| Factors enhancing protein thermostability S Kumar, CJ Tsai, R Nussinov Protein engineering 13 (3), 179-191, 2000 | 1186 | 2000 |
| Folding funnels, binding funnels, and protein function CJ Tsai, S Kumar, B Ma, R Nussinov Protein Science 8 (6), 1181-1190, 1999 | 794 | 1999 |
| Folding funnels and binding mechanisms B Ma, S Kumar, CJ Tsai, R Nussinov Protein engineering 12 (9), 713-720, 1999 | 718 | 1999 |
| Allostery in disease and in drug discovery R Nussinov, CJ Tsai Cell 153 (2), 293-305, 2013 | 710 | 2013 |
| Folding and binding cascades: dynamic landscapes and population shifts S Kumar, B Ma, CJ Tsai, N Sinha, R Nussinov Protein science 9 (1), 10-19, 2000 | 707 | 2000 |
| Hydrogen bonds and salt bridges across protein-protein interfaces. D Xu, CJ Tsai, R Nussinov Protein engineering 10 (9), 999-1012, 1997 | 568 | 1997 |
| Studies of protein‐protein interfaces: a statistical analysis of the hydrophobic effect CJ Tsai, SL Lin, HJ Wolfson, R Nussinov Protein Science 6 (1), 53-64, 1997 | 554 | 1997 |
| Allostery: absence of a change in shape does not imply that allostery is not at play CJ Tsai, A Del Sol, R Nussinov Journal of molecular biology 378 (1), 1-11, 2008 | 503 | 2008 |
| The origin of allosteric functional modulation: multiple pre-existing pathways A Del Sol, CJ Tsai, B Ma, R Nussinov Structure 17 (8), 1042-1050, 2009 | 419 | 2009 |
| Folding and binding cascades: shifts in energy landscapes CJ Tsai, B Ma, R Nussinov Proceedings of the National Academy of Sciences 96 (18), 9970-9972, 1999 | 410 | 1999 |
| Protein allostery, signal transmission and dynamics: a classification scheme of allosteric mechanisms CJ Tsai, A Del Sol, R Nussinov Molecular Biosystems 5 (3), 207-216, 2009 | 403 | 2009 |
| Extended disordered proteins: targeting function with less scaffold K Gunasekaran, CJ Tsai, S Kumar, D Zanuy, R Nussinov Trends in biochemical sciences 28 (2), 81-85, 2003 | 403 | 2003 |
| A unified view of “how allostery works” CJ Tsai, R Nussinov PLoS computational biology 10 (2), e1003394, 2014 | 401 | 2014 |
| Theoretical study of the (H2O) 6 cluster CJ Tsai, KD Jordan Chemical physics letters 213 (1-2), 181-188, 1993 | 317 | 1993 |
| Allostery in its many disguises: from theory to applications SJ Wodak, E Paci, NV Dokholyan, IN Berezovsky, A Horovitz, J Li, ... Structure 27 (4), 566-578, 2019 | 307 | 2019 |
| Synonymous mutations and ribosome stalling can lead to altered folding pathways and distinct minima CJ Tsai, ZE Sauna, C Kimchi-Sarfaty, SV Ambudkar, MM Gottesman, ... Journal of molecular biology 383 (2), 281-291, 2008 | 305 | 2008 |
| Theoretical study of small water clusters: low-energy fused cubic structures for (H2O)n, n = 8, 12, 16, and 20 CJ Tsai, KD Jordan J. Phys. Chem. 97, 5208–5210, 1993 | 300 | 1993 |
| Use of an eigenmode method to locate the stationary points on the potential energy surfaces of selected argon and water clusters CJ Tsai, KD Jordan J. Phys. Chem. 97, 11227–11237, 1993 | 295 | 1993 |
| A new, structurally nonredundant, diverse data set of protein–protein interfaces and its implications O Keskin, CJ Tsai, H Wolfson, R Nussinov Protein Science 13 (4), 1043-1055, 2004 | 263 | 2004 |
| Structured disorder and conformational selection CJ Tsai, B Ma, YY Sham, S Kumar, R Nussinov Proteins: Structure, Function, and Bioinformatics 44 (4), 418-427, 2001 | 244 | 2001 |
