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milk --- milk --- Milk protein --- Milk protein --- Whey protein --- Whey protein --- Rheological properties --- Rheological properties
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Cheese --- Cheese --- Yield increases --- Yield increases --- C heesemaking --- C heesemaking --- Dairy industry --- Dairy industry --- Process control --- Process control --- Quality --- Quality --- Whey protein --- Whey protein --- Heat treatment --- Heat treatment
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Cheese --- Cheese --- Yield increases --- Yield increases --- C heesemaking --- C heesemaking --- Dairy industry --- Dairy industry --- Process control --- Process control --- Quality --- Quality --- Whey protein --- Whey protein --- Heat treatment --- Heat treatment
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milk --- milk --- Milk byproducts --- Milk byproducts --- Milk protein --- Milk protein --- Milk products --- Milk products --- Casein --- Casein --- Whey protein --- Whey protein --- Albumins --- Albumins --- Lactoglobulins --- Lactoglobulins --- chemical structure --- chemical structure --- Heat treatment --- Heat treatment --- chemicophysical properties --- chemicophysical properties
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During cell metabolism, oxygen is partially reduced to reactive oxygen species (ROS) that play a physiological role in cellular processes. However, an imbalance between the production of ROS and the ability of defenses to detoxify the organism provokes oxidative stress. Oxidative stress and its subsequent damages to vital cellular components have been associated with numerous severe chronic disorders. In addition, oxidation reactions are responsible for food deterioration during processing and storage. Peptides from animal and vegetal food sources have attracted attention due to the large evidence of their in vitro antioxidant properties. In addition to their potential as safer alternatives to synthetic antioxidants used to prevent oxidative reactions in foods, antioxidant peptides can also act by reducing the risk of numerous oxidative stress-associated diseases. Furthermore, peptides can act synergistically with nonpeptide antioxidants, enhancing their protective effect. This Special Issue of the Foods journal includes outstanding papers illustrating examples of the most recent advances on antioxidant peptides from both vegetal and animal sources. The existing data on their bioactivities demonstrated by in silico, in vitro, and animal models are included as well as the mechanisms of action of identified antioxidant peptides.
Research & information: general --- food peptides --- reactive oxygen species --- antioxidant enzymes --- whey protein hydrolysate --- hydrolysis condition --- food antioxidant --- ORAC --- cellular ROS --- HepG2 --- peptides --- egg white --- egg yolk --- antioxidant peptides --- sarcopenia --- whey protein --- muscle --- C2C12 --- aged animals --- older adult --- exercise --- bioactive peptides --- animal protein --- multifunctionality --- antioxidant activity --- in silico --- cell models --- fruit residues --- antioxidant --- extraction --- albumin --- albumin peptide --- antioxidant peptide --- bioactive peptide --- mung bean --- mung bean albumin --- peptide sequencing --- Vigna radiata --- food peptides --- reactive oxygen species --- antioxidant enzymes --- whey protein hydrolysate --- hydrolysis condition --- food antioxidant --- ORAC --- cellular ROS --- HepG2 --- peptides --- egg white --- egg yolk --- antioxidant peptides --- sarcopenia --- whey protein --- muscle --- C2C12 --- aged animals --- older adult --- exercise --- bioactive peptides --- animal protein --- multifunctionality --- antioxidant activity --- in silico --- cell models --- fruit residues --- antioxidant --- extraction --- albumin --- albumin peptide --- antioxidant peptide --- bioactive peptide --- mung bean --- mung bean albumin --- peptide sequencing --- Vigna radiata
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During cell metabolism, oxygen is partially reduced to reactive oxygen species (ROS) that play a physiological role in cellular processes. However, an imbalance between the production of ROS and the ability of defenses to detoxify the organism provokes oxidative stress. Oxidative stress and its subsequent damages to vital cellular components have been associated with numerous severe chronic disorders. In addition, oxidation reactions are responsible for food deterioration during processing and storage. Peptides from animal and vegetal food sources have attracted attention due to the large evidence of their in vitro antioxidant properties. In addition to their potential as safer alternatives to synthetic antioxidants used to prevent oxidative reactions in foods, antioxidant peptides can also act by reducing the risk of numerous oxidative stress-associated diseases. Furthermore, peptides can act synergistically with nonpeptide antioxidants, enhancing their protective effect. This Special Issue of the Foods journal includes outstanding papers illustrating examples of the most recent advances on antioxidant peptides from both vegetal and animal sources. The existing data on their bioactivities demonstrated by in silico, in vitro, and animal models are included as well as the mechanisms of action of identified antioxidant peptides.
Research & information: general --- food peptides --- reactive oxygen species --- antioxidant enzymes --- whey protein hydrolysate --- hydrolysis condition --- food antioxidant --- ORAC --- cellular ROS --- HepG2 --- peptides --- egg white --- egg yolk --- antioxidant peptides --- sarcopenia --- whey protein --- muscle --- C2C12 --- aged animals --- older adult --- exercise --- bioactive peptides --- animal protein --- multifunctionality --- antioxidant activity --- in silico --- cell models --- fruit residues --- antioxidant --- extraction --- albumin --- albumin peptide --- antioxidant peptide --- bioactive peptide --- mung bean --- mung bean albumin --- peptide sequencing --- Vigna radiata --- n/a
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During cell metabolism, oxygen is partially reduced to reactive oxygen species (ROS) that play a physiological role in cellular processes. However, an imbalance between the production of ROS and the ability of defenses to detoxify the organism provokes oxidative stress. Oxidative stress and its subsequent damages to vital cellular components have been associated with numerous severe chronic disorders. In addition, oxidation reactions are responsible for food deterioration during processing and storage. Peptides from animal and vegetal food sources have attracted attention due to the large evidence of their in vitro antioxidant properties. In addition to their potential as safer alternatives to synthetic antioxidants used to prevent oxidative reactions in foods, antioxidant peptides can also act by reducing the risk of numerous oxidative stress-associated diseases. Furthermore, peptides can act synergistically with nonpeptide antioxidants, enhancing their protective effect. This Special Issue of the Foods journal includes outstanding papers illustrating examples of the most recent advances on antioxidant peptides from both vegetal and animal sources. The existing data on their bioactivities demonstrated by in silico, in vitro, and animal models are included as well as the mechanisms of action of identified antioxidant peptides.
food peptides --- reactive oxygen species --- antioxidant enzymes --- whey protein hydrolysate --- hydrolysis condition --- food antioxidant --- ORAC --- cellular ROS --- HepG2 --- peptides --- egg white --- egg yolk --- antioxidant peptides --- sarcopenia --- whey protein --- muscle --- C2C12 --- aged animals --- older adult --- exercise --- bioactive peptides --- animal protein --- multifunctionality --- antioxidant activity --- in silico --- cell models --- fruit residues --- antioxidant --- extraction --- albumin --- albumin peptide --- antioxidant peptide --- bioactive peptide --- mung bean --- mung bean albumin --- peptide sequencing --- Vigna radiata --- n/a
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Cheese is an excellent and complex food matrix that preserves in concentrated form valuable milk constituents, such as proteins, minerals, vitamins, and biofunctional lipids. The formation of cheese mass requires the removal of whey, i.e., water and soluble milk substances—proteins, minerals, lactose, and vitamins. It is well known that whey, apart from being a serious environmental threat, is a valuable substrate for the formation of new products with excellent functional and biological activities. This reprint aims to share research related to (i) cheese production, ripening, and properties, and (ii) whey and whey components’ functionality and biological value, as well as whey exploitation and processing.
Research & information: general --- Biology, life sciences --- ACE inhibition --- antioxidant activity --- hydrolysis --- response surface methodology --- whey protein concentrate --- Parmigiano Reggiano cheese --- somatic cells --- milk composition --- cheese yield --- cheesemaking losses --- cheese ripening --- ripening extension --- cheese microstructure --- free amino acids --- capillary electrophoresis --- proteolysis --- volatile compounds --- confocal laser scanning microscopy --- dairy product analysis --- cheese peptidomics --- cheesemaking --- data-independent acquisition --- whey --- buttermilk --- second cheese whey --- ultrafiltration --- reduced-fat cheese --- hard cheese --- long ripened cheese --- ripening rooms --- environmental ripening conditions --- quantitative descriptive analysis --- texture --- water activity --- image analysis --- cheesemaking technology --- milk whey --- hydrolyzed collagen --- bioavailability --- “bryndza” cheese --- electronic nose --- gas chromatography --- volatile organic compounds --- microbiota --- Flammulina velutipes --- protein–polysaccharide complexes --- stability --- bio-layer interferometry --- in vitro digestibility --- binding regions --- Quark-type cheese --- cow cheese milk homogenization --- cheese milk heat treatment --- sugars and organic acids --- proteolysis indices --- texture profile analysis --- whey protein denaturation --- n/a --- "bryndza" cheese --- protein-polysaccharide complexes
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This e-book aims to compile advances in the area of food manufacturing including packaging to address issues of food safety, quality, fraud, and how these processes (new or old) could affect the organoleptic characteristics of foods, with the aim to promote consumers’ satisfaction. Moreover, food supply issues are explored. New and improved technologies are employed in the area of food manufacturing to address consumer needs in terms of quality and safety. The issues of research and development should be taken into account seriously before launching a new product onto the market. Finally, food fraud and authenticity are very important issues, and the food industry should focus on addressing them.
Technology: general issues --- redox potential --- color transfer --- beef juice --- beef meat --- eugenol --- encapsulation --- whey protein–maltodextrin conjugates --- chitosan --- olive oil --- cv. Lianolia Kerkyras --- cv. Koroneiki --- fatty acid methyl esters --- sterols --- authenticity --- quality --- LAB --- Bifidobacterium --- BLS --- fruits --- vegetables --- Oregano honey --- costeño-type cheese --- sodium chloride --- texture --- rheology --- microstructure. --- boba milk tea --- calcium alginate ball --- preparation method --- shelf life --- inventory --- new retailing --- baking industrial --- food supply chain coordination --- Two-stage production system --- corporate social responsibility --- supply chain --- dairy industry --- social charity --- Vietnam --- dry --- efficiency --- energy --- kiwifruit --- ultrasound --- edible coating --- nanoemulsion --- guaiacol peroxidase --- anthocyanins --- phenylalanine ammonia-lyase --- chub mackerel --- smoking treatment --- sensory analysis --- physiochemical characteristics --- microbiological quality --- biochemical analysis --- HMR --- pen shell --- squid meat --- superheated steam --- high-frequency defrosting --- cassava chips --- physicochemical properties --- MALDI-TOF --- applications --- food --- fraud --- adulteration --- n/a --- whey protein-maltodextrin conjugates --- costeño-type cheese
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