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| Design and synthesis of multi-haem proteins DE Robertson, RS Farid, CC Moser, JL Urbauer, SE Mulholland, R Pidikiti, ... Nature 368 (6470), 425-432, 1994 | 599 | 1994 |
| Structural description of acid-denatured cytochrome c by hydrogen exchange and 2D NMR MF Jeng, SW Englander, GA Elove, H Roder, AJ Wand Biochemistry 29 (46), 10433-10437, 1990 | 422 | 1990 |
| Redistribution and loss of side chain entropy upon formation of a calmodulin–peptide complex AL Lee, SA Kinnear, AJ Wand Nature structural biology 7 (1), 72-77, 2000 | 417 | 2000 |
| Dynamic activation of protein function: a view emerging from NMR spectroscopy AJ Wand Nature structural biology 8 (11), 926-931, 2001 | 416 | 2001 |
| Characterization of the fast dynamics of protein amino acid side chains using NMR relaxation in solution TI Igumenova, KK Frederick, AJ Wand Chemical reviews 106 (5), 1672-1699, 2006 | 364 | 2006 |
| Microscopic origins of entropy, heat capacity and the glass transition in proteins AL Lee, AJ Wand Nature 411 (6836), 501-504, 2001 | 359 | 2001 |
| Assignment of the backbone resonances for microcrystalline ubiquitin TI Igumenova, AJ Wand, AE McDermott Journal of the American Chemical Society 126 (16), 5323-5331, 2004 | 327 | 2004 |
| Protein structure determination by high-resolution solid-state NMR spectroscopy: application to microcrystalline ubiquitin SG Zech, AJ Wand, AE McDermott Journal of the American Chemical Society 127 (24), 8618-8626, 2005 | 302 | 2005 |
| The role of conformational entropy in molecular recognition by calmodulin MS Marlow, J Dogan, KK Frederick, KG Valentine, AJ Wand Nature chemical biology 6 (5), 352-358, 2010 | 301 | 2010 |
| Site-resolved measurement of water-protein interactions by solution NMR NV Nucci, MS Pometun, AJ Wand Nature structural & molecular biology 18 (2), 245-249, 2011 | 271 | 2011 |
| Insights into the local residual entropy of proteins provided by NMR relaxation Z Li, S Raychaudhuri, AJ Wand Protein science 5 (12), 2647-2650, 1996 | 265 | 1996 |
| Main-chain-directed strategy for the assignment of proton NMR spectra of proteins SW Englander, AJ Wand Biochemistry 26 (19), 5953-5958, 1987 | 250 | 1987 |
| The Reorganization Energy of Cytochrome c Revisited I Muegge, PX Qi, AJ Wand, ZT Chu, A Warshel The Journal of Physical Chemistry B 101 (5), 825-836, 1997 | 249 | 1997 |
| Fast internal main-chain dynamics of human ubiquitin DM Schneider, MJ Dellwo, AJ Wand Biochemistry 31 (14), 3645-3652, 1992 | 240 | 1992 |
| De novo proteins as models of radical enzymes C Tommos, JJ Skalicky, DL Pilloud, AJ Wand, PL Dutton Biochemistry 38 (29), 9495-9507, 1999 | 230 | 1999 |
| Determinants of protein hydrogen exchange studied in equine cytochrome c JS Milne, L Mayne, H Roder, AJ Wand, SW Englander Protein Science 7 (3), 739-745, 1998 | 222 | 1998 |
| Oligomerization of the integrin αIIbβ3: roles of the transmembrane and cytoplasmic domains R Li, CR Babu, JD Lear, AJ Wand, JS Bennett, WF DeGrado Proceedings of the National Academy of Sciences 98 (22), 12462-12467, 2001 | 218 | 2001 |
| Internal Dynamics of Human Ubiquitin Revealed by 13C-Relaxation Studies of Randomly Fractionally Labeled Protein AJ Wand, JL Urbauer, RP McEvoy, RJ Bieber Biochemistry 35 (19), 6116-6125, 1996 | 213 | 1996 |
| The dark energy of proteins comes to light: conformational entropy and its role in protein function revealed by NMR relaxation AJ Wand Current opinion in structural biology 23 (1), 75-81, 2013 | 201 | 2013 |
