Co-precipitation of whey and pea protein – indication of interactions

The aim was to optimise the yield of co-precipitation of whey protein isolate (WPI) and pea protein isolate (PPI) and compare co-precipitates and protein blends with respect to solubility. The yield of co-precipitates was tested with different protein ratios of WPI and PPI in combination with different temperatures and acid precipitation (pH 4.6). The highest precipitation yield was obtained at protein ratios WPI < PPI, high temperature and alkaline protein solvation. The solubility was measured by an instability index and absorption spectroscopy of re-suspended precipitated proteins at pH 3, 7 and 11.5. Co-precipitates had significantly lower solubility than protein blends. Protein ratios WPI > PPI, low precipitation temperature and high pH showed the highest solubility. Differences in protein composition between co-precipitates and protein blends were observed with SDS-PAGE and matrix-assisted laser desorption ionisation time-of-flight, and indicated different protein–protein interaction in samples, which needs further investigations.     

Unraveling the nature of ohmic heating effects in structural aspects of whey proteins – The impact of electrical and electrochemical effects

Electric field (EF) variables and electrode material are fundamental factors in ohmic heating (OH) processing. In this study, stainless steel, titanium and graphite were used as electrodes in conventional and OH (at 50 Hz and 20 kHz) treatments of whey protein isolate solutions at pH 3 and pH 7. The treated solutions were characterized in terms of UV absorbance, changes in intrinsic fluorescence, binding of a conformational probe and secondary structure (evaluated by circular dichroism). Differentiated structural features were induced by the different treatment conditions and were more evident at pH 7 and OH at 50 Hz. The metal leakage (quantified with ICP-MS) from the electrodes revealed to influence the equilibrium of early stages of protein aggregation, with stainless steel demonstrating to be the most electro-active material followed by titanium and finally graphite (that did not release metal). These findings highlight that structural properties of whey proteins may not only be influenced by the EF action but also by the leakage of metals from the electrodes.Industrial relevanceOH is a recognized emerging processing technology and has a recognized potential to control and enhance protein functionality due its ability to influence protein structural features. Both electrode stability and protein structural changes are related with the EF operational parameters such as voltage, current or frequency. These parameters are decisive in the occurrence and extension of electrochemical phenomena and in the EF action mechanisms over protein structure. The confirmation of EF non-thermal effects at high and low frequencies (independently of the electrochemical phenomena) dissipated previous doubts regarding its effectiveness to modulate protein functionality. The understanding of the electrode material stability and influence of different electric parameters on the product's functionality, stability and safety are fundamental to design OH devices and to the establishment of operational protocols. The stability and material release from the electrodes is a fundamental factor during OH processing, imposing serious implications in equipment costs, maintenance, as well as in product quality and safety. This study highlights the influence of different electrode materials during OH at different electrical frequencies and its impacts on protein structural aspects.     

Contamination flows of Bacillus cereus and spore-forming aerobic bacteria in a cooked,pasteurized and chilled zucchini purée processing line

A food processing plant producing pasteurized purées and its zucchini purée processing line were examined for contamination with aerobic and facultative anaerobic bacterial spores during a day's operation. Multiplication of spores was also monitored in the product stored under different conditions. High concentrations of Bacillus cereus spores were found in the soil in which the zucchinis were grown (4.6+/-0.3 log CFU/g), with a background spore population of 6.1+/-0.2 log CFU/g. In the processing plant, no B. cereus or psychrotrophic bacterial spores were detected on equipment. B. cereus and psychrotrophic bacterial spores were detected after enrichment in all samples of raw zucchinis, washed zucchinis, of two ingredients (starch and milk proteins) and in processed purée at each processing step. Steam cooking of raw zucchinis and pasteurization of purée in the final package significantly reduced spore numbers to 0.5+/-0.3 log CFU/g in the processed food. During storage, numbers of spore-forming bacteria increased up to 7.8+/-0.1 log CFU/g in purée after 5 days at 20-25 degrees C, 7.5+/-0.3 log CFU/g after 21 days at 10 degrees C and 3.8+/-1.1 log CFU/g after 21 days at 4 degrees C. B. cereus counts reached 6.4+/-0.5 log CFU/g at 20-25 degrees C, 4.6+/-1.9 log CFU/g at 10 degrees C, and remained below the detection threshold (1.7 log CFU/g) at 4 degrees C. Our findings indicate that raw vegetables and texturing agents such as milk proteins and starch, in spite of their low levels of contamination with bacterial spores and the heat treatments they undergo, may significantly contribute to the final contamination of cooked chilled foods. This contamination resulted in growth of B. cereus and psychrotrophic bacterial spores during storage of vegetable purée. Ways to eliminate such contamination in the processing line are discussed.     

Global food security – Issues,challenges and technological solutions

BackgroundFood security is both a complex and challenging issue to resolve as it cannot be characterized or limited by geography nor defined by a single grouping, i.e., demography, education, geographic location or income. Currently, approximately one billion people (16% of global population) suffer from chronic hunger in a time when there is more than enough food to feed everyone on the planet. Therein lies the Food security challenge to implement an ability to deal with increasing food shortages, caused by a combination of waste and an ever expanding world population. At current levels prediction state that we must increase global food production by 70% on already over exploited finite infrastructures before 2050.Scope and approachThis review paper firstly introduces the concept of Food Security with an overview of its scale and depth in the context of the global food industry. It then highlights the main sources. The readership is then introduced to the key factors affecting food security and highlights the many national and international measures adopted to tackle the problem at both policy and technological level.Key findings and conclusionsFood experts indicate that no one single solution will provide a sustainable food security solution into the future. Collective stakeholder engagement will prove essential in bringing about the policy changes and investment reforms required to achieve a solution. Achieving truly sustainable global food security will require a holistic systems-based approach, built on a combination of policy and technological reform, which will utilize existing systems combined with state-of-the-art technologies, techniques and best practices some of which are outlined herein.     

Potentially bioaccessible phenolics,antioxidant capacities and the colour of carrot,pumpkin and apple powders – effect of drying temperature and sample structure

The study aimed to examine carrot, pumpkin and apple powders produced by hot-air-drying (50, 60, 70 °C) of samples with different levels of fragmentation (cut, grated, blended). The drying temperatures and sample structure were shown to be important determinants of the quality of the powders. The best colour stability of carrot, pumpkin and apple was found for the grated sample dried at 70 °C, the blended sample dried at 70 °C and the blended sample dried at 70 °C, respectively. The highest antiradical capacity and reducing power were found for powders obtained after drying the cut samples at 70 °C. Total phenolics and free radical quenchers were well bioaccessible in vitro. In turn, the reducing power was markedly reduced after drying at 50 °C. The analysed powders are a valuable source of concentrated bioactive ingredients, which predisposes them to serve as functional food components.     

Production of β-galactosidase for lactose hydrolysis in milk and dairy products using thermophilic lactic acid bacteria

The aim of this work was to establish optimal conditions for the maximum production of β-galactosidase using an industrially suitable medium. Lactobacillus delbrueckii subsp. bulgaricus ATCC 11842 was cultivated in skim milk, whey and whey permeate basal media, supplemented with whey protein products, yeast extract or De Man–Rogosa–Sharpe (MRS) broth, at pH 5.6 and 43°C. All supplementations of the whey and whey permeate basal media resulted in the enhancement of the specific growth rates, rate of lactic acid production and β-galactosidase activity. However, unsupplemented skim milk gave the greatest rate of lactic acid production (3.50±0.269 mg lactic acid ml⁻¹ media h⁻¹) and the highest β-galactosidase activity (5.491±0.116 U activity ml⁻¹ media); far superior to the best whey-based medium supplemented with MRS (2.71±0.176 mg lactic acid ml⁻¹ media h⁻¹ and 3.091±0.089 U activity ml⁻¹ media, respectively). A technologically feasible approach for the reprocessing of the spent skim milk was tested and a conceptual process scheme is proposed.     

Assessment of the techno-functionality,starch digestion rates and protein quality of rice flour–whey protein instant powders produced in a twin extruder

Whey protein concentrate (WPC) is an important raw material for the production of instant beverages due to its protein properties. A central composite design was devised to analyse the effects of thermoplastic extrusion of 2:1 rice flour:WPC blends in physical, chemical–nutritional and functional properties. Three main factors were selected, screw speed (225–375 r.p.m.), conditioning moisture (17%–23%) and temperature (120–180 °C) to evaluate effects on water absorption (WAI) and solubility (WSI) indexes, viscoamylograph cold and final viscosities, in vitro protein and starch digestibilities and starch hydrolysis indexes (HI). A second-order model showed that linear parameters were significant for all variables studies. Conditioning moisture affected properties more significantly than temperature and screws speed. The best treatment (16% moisture conditioning, 180 °C last barrel zone and screws rotating at 350 r.p.m.) in terms of water solubility had high starch in vitro digestibility and excellent protein quality determined in vitro and in vivo with weanling rats.     

Effects of ultrasonic treatment on the gel properties of microbial transglutaminase crosslinked soy,whey and soy–whey proteins

Food Science and Biotechnology - This paper studied the influences of diverse ultrasonic power treatments on the physico-chemical properties of soy–whey mixed protein induced by microbial...     

Microbiological,chemical and biochemical characteristics of ‘Tetilla’ raw cows-milk cheese

The microbiological, chemical and biochemical characteristics of Tetilla raw cow's-milk cheese produced in Galicia (NW Spain) were studied. The identification of the main microbial groups of technological interest was carried out. Mean log mesophilic counts, lactic acid bacteria on M17, citrate-utilizing bacteria and enterococci in 24 cheese samples were 10·60, 10·34, 9·35 and 7·30, respectively. High mean log counts of total coliforms (6·09),Micrococcaceae (5·68) and yeasts (4·44) were also measured. On the other hand, moulds (<2·60),Staphylococcus aureus (<1·79) and Escherichia coli (<1·72) counts were low. Listeria monocytogenes was detected in two samples. None of the samples yielded Salmonella spp. Isolates of technological-interest bacteria were characterized as enterococci (39·8%), lactococci (19·0%), lactobacilli (12·3%) and leuconostocs (7·6%). Micrococci (8·0%) were also isolated.Enterococcus faecalis and Lactococcus lactis subsp. lactis were the species most frequently found. In accordance with the results of pH and chemical composition, only nine samples fulfil the specifications of the Appellation of Origin. β -casein content was higher than α_{s 1}-casein content for all cheeses analysed and a low peptide α_{s 1}-I/α_{s 1}-casein ratio and nitrogen soluble fraction content were found. High volatile free fatty acid and long chain free fatty acid contents were measured, which can be attributed to the action of native lipase. A high level of diacetyl-acetoin was also determined.     

Time resolved fluorescence of milk powders – A pilot study

The investigation of the authenticity and classification of milk powder is particularly important. The use of time-resolved fluorescence could help develop a new method to assist milk powder classification and assess composition. This study used static and time-resolved fluorescence to differentiate powder milk samples. We observed fluorescence lifetimes of (in ns) 1.5 ± 0.2, 3.5 ± 0.2 and 6.0 ± 0.2 for skimmed; 1.3 ± 0.2, 3.3 ± 0.2 and 6.0 ± 0.4 for whole; and 1.4 ± 0.2, 3.4 ± 0.3 and 6.0 ± 0.4 for semi-skimmed powder milk at 270/335 nm excitation/emission. In addition, we observed fluorescence lifetimes of (in ns) 1.4 ± 0.1, 6.4 ± 0.2 and 14.8 ± 1.1 for skimmed; 1.6 ± 0.2, 6.8 ± 0.2 and 29.5 ± 1.7 for whole; and 1.7 ± 0.1, 6.8 ± 0.2 and 26.1 ± 1.3 for semi-skimmed powder milk at 315/468 nm excitation/emission. Employing analysis of variance, we differentiated all powder samples and achieved accuracy of 100% by discriminant analysis at 315/468 nm excitation/emission fluorescence. These results indicate that time-resolved fluorescence can assist in the classification of powder milk and its composition.     

Viscoelastic behavior and microstructure of aqueous mixtures of cross-linked waxy maize starch,whey protein isolate and κ-carrageenan

The viscoelasticity and microstructure of mixtures of cross-linked waxy maize starch (CH10), whey protein isolate (WPI) and κ-carrageenan (κC) at pH 7.0 with 100 mM NaCl were investigated by oscillatory rheometry and confocal laser scanning microscopy (CLSM). Mixtures were heated to 90 °C (1.5 °C/min), held for 10 min at this temperature and cooled. Within the range of concentrations studied, CH10 swollen granules reinforced WPI and κC networks. The mechanical behavior of the three-component mixtures was modified by different WPI concentrations, but κC governed the overall response due to its gelling ability. CLSM images of three-component mixtures showed particulate systems in which swollen starch granules are surrounded by κC and WPI. CH10 granules were immersed in a single phase and a separate phase of κC and WPI, for low and high concentrations of these components, respectively. Therefore, it is possible to obtain two- and three-phase mixtures.     

Manufacture of high-protein yogurt without generating acid whey – Impact of the final pH and the application of power ultrasound on texture properties

The fermentation of preconcentrated milk is a challenging method to avoid acid whey during the manufacture of high-protein fermented milks like Greek yogurt. Milk concentrates (10% protein) were fermented to a final pH of 5.0, 4.8, or 4.6 and processed into stirred yogurt. Additionally, the potential of power ultrasound (US) as a post-processing tool was examined by sonicating the stirred yogurt with a sonotrode at 20 kHz. Set gels fermented to pH 4.8 and 5.0 were considerably softer than gels fermented to pH 4.6. Stirred yogurts fermented to pH 4.8 or 5.0 were less grainy and exhibited a reduced apparent viscosity and water-holding capacity. The application of US further decreased the visual graininess and product viscosity whereas the particle size was only slightly affected. The final pH and sonication are two powerful approaches to control the rheological properties of high-protein fermented milks, offering the potential for innovative processes and products.     

Sucuk and pastırma: Microbiological changes and formation of volatile compounds

There is an increasing interest in traditional foods in Turkey like other countries. Sucuk, dry-fermented sausage, and past?rma, a type of dry-cured meat product, are traditional Turkish meat products that are widely consumed. Sucuk is air-dried and neither smoked nor ripened by mold. In spite of increasing use of starter culture in production of sucuk in the industry, traditionally produced sucuk is generally preferred by the consumers because of its sensory characteristics. Past?rma is traditionally processed under natural conditions where air temperature and relative humidity depend on climate and weather conditions. Past?rma differs from other raw cured meat products made from whole pieces of meat in terms of manufacturing process, ingredients, microbial properties and flavor. In this study, microbiological changes and formation of volatile compounds in sucuk and past?rma were reviewed.     

Physical and nutritional conditions for optimized production of bacteriocins by lactic acid bacteria – A review

ABSTRACT

There has been an increasing debate about the use of synthetic chemical compounds and the consequences of their use in food preservation. In this context, the utilization of some natural compounds produced by bacteria, showing an inhibitory effect against microorganisms associated with food contamination, have gained attention as preservation technology. In order to improve the production and yield costs of bacteriocins, detailed studies are necessary to determine the conditions that allow an optimized production and extraction of bacteriocins from lactic acid bacteria (LAB). In this context, this article aims to discuss the information regarding the main factors that influence bacteriocin production by LAB. The biosynthesis of bacteriocins can be influenced by various culture conditions, such as the composition of the medium, pH, temperature and growth kinetics of the microorganisms. One of the limiting factors for the use of bacteriocins on a large scale in food preservation is the economic factor. In order for the production costs of bacteriocins to be reduced, making them attractive, it is necessary to know the optimum parameters of production, thus maximizing productivity and making costs more attractive.     

Isolation and characterisation of κ-casein/whey protein particles from heated milk protein concentrate and role of κ-casein in whey protein aggregation

Milk protein concentrate (79% protein) reconstituted at 13.5% (w/v) protein was heated (90 °C, 25 min, pH 7.2) with or without added calcium chloride. After fractionation of the casein and whey protein aggregates by fast protein liquid chromatography, the heat stability (90 °C, up to 1 h) of the fractions (0.25%, w/v, protein) was assessed. The heat-induced aggregates were composed of whey protein and casein, in whey protein:casein ratios ranging from 1:0.5 to 1:9. The heat stability was positively correlated with the casein concentration in the samples. The samples containing the highest proportion of caseins were the most heat-stable, and close to 100% (w/w) of the aggregates were recovered post-heat treatment in the supernatant of such samples (centrifugation for 30 min at 10,000 × g). κ-Casein appeared to act as a chaperone controlling the aggregation of whey proteins, and this effect was stronger in the presence of α_S- and β-casein.     

Impact of whey protein – Beet pectin conjugation on the physicochemical stability of β-carotene emulsions

The aim of the present study was to investigate the impact of whey protein isolate (WPI)-beet pectin conjugation on the physical and chemical properties of oil-in-water emulsions incorporating β-carotene within the oil droplets. Covalent coupling of WPI to beet pectin was achieved by dry heating of WPI-beet pectin mixtures of different weight ratios at 80, 90, 100 °C and 79% relative humidity for incubation times ranging from 1 to 9 h. It was confirmed by SDS-polyacrylamide gel electrophoresis that WPI covalently linked to beet pectin. The physical and chemical stability of β-carotene emulsions was characterized by droplet size and distribution, transmission profiles using novel centrifugal sedimentation technique, microstructure and β-carotene degradation during the storage. Compared with those stabilized by WPI alone and unheated WPI-beet pectin mixtures, β-carotene emulsions stabilized by WPI-beet pectin conjugates had much smaller droplet sizes, more homogenous droplet size distribution, less change in centrifugal transmission profiles and obviously improved freeze–thaw stability, indicating a very substantial improvement in the physical stability. Rheological analysis exhibited that emulsions stabilized by WPI-beet pectin conjugates changed from a shear thinning to more like Newtonian liquid compared those with WPI alone and unheated WPI-beet pectin mixtures. Degradation of β-carotene in emulsion during storage was more obviously retarded by WPI-beet pectin conjugate than WPI and unheated WPI-beet pectin mixture, probably due to a thicker and denser interfacial layer in emulsion droplets. These results implied that protein–polysaccharide conjugates were able to improve the physical stability of β-carotene emulsion and inhibit the deterioration of β-carotene in oil-in-water emulsions.     

Microbiological and biochemical changes during ripening of salchichón,a Spanish dry cured sausage

Development of the microflora and changes in the lipid and protein fractions during the ripening of salchichón, a kind of Spanish dry cured sausage, were studied. A commercial mixture of Pediococcus pentosaceus andMicrococcus varians was used as starter culture. Total aerobic bacteria, lactic acid bacteria, Micrococcaeae, Staphylococcus aureus, Entero-bacteriaceae , sulphite reducer Clostridium , yeasts and moulds were determined. The sarcoplasmic and myofibrillar solubility, denaturation and proteolysis index, parameters related to fat stability and the free fatty acid composition were analysed throughout the curing process: after mincing, after the fermentation stage, after the 2nd week of drying and in the final product (4th week of drying). The major changes in the characteristics of salchichón took place during the fermentation stage. This was due to proteolysis and lipolysis phenomena derived from high counts of lactic acid bacteria and Micrococcaeae in this stage. These changes were shown in the increase of the total free amino acid content, the peroxide index and the carbonyl compound content, and in the decrease of the protein solubility and the percentage of polyunsaturated free fatty acids, thus achieving the organoleptic characteristics of the final product.     

Investigation of the consequences of ultrasound on the physicochemical,emulsification, and gelatinization characteristics of citric acid–treated whey protein isolate

The effect of ultrasound (US) pretreatment (0, 200, 400, 600, and 800 W) on the physicochemical, emulsification, and gelatinization characteristics of citric acid (CA)-treated whey protein isolate (WPI) was investigated. Size exclusion chromatography demonstrated that when compared with untreated WPI, US pretreatment promoted production of more molecular polymers in the CA-treated WPI. There was a reduction in particle size of CA-treated WPI with the increase of US power (0–800 W), whereas its free sulfhydryl content, surface hydrophobicity, and intrinsic fluorescence strength increased. Furthermore, compared with untreated WPI, emulsifying ability index and emulsifying stability index of CA-treated WPI were increased by 14.04% and 10.10%, respectively, at 800 W. Accordingly, US pretreatment promoted the gel formation of CA-treated WPI, and its gel hardness was increased by 28.0% with US power ranging from 0 to 800 W. Therefore, US and CA treatment can be considered as an effective way to improve the emulsifying and gelatinization characteristics of WPI.     

Antigenic response of whey proteins and genetic variants of β-lactoglobulin — the effect of proteolysis and processing

Limited enzymatic hydrolysis trials of WPC-80 and β-lactoglobulin AA, AB and BB were performed using specific enzymes (trypsin, Neutrase, Corolase PP, Corolase PS) in a pH-stat under controlled conditions. The hydrolysates of WPC-80 and β-lactoglobulin were fractionated into high and low molecular fractions. Residual antibody binding activity of the peptides was dependent on the degree of hydrolysis (DH 2-20), but also on the enzyme used. Heat treatment affected the solubility and thereby the antigenic response. Dialysis influenced the antibody binding activity of the peptides. Tryptic hydrolysis of β-lactoglobulin AA was slower than for β-lactoglobulin BB and AB. Antigenic responses of the hydrolysates and fractions were measured by SLOT-BLOT and ELISA. SLOT-BLOT, a rapid screening method, was not able to differentiate the hydrolysates. The ELISA, being a more sensitive method, differentiated between the genetic variants, but was more time consuming. The lowest antigenicity was observed in the 1000–5000 Da fraction and β-lactoglobulin AA showed the lowest response.