LIGHT-SCATTERING AND SEDIMENTATION STUDIES OF BOVINE SERUM ALBUMIN AT LOW pH
- 1 December 1954
- journal article
- Published by Canadian Science Publishing in Canadian Journal of Chemistry
- Vol. 32 (12) , 1092-1099
- https://doi.org/10.1139/v54-144
Abstract
Light-scattering measurements of bovine serum albumin made at pH 1.9 in 0.1 M-0.45 M potassium chloride show that the molecule is not dissociated, but has the same molecular weight as in neutral solution. At pH 1.9 in the absence of salt aggregation occurs, the extent increasing with time. The sedimentation constant at pH 1.9 increases from 3.2S in 0.1 M potassium chloride to 3.6 in the 0.5 M salt, compared with 4.3 in neutral solution. These differences are ascribed to changes of molecular shape.Keywords
This publication has 19 references indexed in Scilit:
- Thermodynamic Measurements of Ultracentrifuge Rotor TemperatureJournal of the American Chemical Society, 1954
- Molecular Configuration of PolyelectrolytesThe Journal of Chemical Physics, 1953
- The Molecular Weight and Shape of Desoxypentose Nucleic AcidJournal of the American Chemical Society, 1952
- The Partial Specific Volumes, in Aqueous Solution, of Three ProteinsJournal of the American Chemical Society, 1952
- Macro-Ions. I. Light Scattering Theory and Experiments with Bovine Serum AlbuminThe Journal of Chemical Physics, 1952
- Molecular Weight of Lactoglobulin, Ovalbumin, Lysozyme and Serum Albumin by Light Scattering2Journal of the American Chemical Society, 1951
- Photoelectric Light-Scattering Photometer for Determining High Molecular Weights*Journal of the Optical Society of America, 1950
- Light Scattering in Solutions of Serum Albumin: Effects of Charge and Ionic Strength1,2Journal of the American Chemical Society, 1950
- Preparation and Properties of Serum and Plasma Proteins. XIII. Crystallization of Serum Albumins from Ethanol-Water Mixtures1a,bJournal of the American Chemical Society, 1947
- THE PHYSICAL CHEMISTRY OF THE PROTEINS IN NON-AQUEOUS AND MIXED SOLVENTSPublished by Elsevier ,1930