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  1. 1.   Small nonphosphorylated Grb2-SH2 domain antagonists evaluated by surface resonance plasmon technology
  2. Lung, F. D. T.; Chang, C. W.; Chong, M. C.; Liou, C. C.; Li, P.; Peach, M. L.; Nicklaus, M. C.; Lou, B. S.; Roller, P. P.
  3. Peptide Science (Biopolymers). 2005 80(5): 628-635.
  1. 2.   Experiment-guided thermodynamic simulations on reversible two-state proteins: implications for protein thermostability
  2. Kumar, S.; Nussinov, R.
  3. Biophysical Chemistry. 2004, NOV 1; 111(3): 235-246.
  1. 3.   Different roles of electrostatics in heat and in cold: Adaptation by citrate synthase
  2. Kumar, S.; Nussinov, R.
  3. Chembiochem. 2004 5(3): 280-290.
  1. 4.   Modeling the binding sites of anti-hen egg white lysozyme antibodies HyHEL-8 and HyHEL-26: An insight into the molecular basis of antibody cross-reactivity and specificity
  2. Mohan, S.; Sinha, N.; Smith-Gill, J.
  3. Biophysical Journal. 2003 85(5): 3221-3236.
  1. 5.   Dissection of binding interactions in the complex between the anti-lysozyme antibody HyHEL-63 and its antigen
  2. Li, Y. L.; Urrutia, M.; Smith-Gill, S. J.; Mariuzza, R. A.
  3. Biochemistry. 2003 42(1): 11-22.
  1. 6.   Differences in electrostatic properties at antibody-antigen binding sites: Implications for specificity and cross- reactivity
  2. Sinha, N.; Mohan, S.; Lipschultz, C. A.; Smith-Gill, S. J.
  3. Biophysical Journal. 2002 83(6): 2946-2968.
  1. 7.   Relationship between ion pair geometries and electrostatic strengths in proteins
  2. Kumar, S.; Nussinov, R.
  3. Biophysical Journal. 2002 83(3): 1595-1612.
  1. 8.   Protein structure to function via dynamics
  2. Sinha, N.; Smith-Gill, S. J.
  3. Protein and Peptide Letters. 2002 9(5): 367-377.
  1. 9.   Close-range electrostatic interactions in proteins
  2. Kumar, S.; Nussinov, R.
  3. Chembiochem. 2002 3(7): 604-617.
  1. 10.   Electrostatics in protein binding and function
  2. Sinha, N.; Smith-Gill, S. J.
  3. Current Protein & Peptide Science. 2002 3(6): 601-614.
  1. 11.   Fluctuations in ion pairs and their stabilities in proteins
  2. Kumar, S.; Nussinov, R.
  3. Proteins-Structure Function and Genetics. 2001 43(4): 433-454.
  1. 12.   Interdomain interactions in hinge-bending transitions
  2. Sinha, N.; Kumar, S.; Nussinov, R.
  3. Structure. 2001 9(12): 1165-1181.
  1. 13.   How do thermophilic proteins deal with heat?
  2. Kumar, S.; Nussinov, R.
  3. Cellular and Molecular Life Sciences. 2001 58(9): 1216-1233.
  1. 14.   Electrostatic strengths of salt bridges in thermophilic and mesophilic glutamate dehydrogenase monomers
  2. Kumar, S.; Ma, B. Y.; Tsai, C. J.; Nussinov, R.
  3. Proteins. 2000 38(4): 368-383.
  1. 15.   Salt bridge stability in monomeric proteins
  2. Kumar, S.; Nussinov, R.
  3. Journal of Molecular Biology. 1999 293(5): 1241-1255.
  1. 16.   Protein Binding Versus Protein Folding - the Role of Hydrophilic Bridges in Protein Associations
  2. Xu, D.; Lin, S. L.; Nussinov, R.
  3. Journal of Molecular Biology. 1997 265(1): 68-84.
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