| Solvation energies of amino acid side chains and backbone in a family of host− guest pentapeptides WC Wimley, TP Creamer, SH White Biochemistry 35 (16), 5109-5124, 1996 | 688 | 1996 |
| Polyglutamine disruption of the huntingtin exon 1 N terminus triggers a complex aggregation mechanism AK Thakur, M Jayaraman, R Mishra, M Thakur, VM Chellgren, IJ L Byeon, ... Nature structural & molecular biology 16 (4), 380-389, 2009 | 464 | 2009 |
| Side-chain entropy opposes alpha-helix formation but rationalizes experimentally determined helix-forming propensities. TP Creamer, GD Rose Proceedings of the National Academy of Sciences 89 (13), 5937-5941, 1992 | 403 | 1992 |
| A survey of left-handed polyproline II helices BJ Stapley, TP Creamer Protein Science 8 (3), 587-595, 1999 | 331 | 1999 |
| Oligoproline effects on polyglutamine conformation and aggregation A Bhattacharyya, AK Thakur, VM Chellgren, G Thiagarajan, AD Williams, ... Journal of molecular biology 355 (3), 524-535, 2006 | 291 | 2006 |
| Polyproline II helical structure in protein unfolded states: lysine peptides revisited AL Rucker, TP Creamer Protein science 11 (4), 980-985, 2002 | 290 | 2002 |
| Host− guest study of left-handed polyproline II helix formation MA Kelly, BW Chellgren, AL Rucker, JM Troutman, MG Fried, AF Miller, ... Biochemistry 40 (48), 14376-14383, 2001 | 276 | 2001 |
| Leptospira interrogans endostatin-like outer membrane proteins bind host fibronectin, laminin and regulators of complement B Stevenson, HA Choy, M Pinne, ML Rotondi, MC Miller, E DeMoll, ... PloS one 2 (11), e1188, 2007 | 270 | 2007 |
| α‐Helix‐forming propensities in peptides and proteins TP Creamer, GD Rose Proteins: Structure, Function, and Bioinformatics 19 (2), 85-97, 1994 | 230 | 1994 |
| Local interactions in protein folding: lessons from the α-helix R Aurora, TP Creamer, R Srinivasan, GD Rose Journal of Biological Chemistry 272 (3), 1413-1416, 1997 | 187 | 1997 |
| Host‐guest scale of left‐handed polyproline II helix formation AL Rucker, CT Pager, MN Campbell, JE Qualls, TP Creamer Proteins: Structure, Function, and Bioinformatics: Structure, Function, and …, 2003 | 170 | 2003 |
| Modeling unfolded states of proteins and peptides. II. Backbone solvent accessibility TP Creamer, R Srinivasan, GD Rose Biochemistry 36 (10), 2832-2835, 1997 | 169 | 1997 |
| Direct measurement of salt-bridge solvation energies using a peptide model system: implications for protein stability. WC Wimley, K Gawrisch, TP Creamer, SH White Proceedings of the National Academy of Sciences 93 (7), 2985-2990, 1996 | 159 | 1996 |
| Modeling unfolded states of peptides and proteins TP Creamer, R Srinivasan, GD Rose Biochemistry 34 (50), 16245-16250, 1995 | 146 | 1995 |
| Short sequences of non-proline residues can adopt the polyproline II helical conformation BW Chellgren, TP Creamer Biochemistry 43 (19), 5864-5869, 2004 | 137 | 2004 |
| Determinants of the polyproline II helix from modeling studies TP Creamer, MN Campbell Advances in protein chemistry 62, 263-282, 2002 | 136 | 2002 |
| Structural basis for activation of calcineurin by calmodulin J Rumi-Masante, FI Rusinga, TE Lester, TB Dunlap, TD Williams, ... Journal of molecular biology 415 (2), 307-317, 2012 | 133 | 2012 |
| Left‐handed polyproline II helix formation is (very) locally driven TP Creamer Proteins: Structure, Function, and Bioinformatics 33 (2), 218-226, 1998 | 126 | 1998 |
| Urea promotes polyproline II helix formation: implications for protein denatured states SJ Whittington, BW Chellgren, VM Hermann, TP Creamer Biochemistry 44 (16), 6269-6275, 2005 | 122 | 2005 |
| Calcineurin TP Creamer Cell Communication and Signaling 18 (1), 137, 2020 | 118 | 2020 |
