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Proteins
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April 9, 1998
Electrostatic contributions to protein-protein binding affinities: application to Rap/Raf interaction
I Muegge, T Schweins, A Warshel
Proceedings of the National Academy of Sciences of the United States of America
|
August 1, 1989
Enzymes work by solvation substitution rather than by desolvation
A Warshel, J Aqvist, S Creighton
Biochemistry
|
December 30, 1986
Free energy of charges in solvated proteins: microscopic calculations using a reversible charging process
A Warshel, F Sussman, G King
Nature Structural Biology
|
July 1, 1994
Why have mutagenesis studies not located the general base in ras p21
T Schweins, R Langen, A Warshel
Protein Engineering
|
May 23, 1998
A fast estimate of electrostatic group contributions to the free energy of protein-inhibitor binding
I Muegge, H Tao, A Warshel
Biochemistry
|
September 22, 1992
On the mechanism of guanosine triphosphate hydrolysis in ras p21 proteins
R Langen, T Schweins, A Warshel
Biophysical Journal
|
April 17, 1998
The effect of protein relaxation on charge-charge interactions and dielectric constants of proteins
Y Y Sham, I Muegge, A Warshel
Biochemistry
|
August 10, 2000
How does GAP catalyze the GTPase reaction of Ras? A computer simulation study
T M Glennon, J Villà, A Warshel
Journal of Molecular Biology
|
May 5, 1988
Evaluation of catalytic free energies in genetically modified proteins
A Warshel, F Sussman, J K Hwang
Faraday Discussions
|
January 1, 1992
Computer simulations of enzymatic reactions: examination of linear free-energy relationships and quantum-mechanical corrections in the initial proton-transfer step of carbonic anhydrase
A Warshel, J K Hwang, J Aqvist
Page
of 8
Search research articles
Search
Showing results (41-50 of 79) with videos related to
Sort By:
Page
of 8
Proteins
|
April 9, 1998
Electrostatic contributions to protein-protein binding affinities: application to Rap/Raf interaction
I Muegge, T Schweins, A Warshel
Proceedings of the National Academy of Sciences of the United States of America
|
August 1, 1989
Enzymes work by solvation substitution rather than by desolvation
A Warshel, J Aqvist, S Creighton
Biochemistry
|
December 30, 1986
Free energy of charges in solvated proteins: microscopic calculations using a reversible charging process
A Warshel, F Sussman, G King
Nature Structural Biology
|
July 1, 1994
Why have mutagenesis studies not located the general base in ras p21
T Schweins, R Langen, A Warshel
Protein Engineering
|
May 23, 1998
A fast estimate of electrostatic group contributions to the free energy of protein-inhibitor binding
I Muegge, H Tao, A Warshel
Biochemistry
|
September 22, 1992
On the mechanism of guanosine triphosphate hydrolysis in ras p21 proteins
R Langen, T Schweins, A Warshel
Biophysical Journal
|
April 17, 1998
The effect of protein relaxation on charge-charge interactions and dielectric constants of proteins
Y Y Sham, I Muegge, A Warshel
Biochemistry
|
August 10, 2000
How does GAP catalyze the GTPase reaction of Ras? A computer simulation study
T M Glennon, J Villà, A Warshel
Journal of Molecular Biology
|
May 5, 1988
Evaluation of catalytic free energies in genetically modified proteins
A Warshel, F Sussman, J K Hwang
Faraday Discussions
|
January 1, 1992
Computer simulations of enzymatic reactions: examination of linear free-energy relationships and quantum-mechanical corrections in the initial proton-transfer step of carbonic anhydrase
A Warshel, J K Hwang, J Aqvist
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of 8