A COLORIMETRIC METHOD FOR THE ESTIMATION OF REDUCING GROUPS IN MILK POWDERS
- 1 May 1945
- journal article
- research article
- Published by Canadian Science Publishing in Canadian Journal of Research
- Vol. 23b (3), 91-99
- https://doi.org/10.1139/cjr45b-012
Abstract
A method has been developed for the detection and estimation of certain reducing groups in milk powders. The method is based on the reduction of potassium ferricyanide at 70 °C. and pH 5 and colorimetric estimation of ferric ferrocyanide. Titration with 2,6-dichlorophenolindophenol or potassium iodate failed to show any difference between fresh and stale milk powders. In contrast the ferricyanide test indicates much higher values in fresh powders than do the titration methods, and it also reveals a marked increase in samples that have developed stale, musty odours and flavours. Lactalbumin and casein show reducing activity that increases on heating. Of the amino acids tested, only tryptophane gives a positive reaction. It is concluded that the reducing groups are present in the protein molecule and become accessible on denaturation.This publication has 14 references indexed in Scilit:
- A Quantitative Study of the Heat Labile Sulpides of Milk. III. Influence of Ph, Added Compounds, Homogenization and SunlightJournal of Dairy Science, 1943
- A Quantitative Study of the Heat Labile Sulfides of Milk. II. General Origin of Sulfides and Relation to Total Sulfur, Total Nitrogen and Albumin NitrogenJournal of Dairy Science, 1943
- 304. The gas-packing and storage of milk powderJournal of Dairy Research, 1943
- A Study of the Reducing System of MilkJournal of Dairy Science, 1940
- Effect of Condensing on the Development of Oxidized FlavorJournal of Dairy Science, 1940
- 147. The soluble protein fraction of milkJournal of Dairy Research, 1937
- THE REDUCING GROUPS OF PROTEINSThe Journal of general physiology, 1936
- 126. Note on the Sulphydryl Compounds of MilkJournal of Dairy Research, 1936
- SULFHYDRYL AND DISULFIDE GROUPS OF PROTEINSThe Journal of general physiology, 1935
- The determination of the milk proteinsThe Analyst, 1931