Bioactive peptides are short peptides approximately 2–30 amino acids in length. They are inactive... more Bioactive peptides are short peptides approximately 2–30 amino acids in length. They are inactive within the sequence of the parent protein and can be released during gastrointestinal digestion, during food processing or by hydrolysis using commercial enzymes. Meat derived peptides have a myriad of bioactive potential including, antioxidant, antimicrobial, anti-thrombotic, ACE-I-inhibitory and cytomodulatory functions. Antioxidant and antimicrobial peptides isolated from meat muscle sources may be used as functional ingredient in food formulations to impart human health benefits and/or improve the shelf life of foods. This review collates information regarding peptidic hydrolysates with antioxidant and antimicrobial properties isolated from vertebrate and invertebrate muscle and by-products, identifying the sources, the isolation and characterisation techniques used, and the methods used to demonstrate these bioactivities in vitro.
Sarcoplasmic proteins isolated from bovine livers were hydrolyzed using the enzyme thermolysin at... more Sarcoplasmic proteins isolated from bovine livers were hydrolyzed using the enzyme thermolysin at 37 ̊C for 2 h. The hydrolyzates were filtered through molecular weight cut off membranes (MWCO) and filtrates were obtained. The water activity (aw) of unhydrolysed sarcoplasmic protein, full hydrolyzates, 10-kDa and 3-kDa filtrates were below the limit necessary for microbial growth. The antioxidant activities of both filtrates and fractions were assessed using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity assay, the ferric ion reducing antioxidant power (FRAP) assay and the Fe2+ chelating ability assay. RP-HPLC was used for purification of the full hydrolyzates, the 10-kDa and the 3-kDa filtrates. The peptidic content of the full hydrolyzates, the 10-kDa and the 3-kDa filtrates were assessed using the Dumas method and peptide contents of each fraction were characterized using electrospray quadrupole time-of-flight (ESI-Q-TOF) mass spectrometry with the resultant spectrum analysed using the software programmes Protein Lynx Global Server 2.4. and TurboSEQUEST. Similarities between the amino acid composition of characterized peptides from each fraction and previously reported antioxidant peptides were found. This study demonstrates that meat by-product such as liver can be utilised as raw material for the generation of bioactive peptides with demonstrated antioxidant activities in vitro using the enzyme thermolysin. It is significant as it presents a potential opportunity for meat processors to use their waste streams for the generation of bioactive peptides for potential functional food use.▶ Identification of peptides. ▶ LC–MS and protein databases. ▶ Novel antioxidants.
A variety of milk-derived biologically active peptides have been shown to exert both functional a... more A variety of milk-derived biologically active peptides have been shown to exert both functional and physiological roles in vitro and in vivo, and because of this are of particular interest for food science and nutrition applications. Biological activities associated with such peptides include immunomodulatory, antibacterial, anti-hypertensive and opioid-like properties. Milk proteins are recognized as a primary source of bioactive peptides, which can be encrypted within the amino acid sequence of dairy proteins, requiring proteolysis for release and activation. Fermentation of milk proteins using the proteolytic systems of lactic acid bacteria (LAB) is an attractive approach for generation of functional foods enriched in bioactive peptides given the low cost and positive nutritional image associated with fermented milk drinks and yoghurt. In this review, we discuss the exploitation of such fermentation towards the development of functional foods conferring specific health benefits to the consumer beyond basic nutrition. In particular, in Part I, we focus on the release of encrypted bioactive peptides from a range of food protein sources, as well as the use of LAB as cell factories for the de novo generation of bioactivities.
A variety of milk-derived biologically active peptides have been shown to exert both functional a... more A variety of milk-derived biologically active peptides have been shown to exert both functional and physiological roles in vitro and in vivo, and because of this are of particular interest for food science and nutrition applications. Biological activities associated with such peptides include immunomodulatory, antibacterial, anti-hypertensive and opioid-like properties. Milk proteins are recognized as a primary source of bioactive peptides, which can be encrypted within the amino acid sequence of dairy proteins, requiring proteolysis for release and activation. Fermentation of milk proteins using the proteolytic systems of lactic acid bacteria is an attractive approach for generation of functional foods enriched in bioactive peptides given the low cost and positive nutritional image associated with fermented milk drinks and yoghurt. In Part II of this review, we focus on examples of milk-derived bioactive peptides and their associated health benefits, to illustrate the potential of this area for the design and improvement of future functional foods.
Due to their unique chemical characteristics (including biodegradability to non-toxic products, p... more Due to their unique chemical characteristics (including biodegradability to non-toxic products, physiological inertness and hydrophilicity), chitin, chitosan and their derivatives may be expansively utilized in the biotechnological, agricultural, food protection and nutraceutical, medicinal and pharmacological fields and in the areas of bioremediation and gene therapy. Biological actions associated with chitin and shell waste by-products include among others antibacterial, angiotensin-1-converting enzyme-inhibitory and immunomodulatory activities, while the chitinolytic microbes and enzymes associated with chitinolysis also play a role in the de novo generation of further bioactivites. In Part B of this review we relate in more detail some of the bioactivities and applications of chitin and shell waste by-products.
Legal restrictions, high costs and environmental problems regarding the disposal of marine proces... more Legal restrictions, high costs and environmental problems regarding the disposal of marine processing wastes have led to amplified interest in biotechnology research concerning the identification and extraction of additional high grade, low-volume by-products produced from shellfish waste treatments. Shellfish waste consisting of crustacean exoskeletons is currently the main source of biomass for chitin production. Chitin is a polysaccharide composed of N-acetyl-D-glucosamine units and the multidimensional utilization of chitin derivatives including chitosan, a deacetylated derivative of chitin, is due to a number of characteristics including: their polyelectrolyte and cationic nature, the presence of reactive groups, high adsorption capacities, bacteriostatic and fungistatic influences, making them very versatile biomolecules. Part A of this review aims to consolidate useful information concerning the methods used to extract and characterize chitin, chitosan and glucosamine obtained through industrial, microbial and enzymatic hydrolysis of shellfish waste.
Bioactive peptides are short peptides approximately 2–30 amino acids in length. They are inactive... more Bioactive peptides are short peptides approximately 2–30 amino acids in length. They are inactive within the sequence of the parent protein and can be released during gastrointestinal digestion, during food processing or by hydrolysis using commercial enzymes. Meat derived peptides have a myriad of bioactive potential including, antioxidant, antimicrobial, anti-thrombotic, ACE-I-inhibitory and cytomodulatory functions. Antioxidant and antimicrobial peptides isolated from meat muscle sources may be used as functional ingredient in food formulations to impart human health benefits and/or improve the shelf life of foods. This review collates information regarding peptidic hydrolysates with antioxidant and antimicrobial properties isolated from vertebrate and invertebrate muscle and by-products, identifying the sources, the isolation and characterisation techniques used, and the methods used to demonstrate these bioactivities in vitro.
Sarcoplasmic proteins isolated from bovine livers were hydrolyzed using the enzyme thermolysin at... more Sarcoplasmic proteins isolated from bovine livers were hydrolyzed using the enzyme thermolysin at 37 ̊C for 2 h. The hydrolyzates were filtered through molecular weight cut off membranes (MWCO) and filtrates were obtained. The water activity (aw) of unhydrolysed sarcoplasmic protein, full hydrolyzates, 10-kDa and 3-kDa filtrates were below the limit necessary for microbial growth. The antioxidant activities of both filtrates and fractions were assessed using the 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity assay, the ferric ion reducing antioxidant power (FRAP) assay and the Fe2+ chelating ability assay. RP-HPLC was used for purification of the full hydrolyzates, the 10-kDa and the 3-kDa filtrates. The peptidic content of the full hydrolyzates, the 10-kDa and the 3-kDa filtrates were assessed using the Dumas method and peptide contents of each fraction were characterized using electrospray quadrupole time-of-flight (ESI-Q-TOF) mass spectrometry with the resultant spectrum analysed using the software programmes Protein Lynx Global Server 2.4. and TurboSEQUEST. Similarities between the amino acid composition of characterized peptides from each fraction and previously reported antioxidant peptides were found. This study demonstrates that meat by-product such as liver can be utilised as raw material for the generation of bioactive peptides with demonstrated antioxidant activities in vitro using the enzyme thermolysin. It is significant as it presents a potential opportunity for meat processors to use their waste streams for the generation of bioactive peptides for potential functional food use.▶ Identification of peptides. ▶ LC–MS and protein databases. ▶ Novel antioxidants.
A variety of milk-derived biologically active peptides have been shown to exert both functional a... more A variety of milk-derived biologically active peptides have been shown to exert both functional and physiological roles in vitro and in vivo, and because of this are of particular interest for food science and nutrition applications. Biological activities associated with such peptides include immunomodulatory, antibacterial, anti-hypertensive and opioid-like properties. Milk proteins are recognized as a primary source of bioactive peptides, which can be encrypted within the amino acid sequence of dairy proteins, requiring proteolysis for release and activation. Fermentation of milk proteins using the proteolytic systems of lactic acid bacteria (LAB) is an attractive approach for generation of functional foods enriched in bioactive peptides given the low cost and positive nutritional image associated with fermented milk drinks and yoghurt. In this review, we discuss the exploitation of such fermentation towards the development of functional foods conferring specific health benefits to the consumer beyond basic nutrition. In particular, in Part I, we focus on the release of encrypted bioactive peptides from a range of food protein sources, as well as the use of LAB as cell factories for the de novo generation of bioactivities.
A variety of milk-derived biologically active peptides have been shown to exert both functional a... more A variety of milk-derived biologically active peptides have been shown to exert both functional and physiological roles in vitro and in vivo, and because of this are of particular interest for food science and nutrition applications. Biological activities associated with such peptides include immunomodulatory, antibacterial, anti-hypertensive and opioid-like properties. Milk proteins are recognized as a primary source of bioactive peptides, which can be encrypted within the amino acid sequence of dairy proteins, requiring proteolysis for release and activation. Fermentation of milk proteins using the proteolytic systems of lactic acid bacteria is an attractive approach for generation of functional foods enriched in bioactive peptides given the low cost and positive nutritional image associated with fermented milk drinks and yoghurt. In Part II of this review, we focus on examples of milk-derived bioactive peptides and their associated health benefits, to illustrate the potential of this area for the design and improvement of future functional foods.
Due to their unique chemical characteristics (including biodegradability to non-toxic products, p... more Due to their unique chemical characteristics (including biodegradability to non-toxic products, physiological inertness and hydrophilicity), chitin, chitosan and their derivatives may be expansively utilized in the biotechnological, agricultural, food protection and nutraceutical, medicinal and pharmacological fields and in the areas of bioremediation and gene therapy. Biological actions associated with chitin and shell waste by-products include among others antibacterial, angiotensin-1-converting enzyme-inhibitory and immunomodulatory activities, while the chitinolytic microbes and enzymes associated with chitinolysis also play a role in the de novo generation of further bioactivites. In Part B of this review we relate in more detail some of the bioactivities and applications of chitin and shell waste by-products.
Legal restrictions, high costs and environmental problems regarding the disposal of marine proces... more Legal restrictions, high costs and environmental problems regarding the disposal of marine processing wastes have led to amplified interest in biotechnology research concerning the identification and extraction of additional high grade, low-volume by-products produced from shellfish waste treatments. Shellfish waste consisting of crustacean exoskeletons is currently the main source of biomass for chitin production. Chitin is a polysaccharide composed of N-acetyl-D-glucosamine units and the multidimensional utilization of chitin derivatives including chitosan, a deacetylated derivative of chitin, is due to a number of characteristics including: their polyelectrolyte and cationic nature, the presence of reactive groups, high adsorption capacities, bacteriostatic and fungistatic influences, making them very versatile biomolecules. Part A of this review aims to consolidate useful information concerning the methods used to extract and characterize chitin, chitosan and glucosamine obtained through industrial, microbial and enzymatic hydrolysis of shellfish waste.
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