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A P Minton

Showing results (51-60 of 92) with videos related to

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Trends in Biochemical Sciences|August 1, 1993
New developments in the study of biomolecular associations via sedimentation equilibriumG Rivas, A P Minton
Biochemical and Biophysical Research Communications|June 27, 1979
The effect of non-aggregating proteins upon the gelation of sickle cell hemoglobin: model calculations and data analysisP D Ross, A P Minton
Annual Review of Biophysics and Biomolecular Structure|January 1, 1993
Macromolecular crowding: biochemical, biophysical, and physiological consequencesS B Zimmerman, A P Minton
Biophysical Journal|November 1, 1996
Adsorption of globular proteins on locally planar surfaces: models for the effect of excluded surface area and aggregation of adsorbed protein on adsorption equilibriaR C Chatelier, A P Minton
Biochemical and Biophysical Research Communications|June 20, 1977
Hard quasispherical model for the viscosity of hemoglobin solutionsP D Ross, A P Minton
Biopolymers|April 1, 1987
Sedimentation equilibrium in macromolecular solutions of arbitrary concentration. I. Self-associating proteinsR C Chatelier, A P Minton
Analytical Biochemistry|May 1, 1987
Simultaneous determination of the individual concentration gradients of two solute species in a centrifuged mixture: application to analytical ultracentrifugationA K Attri, A P Minton
Biopolymers|July 1, 1987
Sedimentation equilibrium in macromolecular solutions of arbitrary concentration. II. Two protein componentsR C Chatelier, A P Minton
Analytical Biochemistry|February 1, 1984
An automated method for determination of the sedimentation coefficient of macromolecules using a preparative centrifugeA K Attri, A P Minton
Science (New York, N.Y.)|March 17, 1972
The Hill plot and the energy of interaction in hemoglobinH A Saroff, A P Minton
Pageof 10

Showing results (51-60 of 92) with videos related to

Sort By:
Pageof 10
Trends in Biochemical Sciences|August 1, 1993
New developments in the study of biomolecular associations via sedimentation equilibriumG Rivas, A P Minton
Biochemical and Biophysical Research Communications|June 27, 1979
The effect of non-aggregating proteins upon the gelation of sickle cell hemoglobin: model calculations and data analysisP D Ross, A P Minton
Annual Review of Biophysics and Biomolecular Structure|January 1, 1993
Macromolecular crowding: biochemical, biophysical, and physiological consequencesS B Zimmerman, A P Minton
Biophysical Journal|November 1, 1996
Adsorption of globular proteins on locally planar surfaces: models for the effect of excluded surface area and aggregation of adsorbed protein on adsorption equilibriaR C Chatelier, A P Minton
Biochemical and Biophysical Research Communications|June 20, 1977
Hard quasispherical model for the viscosity of hemoglobin solutionsP D Ross, A P Minton
Biopolymers|April 1, 1987
Sedimentation equilibrium in macromolecular solutions of arbitrary concentration. I. Self-associating proteinsR C Chatelier, A P Minton
Analytical Biochemistry|May 1, 1987
Simultaneous determination of the individual concentration gradients of two solute species in a centrifuged mixture: application to analytical ultracentrifugationA K Attri, A P Minton
Biopolymers|July 1, 1987
Sedimentation equilibrium in macromolecular solutions of arbitrary concentration. II. Two protein componentsR C Chatelier, A P Minton
Analytical Biochemistry|February 1, 1984
An automated method for determination of the sedimentation coefficient of macromolecules using a preparative centrifugeA K Attri, A P Minton
Science (New York, N.Y.)|March 17, 1972
The Hill plot and the energy of interaction in hemoglobinH A Saroff, A P Minton
Pageof 10