Investigations on the emulsifying properties of egg white protein : a thesis presented in partial fulfilment of the requirements for the degree of Master of Food Technology at Massey University, Auckland, New Zealand

Figures 2.2 & 2.3 were removed for copyright reasons, but Figure 2.1 remains for ease of access.Egg white proteins (EWP) have excellent foaming and gelling functional properties. However, their emulsifying properties are considered poor when compared to soy proteins or milk proteins. Some studies have attributed the poor emulsifying properties to the hydrophobic amino acid groups buried deeply in the interior of the protein conformational structure which is crucial for emulsification. Several methods, such as heat treatment, acid/acid-heat treatment, Maillard reaction, phosphorylation and enzymatic hydrolysis, have been used by some researchers to improve the emulsifying properties of EWP. Preliminary experiments carried out in this study showed that oil-in-water (O/W) emulsions prepared with egg white liquid (EWL) generated lots of visible large aggregates, which no other study has reported. Therefore, it was important to investigate the factors responsible for the formation of these aggregates. Investigations into improving EWP's emulsifying properties could offer opportunities in developing unique and well-defined egg white-based emulsions. The objective of this research project was to produce egg white emulsions with little or no aggregates. This thesis comprises three main parts. The first part focused on the effects of pH and heat treatment on protein aggregation and partial denaturation of proteins in EWL. The second part investigated the effects of heat treatment, oil concentration and protein concentration on the reduction of large visible aggregates in emulsions prepared with EWL. The third part studied the effect of enzymatic hydrolysis on the degree of hydrolysis and emulsifying properties of EWP hydrolysates. The emulsifying properties of original EWP and EWP hydrolysates were characterised in terms of size and zeta (ζ)-potential of emulsion droplets and emulsion stability (e.g. turbidity, microscopic examination and phase separation). Firstly, an experimental study was carried out to evaluate the effect of pH on protein aggregation and precipitation in EWL containing different protein concentrations (0.5, 1, 2, 3, 4, 5 and 10% w/w). It was found that at all the protein concentrations used and at pH less than around 5, ζ-potential values were all positive but decreased as pH increased from 2 to 5. At pH 5, ζ-potential was close to zero (this is the pI of most egg white proteins), while, at pH levels above 5, ζ-potential became negative and increased as pH increased from pH 5 to 11. The spectral absorbance (turbidity) of emulsion samples was also measured at 600 nm which revealed that for all protein concentrations, turbidity was observed to be higher at acidic pH of 3, 4 and 5, indicating the aggregation of EWP. At alkaline conditions of pH 7, 8, 9 and 10 the EWL solutions remained to be transparent. The effect of heat treatment and holding time on the denaturation of EWP in EWL was also studied at different temperatures (57-62oC) and heating times (0-19 minutes). Higher turbidity due to protein aggregation was observed as temperature increased from 57 to 62oC and the heating time increased from 5 to 19 minutes. It is therefore concluded that EWL can be safely pasteurized with little or no denaturation or aggregation at around 57-58oC for less than 5 minutes. At 60oC, it was observed that EWL began to thicken and after 5 minutes coagulation and gelation occurred rapidly. Studies were also carried out to determine the cause of visible large aggregates formed in emulsions prepared with EWL using various factors, such as heat treatment, oil concentration and protein concentration. It was found that heat treatment (60oC for 30 minutes) of 1% (w/w) EWP solution prior to homogenisation had no effect on reduction of aggregates in emulsions containing 5, 10, 15 and 20% (w/w). However, the formation of aggregates was reduced significantly as oil concentration was reduced to 5%. Therefore, the effect of lower oil concentrations (1, 3, 5, 6, 7 and 10% w/w) on the formation of aggregates in emulsions prepared with 1% or 3% EWP concentrations was also investigated. Little or no visible aggregates were formed when emulsions were prepared with 1% EWP and ≤ 5% oil or 3% EWP and 1% oil. Therefore, the results indicated that both protein and oil concentrations played a significant role in the formation of visible aggregates in emulsions prepared with EWP as an emulsifier. The effect of EWP concentrations (0.1, 0.3, 0.5, 0.8, 1 and 2% w/w) on the formation and properties of 5% oil emulsions at ~pH 8 was then investigated. It was discovered that little or no aggregates were produced in emulsions when prepared at 0.1-1% EWP while large aggregates were formed at 2% EWP concentration. The size of emulsion droplets was observed to increase significantly from 242.1 to 703.7 nm as protein concentration increased from 0.1 to 2%. ζ-potential was however not significantly affected by protein concentration and ranged from -35.3 to -39.2 mV. The emulsions prepared were also heat treated at 60-90oC for 30 minutes. No sign of instability with a significant change in the size of emulsions due to heat treatment was observed from all emulsion samples prepared at different EWP concentrations (0.1 - 2%). However, phase separation of the emulsions was observed upon freezing at -20oC and thawing at 4 and 20oC, respectively, at all protein concentrations used. Also, the stability of emulsions was affected by the addition of salts, such as CaCl2 (5-100 mM) and NaCl (50-600 mM), with an increase in droplet size and phase separation. However, the emulsions were relatively more stable to salt-induced flocculation, especially against NaCl, at higher protein concentration (1-2%) than lower protein concentrations (0.1-0.8%). Lastly, the effect of pH 2-10 was also determined from the emulsions prepared at 1% EWP and 5% oil. Extensive droplet aggregation was observed at pH 4 and 5 as expected which is around the pI of most egg white proteins. On the other hand, it was not observed at extremely acidic pH 2.0 and alkaline pH 9-10 and in the control emulsion prepared at pH 8.3. In another part of the study, the effects of enzyme type (bromelain, ficin and papain), enzyme concentration (0.3, 0.5, 1, 2 and 4% w/w; enzyme/substrate (E/S) ratio) and hydrolysis time (0, 30, 60 and 120 minutes) on the degree of hydrolysis (DH) of EWP were investigated by diluting EWL containing 10% EWP to different EWP concentrations followed by adding enzymes into the EWL solutions. DH was observed to increase significantly (p < 0.05) with increasing enzyme concentration and hydrolysis time. A significant difference (p < 0.05) among the different types of enzymes was only observed from the samples with 4% E/S ratio at 120 minutes of hydrolysis time. Papain yielded the highest DH of 7.69% while bromelain and ficin yielded similar DH levels of 5.03% and 4.99%, respectively. The results of SDS-PAGE revealed that the protein bands corresponding to ovalbumin and ovotransferrin disappeared due to their enzymatic hydrolysis into smaller peptides but it was not significantly different between the samples treated with different E/S ratios and hydrolysis reaction times. The effects of enzyme concentration, DH and hydrolysis time on the emulsifying properties of hydrolysed EWP prepared with bromelain and ficin were investigated. Surprisingly, enzymatic hydrolysis significantly improved the appearance of emulsions prepared with EWL containing hydrolysed EWP by producing an emulsion free of aggregates compared to the control emulsions prepared from original EWP which had lots of large aggregates in it. For example, emulsions containing 10% oil and various EWP concentrations (1, 5 and 10%) prepared with hydrolysed EWP (4% E/S, DH 5.16%) yielded smaller droplet size (0.66-0.98 μm) than those of original EWP emulsions (1.22-39.35 μm). However, phase separation occurred immediately after preparation at all protein concentrations (1, 5 and 10%) used while phase separation occurred in only emulsions stabilised with 5 and 10% original EWP. When the emulsions were heat treated at 60-90oC for 0-30 minutes, gelation occurred in the emulsions prepared with 5 and 10% EWP concentrations while the emulsions prepared with 1% EWP had no gelation but had aggregation and phase separation after heat treatment. Emulsions prepared with 1% E/S ficin (DH 4.03% and 4.96%, respectively, after 2 and 4 hours of hydrolysis time) yielded smaller droplets size (0.75-0.87 μm) than droplet size (6.40-7.37 μm) of emulsions prepared with 1% E/S bromelain (DH 4.10% and 4.87% after 2 and 4 hours of hydrolysis time). Droplet size decreased as hydrolysis time increased from 2 to 4 hours for both ficin and bromelain hydrolysates with phase separation occurring the following day after the preparation of emulsions. Thus, DH and enzyme type had some influence on the emulsifying properties of EWP hydrolysates. In conclusion, this study demonstrated that egg white emulsions can be prepared with little or no aggregates using low oil (≤5%) and low protein (1%) concentrations and by enzymatic hydrolysis of EWP. Emulsions containing 5% oil prepared with a relatively higher protein concentration (1-2%) were more stable to destabilization to ionic strength (salt concentration), especially against NaCl. These could lead to production of egg white protein based-emulsions with distinct appearance and characteristics

Butterflies of the Rocky Mountain States. Edited by Clifford D. Ferris and F. Martin Brown. University of Oklahoma Press, Norman. 464 pages, incl. 4 color plates. 1981. 35.00(cloth),35.00 (cloth), 15.95 (paper).

(excerpt) The long awaited guide to the butterflies of the Rocky Mountains will be received with great delight by many lepidopterists who collect butterflies in this rugged and beautiful region

Menorah Review (No. 48, Winter, 2000)

The Problem of Pain -- Science and Religion: The Case of Judaism -- Shylock the Liberal -- The Poet of Delight Beyond Suffering -- The Feminist\u27s Corner -- American Jews: A Body Politic -- From Woodstock Shall Go Forth the Law -- Noteworthy Book

Pengaruh Citra Pasar Jum'at Karanganyar Terhadap Words of Mouth (Wom) Melalui Customer Delight Sebagai Variabel Mediasi

The purpose of this research is to analyze (1) effect of Friday market image to customer delight, (2) effect of Friday market image influence on positive WOM, (3) effect of customer delight influence on positive WOM, (4) indirect effect of Friday market image on positive WOM through customer delight as a mediation variables. The population of this research are all consumers of Friday market of Karanganyar. In this research amount of sample is 100 customers. Sampling method using snowball and accidental sampling. To test this hypothesis, researchers used a path analysis, while for data processing using SPSS Release 12. The results shows that (1) Friday market image has a significant effect on customer delight, thus H1 is supported; (2) Friday market image has no a significant and positive effect on WOM, thus H2 is not supported; (3) customer delight has a significant effect on positive WOM, thus H3 is supported; (4) customer delight mediates the effect of Friday market image on positive WOM, thus H4 is supported. Keywords : Friday market image, customer delight, positive WO

The need for delight in online education materials

With the demand for online learning materials ever increasing and with more content being made open and free, Higher Education Institutes are now in a position to take their robust virtual learning environments and shift focus from content to user. The new objective being to provide a Delightful user experience that will not only surprise and excite but will improve education online

A People of Vision

Excerpt: It is an absolute delight to worship and serve among a people of vision. Evangelical Quakers attempt great things for God because we continually ask the question: \u27What would God have us do? And a great deal gets done because people earnestly desire to follow God\u27s leadings and further His work in the world. That\u27s an inspiration

Customer Delight: How Do We Achieve it? Customer Service and Exceeding Expectations

Customer loyalty is one of the greatest marketing goals of any organization. Traditionally, the key to loyalty has been satisfaction. More recently, consumer delight has been linked as having a stronger connection to loyalty. This paper explores through a literature review, the connections between customer service, loyalty, satisfaction, and delight through the lens of the experience economy. Then, recommendations are provided for academics and hospitality professionals alike on how to delight customers through future research and front-line employee policies and procedures

Minding the aesthetic: The place of the literary in education and research.

The article discusses the significance of aesthetic as a mode of cognition and means of social cohesion. It notes the relation of aesthetic knowledge with the perception or intuition, the emergence of such awareness into something durable and the response to the embodiment. It describes the evolution of aesthetic delight in the human species, the sense of sense of beauty arising on one's realization of the formal qualities of something, through the poem presented by the author on achievement

We Authors Present By Pen

The title is an amalgam, an anagram of the names of the joint authors who propose the term as a reasonable neologism for all such constructions of this type. Whilst it is not intended to restrict the term to anagrams of pairs of folk, nevertheless we considered that such a subject had much potential: we argued long into the telephonic night as to which pairings we might submit for your delight or critical comment