| Quantum mechanical rate constants for bimolecular reactions WH Miller, SD Schwartz, JW Tromp The Journal of chemical physics 79 (10), 4889-4898, 1983 | 1060 | 1983 |
| Enzymatic transition states and dynamic motion in barrier crossing SD Schwartz, VL Schramm Nature chemical biology 5 (8), 551-558, 2009 | 295 | 2009 |
| Theoretical methods in condensed phase chemistry YA Wang, EA Carter, SD Schwartz Progress in Theoretical Chemistry and Physics 5, 117-184, 2000 | 195 | 2000 |
| Internal enzyme motions as a source of catalytic activity: rate-promoting vibrations and hydrogen tunneling D Antoniou, SD Schwartz The Journal of Physical Chemistry B 105 (23), 5553-5558, 2001 | 175 | 2001 |
| How enzyme dynamics helps catalyze a reaction in atomic detail: a transition path sampling study JE Basner, SD Schwartz Journal of the American Chemical Society 127 (40), 13822-13831, 2005 | 173 | 2005 |
| Barrier passage and protein dynamics in enzymatically catalyzed reactions D Antoniou, S Caratzoulas, C Kalyanaraman, J S. Mincer, SD Schwartz European journal of biochemistry 269 (13), 3103-3112, 2002 | 159 | 2002 |
| Computational and theoretical methods to explore the relation between enzyme dynamics and catalysis D Antoniou, J Basner, S Núnez, SD Schwartz Chemical reviews 106 (8), 3170-3187, 2006 | 150 | 2006 |
| Large kinetic isotope effects in enzymatic proton transfer and the role of substrate oscillations D Antoniou, SD Schwartz Proceedings of the National Academy of Sciences 94 (23), 12360-12365, 1997 | 147 | 1997 |
| Reaction coordinate of an enzymatic reaction revealed by transition path sampling SL Quaytman, SD Schwartz Proceedings of the National Academy of Sciences 104 (30), 12253-12258, 2007 | 129 | 2007 |
| Theoretical methods in condensed phase chemistry G Henkelman, G Jóhannesson, H Jónsson, SD Schwartz Progress in theoretical chemistry and physics 5, 2002 | 128 | 2002 |
| Identification of a protein-promoting vibration in the reaction catalyzed by horse liver alcohol dehydrogenase S Caratzoulas, JS Mincer, SD Schwartz Journal of the American Chemical Society 124 (13), 3270-3276, 2002 | 125 | 2002 |
| Fully Shared Communications Network GR Ash, S Steven D US Patent 5,130,982, 0 | 108 | |
| Atomic detail of chemical transformation at the transition state of an enzymatic reaction S Saen-Oon, S Quaytman-Machleder, VL Schramm, SD Schwartz Proceedings of the National Academy of Sciences 105 (43), 16543-16548, 2008 | 98 | 2008 |
| Ligand binding and protein dynamics in lactate dehydrogenase JRET Pineda, R Callender, SD Schwartz Biophysical journal 93 (5), 1474-1483, 2007 | 98 | 2007 |
| A model of calcium activation of the cardiac thin filament EP Manning, JC Tardiff, SD Schwartz Biochemistry 50 (34), 7405-7413, 2011 | 97 | 2011 |
| Changes in the chemical and dynamic properties of cardiac troponin T cause discrete cardiomyopathies in transgenic mice BR Ertz-Berger, H He, C Dowell, SM Factor, TE Haim, S Nunez, ... Proceedings of the National Academy of Sciences 102 (50), 18219-18224, 2005 | 94 | 2005 |
| Promoting vibrations in human purine nucleoside phosphorylase. A molecular dynamics and hybrid quantum mechanical/molecular mechanical study S Núnez, D Antoniou, VL Schramm, SD Schwartz Journal of the American Chemical Society 126 (48), 15720-15729, 2004 | 93 | 2004 |
| Molecular electrostatic potential analysis for enzymatic substrates, competitive inhibitors, and transition-state inhibitors CK Bagdassarian, VL Schramm, SD Schwartz Journal of the American Chemical Society 118 (37), 8825-8836, 1996 | 91 | 1996 |
| Promoting vibrations and the function of enzymes. Emerging theoretical and experimental convergence VL Schramm, SD Schwartz Biochemistry 57 (24), 3299-3308, 2018 | 78 | 2018 |
| Remote mutations and active site dynamics correlate with catalytic properties of purine nucleoside phosphorylase S Saen-Oon, M Ghanem, VL Schramm, SD Schwartz Biophysical journal 94 (10), 4078-4088, 2008 | 78 | 2008 |
