteins S Hayward Proteins: Structure, Function, and Bioinformatics 36 (4), 425-435, 1999 | 180 | 1999 |
Harmonic and anharmonic aspects in the dynamics of BPTI: a normal mode analysis and principal component analysis S Hayward, A Kitao, N Gō Protein Science 3 (6), 936-943, 1994 | 165 | 1994 |
The DynDom database of protein domain motions RA Lee, M Razaz, S Hayward Bioinformatics 19 (10), 1290-1291, 2003 | 162 | 2003 |
A method for the analysis of domain movements in large biomolecular complexes GP Poornam, A Matsumoto, H Ishida, S Hayward Proteins: Structure, Function, and Bioinformatics 76 (1), 201-212, 2009 | 108 | 2009 |
Bending of the calmodulin central helix: a theoretical study DVD Spoel, BLD Groot, S Hayward, HJC Berendsen, HJ Vogel Protein science 5 (10), 2044-2053, 1996 | 97 | 1996 |
Identification of specific interactions that drive ligand-induced closure in five enzymes with classic domain movements S Hayward Journal of molecular biology 339 (4), 1001-1021, 2004 | 94 | 2004 |
A comprehensive and non-redundant database of protein domain movements G Qi, R Lee, S Hayward Bioinformatics 21 (12), 2832-2838, 2005 | 92 | 2005 |
Peptide‐plane flipping in proteins S Hayward Protein Science 10 (11), 2219-2227, 2001 | 90 | 2001 |
Dynamic percolation transition induced by phase separation: a Monte Carlo analysis S Hayward, DW Heermann, K Binder Journal of statistical physics 49 (5), 1053-1081, 1987 | 70 | 1987 |
Quantitative method for the assignment of hinge and shear mechanism in protein domain movements D Taylor, G Cawley, S Hayward Bioinformatics 30 (22), 3189-3196, 2014 | 58 | 2014 |