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A. Joshua Wand
A. Joshua Wand
Professor
Verified email at tamu.edu
Title
Cited by
Cited by
Year
Conformational entropy in molecular recognition by proteins
KK Frederick, MS Marlow, KG Valentine, AJ Wand
Nature 448 (7151), 325-329, 2007
7372007
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
5901994
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
4132000
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
4131990
Dynamic activation of protein function: a view emerging from NMR spectroscopy
AJ Wand
Nature structural biology 8 (11), 926-931, 2001
4062001
Microscopic origins of entropy, heat capacity and the glass transition in proteins
AL Lee, AJ Wand
Nature 411 (6836), 501-504, 2001
3602001
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
3552006
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
3272004
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
2982010
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
2952005
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
2631996
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
2602011
Main-chain-directed strategy for the assignment of proton NMR spectra of proteins
SW Englander, AJ Wand
Biochemistry 26 (19), 5953-5958, 1987
2481987
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
2431997
Fast internal main-chain dynamics of human ubiquitin
DM Schneider, MJ Dellwo, AJ Wand
Biochemistry 31 (14), 3645-3652, 1992
2351992
De novo proteins as models of radical enzymes
C Tommos, JJ Skalicky, DL Pilloud, AJ Wand, PL Dutton
Biochemistry 38 (29), 9495-9507, 1999
2261999
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
2181998
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
2172001
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
2091996
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
1962013
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