Binding of calcium ions to bovine αsl-casein and precipitability of the protein–calcium ion complexes
- 1 February 1980
- journal article
- research article
- Published by Cambridge University Press (CUP) in Journal of Dairy Research
- Vol. 47 (1) , 113-122
- https://doi.org/10.1017/s002202990002094x
Abstract
Summary: Binding isotherms for the calcium ion–αsl-casein system have been measured, as functions of ionic strength, temperature, and pH, and the isotherms have been analysed in terms of binding constants modified by substitution effects. The results demonstrate that the strength of binding is increased with increasing temperature and decreased by increasing ionic strength or decreasing pH, all of which may be explained semi-quantitatively. Parallel studies on the precipitability of the αsl-casein–Ca2+complexes showed that there is considerable variation in the extent of calcium binding required to initiate precipitation of the protein, and in the calcium concentration necessary to achieve the required extent of ligand binding.Keywords
This publication has 26 references indexed in Scilit:
- Quantitation of αs1-casein aggregation by the use of polyfunctional modelsJournal of Dairy Research, 1979
- The use of light-scattering and turbidity measurements to study the kinetics of extensively aggregating proteins: αs-CaseinBiopolymers, 1977
- The heat stability of milkJournal of Dairy Research, 1977
- Conformation of bovine .ALPHA.s-casein. V. A study on the calcium linkage of .ALPHA.s1-casein in urea solution.Agricultural and Biological Chemistry, 1976
- Calcium(II) and Magnesium(II) Binding by L-Serine Orthophosphate in Aqueous SolutionsCanadian Journal of Chemistry, 1971
- Binding of cations to caseins. Site binding, Donnan binding, and system characteristicsBiochemistry, 1971
- A fractionation of the αs-casein complex of bovine milkJournal of Dairy Research, 1969
- The Physical Chemistry of Protein Solutions. XII. The Effects of Temperature and Hydroxide Ion on the Binding of Small Anions to Human Serum AlbuminJournal of the American Chemical Society, 1964
- 851. An examination of Allen's empirical bond-energy scheme, and its application to paraffins and cycloalkanes, olefins, alkyl alcohols and bromides, and aminesJournal of the Chemical Society, 1962
- Metal and Hydrogen-Ion Binding Properties of O-PhosphoserineNature, 1957