Michelle Allen scite author profile

Modeling the electrophoretic mobility of peptides is examined in this study using a "coarse grained" bead model, or B model for short 8 and also a simpler "effective sphere" (ES) model. A comparison between the B and ES models is carried out for peptide models covering a broad range of ionic strength, peptide charge, and peptide length. At ionic strengths lower than approximately 0.013 M, the B and ES models agree to within a few percent. The ES model is much simpler than the B model and is of particular value in certain applications such as complex formation between peptide and other species in the BGE. The mobility behavior of oligoglycine in a borate buffer at high pH can be accounted for when complex formation is included in modeling.

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A Comparison of Analytical Methods for Quantifying Denatured Whey Proteins and Their Correlation to Solubility

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A Comparison of Analytical Methods for Quantifying Denatured Whey Proteins and Their Correlation to SolubilityMichelle Doreen AllenProtein structure affects the bioactivity and functionality of whey protein ingredients in food systems. Bioactivity of whey proteins and their derivatives are highly dependent upon primary, secondary and tertiary structure. The degree of denaturation of whey proteins is an important factor for determining how whey protein ingredients will perform in a food system. Several analytical methods have been developed to quantify protein denaturation of whey proteins. The goal of this project was to use a variety of analytical methods to quantify whey protein denaturation and to evaluate the correlation of denaturation to the functionality of whey protein powders.The objective of the first series of experiments was to compare three different analytical methods to measure denaturation of whey proteins in liquid whey obtained by various methods of separation and with varying degrees of heat treatment. A split plot experimental design was used. Raw bovine milk was skimmed and liquid whey was separated from the skim milk at natural pH. Three separation methods: 1) centrifugation,2) membrane filtration and 3) enzyme coagulation, made up the first split plot. Each subplot of liquid whey was then divided into three split plots to receive heat treatment. Heat treatments were no heat, 76°C for fifteen seconds and 85°C for three minutes. Each of the resulting nine treatment combinations was analyzed by 1) polyacrylamide gel electrophoresis, 2) bicinchoninic acid-soluble protein assay and 3) fluorescence spectroscopy to determine the amount of denatured protein in the liquid whey.Fluorescence spectroscopy was found to be the most sensitive and reliable method v for detecting differences in structure due to denaturation, while native polyacrylamide gel electrophoresis was found to be the least sensitive method. The sample which received the centrifugal treatment of isolation with no heat was found to be the most undenatured in structure while the sample which received the enzyme treatment of isolation with high heat was found to be the most denatured in structure.The objective of the second series of experiments was to evaluate the effect of denaturation on whey protein solubility in dried whey protein powders. Solubility is one of the most important functional properties to consider when selecting a whey protein ingredient, especially for beverage systems. Processing parameters are often manipulated in efforts to improve solubility. The protein structures of whey are considered to have an effect on solubility. Specifically, the degree of denaturation of whey proteins is thought to play a role in solubility.In this experimental design, raw bovine milk was skimmed and pasteurized then enzyme-coagulated at natural pH to separate the whey. Liquid whey was then split into three aliquots and each received one of the following treatments: 1) mild heat/ freeze dry, 2) mild heat/spray dry and 3) high ...

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Michelle Allen

Modeling the electrophoresis and transport of peptides: The effective sphere model and complex formation

A Comparison of Analytical Methods for Quantifying Denatured Whey Proteins and Their Correlation to Solubility

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