ABSTRACT
Purification and separation of proteins play a major role in biotechnology. Nowadays, alternatives to multistep operations suffering from low product yields and high costs are investigated closely amidst which one of the promising options is foam fractionation. The molecular behavior at the gas-liquid interface plays an important role in the formation and stabilization of enriched foam. This study for the first time correlates the physico-chemical parameters to the molecular structure in view of protein enrichment during foam fractionation of the two relatively different proteins lysozyme and ß-casein employing biophysical techniques such as circular dichroism (CD) spectroscopy and infrared reflection absorption spectroscopy (IRRAS). In case of lysozyme, high enrichment was achieved at pHSubject(s)
Caseins/chemistry
, Chemical Fractionation/methods
, Muramidase/chemistry
, Absorption
, Animals
, Caseins/analysis
, Cattle
, Chickens
, Circular Dichroism
, Equipment Design
, Hydrogen-Ion Concentration
, Isoelectric Point
, Muramidase/analysis
, Osmolar Concentration
, Protein Conformation
, Spectrophotometry, Infrared
, Temperature
