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W E Stites

Showing results (1-10 of 22) with videos related to

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Biochemistry|December 12, 2001
Packing is a key selection factor in the evolution of protein hydrophobic coresJ Chen, W E Stites
Biochemistry|November 14, 2001
Energetics of side chain packing in staphylococcal nuclease assessed by systematic double mutant cyclesJ Chen, W E Stites
Biochemistry|November 14, 2001
Higher-order packing interactions in triple and quadruple mutants of staphylococcal nucleaseJ Chen, W E Stites
Proteins|June 1, 1995
Empirical evaluation of the influence of side chains on the conformational entropy of the polypeptide backboneW E Stites, J Pranata
Journal of Molecular Biology|April 5, 1996
The M32L substitution of staphylococcal nuclease: disagreement between theoretical prediction and experimental protein stabilityD S Spencer, W E Stites
Methods in Enzymology|September 29, 1998
Application of automated methods for determination of protein conformational stabilityJ M Schwehm, W E Stites
Amino Acids|August 19, 2004
Oxidation of buried cysteines is slow and an insignificant factor in the structural destabilization of staphylococcal nuclease caused by H2O2 exposureY H Kim, W E Stites
Protein Science : a Publication of the Protein Society|December 1, 1995
Chemically crosslinked protein dimers: stability and denaturation effectsM P Byrne, W E Stites
Journal of Molecular Biology|January 7, 1994
Evidence for strained interactions between side-chains and the polypeptide backboneW E Stites, A K Meeker, D Shortle
Biochemistry|September 4, 1990
Contributions of the large hydrophobic amino acids to the stability of staphylococcal nucleaseD Shortle, W E Stites, A K Meeker
Pageof 3

Showing results (1-10 of 22) with videos related to

Sort By:
Pageof 3
Biochemistry|December 12, 2001
Packing is a key selection factor in the evolution of protein hydrophobic coresJ Chen, W E Stites
Biochemistry|November 14, 2001
Energetics of side chain packing in staphylococcal nuclease assessed by systematic double mutant cyclesJ Chen, W E Stites
Biochemistry|November 14, 2001
Higher-order packing interactions in triple and quadruple mutants of staphylococcal nucleaseJ Chen, W E Stites
Proteins|June 1, 1995
Empirical evaluation of the influence of side chains on the conformational entropy of the polypeptide backboneW E Stites, J Pranata
Journal of Molecular Biology|April 5, 1996
The M32L substitution of staphylococcal nuclease: disagreement between theoretical prediction and experimental protein stabilityD S Spencer, W E Stites
Methods in Enzymology|September 29, 1998
Application of automated methods for determination of protein conformational stabilityJ M Schwehm, W E Stites
Amino Acids|August 19, 2004
Oxidation of buried cysteines is slow and an insignificant factor in the structural destabilization of staphylococcal nuclease caused by H2O2 exposureY H Kim, W E Stites
Protein Science : a Publication of the Protein Society|December 1, 1995
Chemically crosslinked protein dimers: stability and denaturation effectsM P Byrne, W E Stites
Journal of Molecular Biology|January 7, 1994
Evidence for strained interactions between side-chains and the polypeptide backboneW E Stites, A K Meeker, D Shortle
Biochemistry|September 4, 1990
Contributions of the large hydrophobic amino acids to the stability of staphylococcal nucleaseD Shortle, W E Stites, A K Meeker
Pageof 3