The cosmetic sector is a multibillion-dollar industry that requires constant attention being paid to innovative product development and engagement.Notably,its market value is projected to exceed 750 billion U.S.dollar...The cosmetic sector is a multibillion-dollar industry that requires constant attention being paid to innovative product development and engagement.Notably,its market value is projected to exceed 750 billion U.S.dollars by 2025,and it is expanding as novel,climate-friendly,green,and sustainable components from natural sources are incorporated.This review is written based on the numerous reports on the potential applications of food-derived peptides while focusing on their possible uses in the formulation of cosmeceutical and skincare products.First,the production methods of bioactive peptides linked to cosmeceutical uses are described.Then,we discuss the obtainment and characterization of different anti-inflammatory,antimicrobial,antioxidant,anti-aging,and other pleiotropic peptides with their specific mechanisms,from various food sources.The review concludes with salient considerations of the cost of production and pilot scale operation,stability,compatibility,user safety,site-specificity,and delivery methods,when designing or developing biopeptide-based cosmeceutical products.展开更多
Bioactive peptides and proteins(BAPPs)are promising therapeutic agents for tissue repair with considerable advantages,including multifunctionality,specificity,biocompatibility,and biodegradability.However,the high com...Bioactive peptides and proteins(BAPPs)are promising therapeutic agents for tissue repair with considerable advantages,including multifunctionality,specificity,biocompatibility,and biodegradability.However,the high complexity of tissue microenvironments and their inherent deficiencies such as short half-live and susceptibility to enzymatic degradation,adversely affect their therapeutic efficacy and clinical applications.Investigating the fundamental mechanisms by which BAPPs modulate the microenvironment and developing rational delivery strategies are essential for optimizing their administration in distinct tissue repairs and facilitating clinical translation.This review initially focuses on the mechanisms through which BAPPs influence the microenvironment for tissue repair via reactive oxygen species,blood and lymphatic vessels,immune cells,and repair cells.Then,a variety of delivery platforms,including scaffolds and hydrogels,electrospun fibers,surface coatings,assisted particles,nanotubes,two-dimensional nanomaterials,and nanoparticles engineered cells,are summarized to incorporate BAPPs for effective tissue repair,modification strategies aimed at enhancing loading efficiencies and release kinetics are also reviewed.Additionally,the delivery of BAPPs can be precisely regulated by endogenous stimuli(glucose,reactive oxygen species,enzymes,pH)or exogenous stimuli(ultrasound,heat,light,magnetic field,and electric field)to achieve on-demand release tailored for specific tissue repair needs.Furthermore,this review focuses on the clinical potential of BAPPs in facilitating tissue repair across various types,including bone,cartilage,intervertebral discs,muscle,tendons,periodontal tissues,skin,myocardium,nervous system(encompassing brain,spinal cord,and peripheral nerve),endometrium,as well as ear and ocular tissue.Finally,current challenges and prospects are discussed.展开更多
Oxidative stress is caused by an imbalance of the antioxidant defense system and excessive production of free radicals,which can damage biological macromolecules such as proteins,lipids and nucleic acids,and can cause...Oxidative stress is caused by an imbalance of the antioxidant defense system and excessive production of free radicals,which can damage biological macromolecules such as proteins,lipids and nucleic acids,and can cause aging,ischemia-reperfusion injury,inflammatory injury,liver and kidney injury and other diseases.The nuclear factor erytheroid-2-related factor 2(Nrf2)is a major regulator of redox balance.The Nrf2 pathway also exerts a central function in cell apoptosis,oxidative stress damage and metabolic diseases.Bioactive peptides are small molecular peptides composed of amino acid residues.They have many biological activities and play important physiological roles in human body.Antioxidant peptide is a kind of peptide which can reduce oxidative stress damage.They are safe,non-toxic and easily absorbed.In this review,we summarized the mechanism of bioactive peptides in regulating oxidative stress,especially antioxidant peptides,through regulating the Nrf2 signaling pathway and the expressions of oxidative stress-related genes,to alleviate oxidative stress-induced damage.The paper will provide valuable reference to investigators in the antioxidant peptide field and also promote the applications of antioxidant peptides in the oxidative stress-associated diseases.展开更多
Peptides are functional active fragments of proteins which can provide nutrients needed for human growth and development,and they also have unique physiological activity characteristics relative to proteins.Bioactive ...Peptides are functional active fragments of proteins which can provide nutrients needed for human growth and development,and they also have unique physiological activity characteristics relative to proteins.Bioactive peptides contain a great deal of development potential.More specifically,food-derived bioactive peptides have the advantages of a wide variety of sources,unique structures,high efficiency and safety,so they have broad development prospects.This review provides an overview of the current advances regarding the preparation,functional characteristics,and structure–activity relationships of food-derived bioactive peptides.Moreover,the prospects for the future development and application of food-derived bioactive peptides are discussed.This review may provide a better understanding of foodderived bioactive peptides,and some constructive inspirations for further research and applications in the food industry.展开更多
The introduction of neurotrophic factors into injured peripheral nerve sites is beneficial to peripheral nerve regeneration.However,neurotrophic facto rs are rapidly degraded in vivo and obstruct axonal regeneration w...The introduction of neurotrophic factors into injured peripheral nerve sites is beneficial to peripheral nerve regeneration.However,neurotrophic facto rs are rapidly degraded in vivo and obstruct axonal regeneration when used at a supraphysiological dose,which limits their clinical benefits.Bioactive mimetic peptides have been developed to be used in place of neurotrophic factors because they have a similar mode of action to the original growth fa ctors and can activate the equivalent receptors but have simplified sequences and structures.In this study,we created polydopamine-modified chitin conduits loaded with brain-derived neurotrophic factor mimetic peptides and vascular endothelial growth fa ctor mimetic peptides(Chi/PDA-Ps).We found that the Chi/PDA-Ps conduits were less cytotoxic in vitro than chitin conduits alone and provided sustained release of functional peptides.In this study,we evaluated the biocompatibility of the Chi/P DA-Ps conduits.Brain-derived neurotrophic factor mimetic peptide and vascular endothelial growth fa ctor mimetic peptide synergistically promoted prolife ration of Schwann cells and secretion of neurotrophic factors by Schwann cells and attachment and migration of endothelial cells in vitro.The Chi/P DA-Ps conduits were used to bridge a 2 mm gap between the nerve stumps in rat models of sciatic nerve injury.We found that the application of Chi/PDA-Ps conduits could improve the motor function of rats and reduce gastrocnemius atrophy.The electrophysiological results and the microstructure of regenerative nerves showed that the nerve conduction function and re myelination was further resto red.These findings suggest that the Chi/PDA-Ps conduits have great potential in peripheral nerve injury repair.展开更多
The present study here establishes a complete and effective method for isolating,purifying and identifying extracellular and intracellular peptides,and also describes the characters and bioactivities of peptides from ...The present study here establishes a complete and effective method for isolating,purifying and identifying extracellular and intracellular peptides,and also describes the characters and bioactivities of peptides from fermented casein with Lactobacillus helveticus.Intracellular peptides are much larger in quantity and more complex in composition than extracellular peptides,between which the correlation reveals proteolytic and metabolic mechanisms.In addition,totally 241 different peptide sequences were identified by Nano LC–MS/MS from casein(212)and Lactobacillus helveticus proteins(29).These casein-derived peptides mostly originated from-casein,followed byS1-casein,-casein,andS2-casein,and came from extracell(69)and intracell(143),in which common peptides have a total of 27.Forty-four of the identified peptides were previously described as bioactive,including angiotensinconverting enzyme(ACE)-inhibitory,antioxidant,immunomodulating,antimicrobial,DPP-IV inhibitory,antiamnesic and anticancer effects and so on.Thirteen peptides with the potential of some biological activities are obtained,which were described in previous studies.A total of 47 novel peptides of 5 to 26 amino acids that were not disclosed were obtained.The new sources of natural bioactive peptides may have the very high application value as potential new peptide drugs for treatment human diseases.The product peptide DELQDKIHPF found in both extracell and intracell was quantitatively analyzed using the MRM mode of UPLC-U3Q,23.1 and 9.76 ng/mL,respectively.The quantitative analysis of the potential bioactive peptide may also advance the production of peptide products in the future.展开更多
Insulin resistance leads to impaired glucose metabolism by disrupting both insulin secretion and sensitivity.Insulin resistance plays a key role in the pathophysiology of type 2 diabetes and metabolic syndrome.Reviews...Insulin resistance leads to impaired glucose metabolism by disrupting both insulin secretion and sensitivity.Insulin resistance plays a key role in the pathophysiology of type 2 diabetes and metabolic syndrome.Reviews on the mechanisms of action of bioactive peptides on glucose homeostasis and insulin resistance are scarce.The recent discoveries of pathways and target cells in the management of glucose and energy metabolism have opened up new opportunities for identification of novel bioactive peptides on enhancing adipocyte differentiation and insulin signaling,glucose uptake,cholecystokinin receptor expression and activation,as well as insulin mimetics and incretin stimulants.Examples of food-derived bioactive peptides with glucoregulatory properties include Trp-Glu-Lys-Ala-Phe-Lys-Asp-Glu-Asp(WEKAFKDED),Gln-Ala-MetPro-Phe-Arg-Val-Thr-Glu-Gln-Glu(QAMPFRVTEQE),Glu-Arg-Tyr-Pro-Ile-Leu(ERKPIL),Val-Phe-LysGly-Leu(VFKGL),Phe-Leu-Val(FLV),Val-Pro-Pro(VPP),Ile-Arg-Trp(IRW),Ala-Lys-Ser-Pro-Leu-Phe(AKSPLF),Ala-Thr-Gln-Pro-Leu-Phe(ATNPLF),Phe-Glu-Glu-Leu-Gln(FEELN),Leu-Ser-Val-Ser-Val-Leu(LSVSVL),Val-Arg-Ileu-Arg-Leu-Leu-Gln-Arg-Phe-Asn-Lys-Arg-Ser(VRIRLLQRFNKRS),and Ala-GlyPhe-Ala-Gly-Asp-Asp-Ala-Pro-Arg(AGFAGDDAPR).However,as yet,clinical evidence on the effi cacy of such bioactive peptides is rare but is inevitable to establish their applications against glucose intolerance and insulin resistance.展开更多
Over 400 yeast strains from seawater and sediments were obtained, but only five strains named HN2 -3, N13d, N13C, Mb5 and HN3 - 2 among them could form clear zones around their colonies on the double plates with 2.0% ...Over 400 yeast strains from seawater and sediments were obtained, but only five strains named HN2 -3, N13d, N13C, Mb5 and HN3 - 2 among them could form clear zones around their colonies on the double plates with 2.0% casein. Peptides in the hydrolysate produced by the proteases from strains HN2 -3 and N13d had higher angiotensin I-converting-enzyme (ACE)-inhibitory activity. The two marine yeast strains were identified to be Aureobasidium pullulans according to the results of routine yeast identification and molecular methods. After purification of the proteases from the two marine yeast strains, it was found that the optimal pH for them was both 9.0, both of them were serine alkaline protease. However, the optimal temperature for the protease from the strain HN2 -3 was 52℃ while that from strain N13d was 48℃. ACE-inhibitory activity of the peptides in the hydrolysate of shrimp protein produced by the purified protease from the strain HN2 -3 was the highest while antioxidant activity in the hydrolysate of spirulina protein produced by the purified protease from the strain N13d was the highest.展开更多
The present study was conducted to evaluate the feasibility of replacing fish meal(FM) with bioactive peptides(BPs) in diet of white shrimp(Litopenaeus vannamei). The changes in growth performance, body composition, n...The present study was conducted to evaluate the feasibility of replacing fish meal(FM) with bioactive peptides(BPs) in diet of white shrimp(Litopenaeus vannamei). The changes in growth performance, body composition, non-specific immunity, and water quality were examined after the shrimp were fed four diets, in which 0%(control), 33.3%, 66.7% and 100% of FM was replaced by BPs, respectively. The groups were designated as Con, 1/3BPs, 2/3BPs, and 3/3BPs. A total of 720 shrimp with an initial body weight of 1.46 ± 0.78 g were fed the experimental diets for 56 days. The results revealed that: 1) the weight gain rate(WGR) in 1/3BPs, 2/3BPs, and 3/3BPs was significantly higher than that in Con(P < 0.05), while no significant difference was found on survival rate and feed conversion ratio(FCR); 2) the whole-body crude protein(CP) and crude lipids(CL) were significantly different among groups, while there was no significant difference between crude ash and phosphorus contents; 3) the levels of acid phosphatase(ACP), lysozyme(LZM), superoxide dismutase(SOD), phenol oxidase(PO) and bactericidal activity increased significantly with the inclusion of BPs; 4) in terms of water quality, no significant difference was found in p H and dissolved oxygen among diets during the whole experimental period. Moreover, even though nitrite and ammonium levels tended to increase with time, there was no significant difference among groups. The results indicated that BPs is an applicable alternative of protein source, which can substitute FM in the diets of L. vannamei; it is able to effectively promote growth performance and improve immunity. Moreover, BPs in the diets had no negative impact on water quality.展开更多
A total of 400 yeast strains from seawater, sediments, saltern mud, marine fish guts, and marine algae were obtained. The protease activity of the yeast cultures was estimated, after which four strains (HN3.11, Nllb,...A total of 400 yeast strains from seawater, sediments, saltern mud, marine fish guts, and marine algae were obtained. The protease activity of the yeast cultures was estimated, after which four strains (HN3.11, Nllb, YF04C and HN4.9) capable of secreting extracellular alkaline protease were isolated. The isolated strains were identified as Aureobasidium pullulans, Yarrowia lipolytica, lssatchenkia orientalis and Cryptococcus cf. aureus. The optimal pH of the protease activity produced by strains HN3.11, YF04C, and HN4.9 was 9.0, while that of the protease produced by strain N1 lb was 10.0. The optimal temperature for protease activity was 45℃for strains HN3.11, N11b, and YF04C, and 50℃ for strain HN4.9. After digestion of shrimp (Penaeus vannamei) protein and spirulina (Arthospira platens&) protein with the four crude alkaline proteases, the filtrate from spirulina (Arthrospira platensis) powder digested by the crude alkaline protease of strain HNYl 1 was found to have the highest antioxidant activity (61.4%) and the highest angiotensin I converting enzyme (ACE)-inhibitory activities (68.4%). The other filtrates had much lower antioxidant activity and ACE-inhibitory activities.展开更多
[ Objective] To prepare peanut bioactive peptides and analyze their molecular weight composition and antioxidant activity. [ Method ] The dialysis bag of 8.0, 3.5 and 1.0 kD were used to classify the hydrolyzate deriv...[ Objective] To prepare peanut bioactive peptides and analyze their molecular weight composition and antioxidant activity. [ Method ] The dialysis bag of 8.0, 3.5 and 1.0 kD were used to classify the hydrolyzate derived from alcalase and flavourzyme, peanut bioactive poptides of differ-ent molecular weight were obtained and then their scavenging capacity of free radicals was measured. The molecular weight composition was stud-ied by Tricine-SDS-PAGE.[Result] The content of peptides 〈 1.0 kD were 76.21% and 83.42% in the total hydrolyzate from alcalase and fla-vourzyme respectively. All hydrolyzate with different molecular grades showed free radical scavenging capacity, which was increased with the reduc- tion of molecular mass. The peptides 〈 1.0 kD exhibited higher radical scavenging capacity of (87.41 ±0.66) % (alcalase) and (67.88 ±0.48)% ( flavourzyme), respectively. [ Conclusion] Peanut bioactive peptides had strong effect of antioxidant capacity, especially that 〈 1.0 kD, which had great prospect.展开更多
[Objective]The paper was to study the effect of 30%Xiange oceanic bioactive peptide pesticide-fertilizer on sugarcane pests,sugarcane yield and sugar.[Method]With conventional compound fertilizer mixed with 3%carbofur...[Objective]The paper was to study the effect of 30%Xiange oceanic bioactive peptide pesticide-fertilizer on sugarcane pests,sugarcane yield and sugar.[Method]With conventional compound fertilizer mixed with 3%carbofuran granulated insecticide as the control,the field effect of30%Xiange pesticide-fertilizer on sugarcane was compared.[Result]After the application of 30%Xiange pesticide-fertilizer for 90 d,the control effects on sugarcane borers in the two test points were 93.66%and 93.09%,respectively,which were significantly higher than those of conventional control(21.86%and 24.19%).Before harvest,the reduction effects of sugarcane internodes in the two test points treated by pesticide-fertilizer were6.21%and 5.10%,respectively,which were significantly lower than those of conventional control(36.25%and 34.55%).The control effects of Xiange pesticide-fertilizer on sugarcane chafer in the two test points were 91.34%and 100.00%respectively,which were significantly higher than those of conventional control(68.00%and 64.29%).The yields of sugarcane treated by Xiange pesticide-fertilizer in the two test points were107700 and 108000 kg/hm2,and the sugar contents were 15.62%and 15.55%,respectively.The yield and sugar content of sugarcane treated by Xiange pesticide-fertilizer were increased by 28.63%and 1.33%compared with those of conventional control.[Conclusion]30%Xiange oceanic bioactive peptide pesticide-fertilizer has good control effect on sugarcane pests,which could obviously increase yield and sugar of sugarcane.The product is worth being promoted and applied in sugarcane planting area.展开更多
Regenerative medicine and anti-aging research have made great strides at the molecular and cellular levels in dermatology and the medical aesthetic field,targeting potential treatments with skin therapeutic and interv...Regenerative medicine and anti-aging research have made great strides at the molecular and cellular levels in dermatology and the medical aesthetic field,targeting potential treatments with skin therapeutic and intervention pathways,which make it possible to develop effective skin regeneration and repair ingredients.With the rapid development of computational biology,bioinformatics as well as artificial intelligence(A.I.),the development of new ingredients for regenerative medicine has been greatly accelerated,and the success rate has been improved.Some application cases have appeared in topical skin regeneration and repair scenarios.This review will briefly introduce the application of bioactive peptides in skin repair and anti-aging as emerging ingredients in cosmeceutics and emphasize how A.I.based computational biology technology may accelerate the development of innovative peptide molecules and ultimately translate them into potential skin regenerative and anti-aging scenarios.Typically,two research routines have been summarized and current limitations as well as directions were discussed for border applications in future research.展开更多
Bioactive peptides(BAPs),typically comprising two to 20 amino acids,are widely acknowledged for their distinctive biological functions.They can be broadly classified as endogenous or exogenous peptides.Integrating BAP...Bioactive peptides(BAPs),typically comprising two to 20 amino acids,are widely acknowledged for their distinctive biological functions.They can be broadly classified as endogenous or exogenous peptides.Integrating BAPs into feed is now deemed an efficacious nutritional strategy to enhance the resilience of farmed aquatic species against stress-induced damage and pathogen infections.Moreover,dietary BAPs have exhibited significantly favorable effects on fish and shrimp's feed utilization and growth performance.The present review comprehensively explores the extensive research on the diverse applications of BAPs in aquaculture,explicitly focusing on recent advances in utilizing antioxidative,antimicrobial,antiviral,anti-inflammatory and immunomodulatory peptides.Additionally,the study incorporates several common dipeptides and tripeptides to address the challenges associated with inefficient absorption,high production costs,and the inherent instability of amino acid monomers.Furthermore,the review explores the methods for obtaining BAPs through enzymatic hydrolysis technology,highlighting key challenges that require attention in aquatic research.This review is expected to encourage further investigation in the related fields.展开更多
Camel milk is traditionally considered to have medicinal characteristics that it has potential health benefits and could help to treat several illnesses. Particularly, it is closest to human breast milk and has high l...Camel milk is traditionally considered to have medicinal characteristics that it has potential health benefits and could help to treat several illnesses. Particularly, it is closest to human breast milk and has high levels of nutrients and bioactive components. The aim of this study was to explore the antioxidant peptides derived from protein fractions of camel milk. Camel milk proteins(CMP) were fractionated into camel casein protein(CCP) and camel whey protein(CWP), which were hydrolyzed with pepsin to produce peptic digests P-CCP and P-CWP, respectively. RP-HPLC was used for fractionation of the peptides from the P-CCP and P-CWP. The antioxidant activities were evaluated using superoxide anion generating system of xanthine oxidase(XOD)and 2,2-diphenyl-1-picrylhydrazyl(DPPH) scavenging assay. Active peptides were analyzed using matrixassisted laser desorption ionization time of flight mass spectrometry(MALDI-TOF-MS) whereas a number of antioxidant peptides, with masses ranging from 913 to 2,951 Da, derived mainly from alpha-casein, lactophorin and lactoferrin, were identified. When yeast cells are used as a system for modeling mitochondrial disease, the peptides in caseins and whey fractions significantly enhanced the tolerance of yeast cells against peroxide-induced oxidative stress. The results show that both caseins and whey proteins of camel milk possess bioactive peptides with significant radical-scavenging activities and thus herald a fascinating opportunity for their potential as nutraceuticals or therapeutic peptides for prevention and treatment of oxidative stress-associated diseases.展开更多
This experiment aimed to examine the effect of periodical application of bioactive peptides derived from cottonseed(BPC)in comparison with using sub-therapeutic doses of lincomycin and the excessive in-clusion of vita...This experiment aimed to examine the effect of periodical application of bioactive peptides derived from cottonseed(BPC)in comparison with using sub-therapeutic doses of lincomycin and the excessive in-clusion of vitamin E on performance,immunity,total antioxidant capacity of serum and intestinal morphology of broiler chickens.A total of 240 one-d-old male broiler chicks with similar initial weight(Ross strain)were randomly assigned to 6 groups(8 chicks/pen):non-treated group(basal diet),basal diet supplemented with 2 mg/kg lincomycin,basal diet supplemented with 50 IU vitamin E,basal diet supplemented with 6 g BPC/kg in starter period,basal diet supplemented with 6 g BPC/kg in starter and grower periods and basal diet supplemented with 6 g BPC/kg throughout the whole experiment.The highest final body weight was obtained in the group supplemented with BPC in starter and grower periods.In the finisher phase,broilers fed the diet containing BPC in the starter period and in the whole trial had significantly(P<0.05)better feed conversion ratios(FCR).Jejunal villus height was significantly elevated in broilers supplemented with antibiotic(P<0.001),furthermore it tended to be greater in broilers fed BPC in the starter period.The jejunal villus height-to-crypt depth ratio was significantly(P<0.01)higher in broilers fed the diet containing antibiotic in comparison to other groups.Humoral immune response against Newcastle disease vaccine tended to be elevated in broilers fed the diet containing BPC in the whole trial(P>0.05).Broilers supplemented with BPC in starter and grower,and in the whole trial had significantly(P<0.05)higher antibody titers against sheep red blood cells(SRBC).The highest total antioxidant capacity was obtained in broilers supplemented with the excessive level of vitamin E,furthermore it tended to improve in broilers fed the diet containing BPC in the whole trial.In summary,the results of the study indicated that addition of BPC in broiler diets in the whole trial could improve FCR,immune responses and total antioxidant activity of serum,and BPC could be used in broiler diets as an alternative to in-feed antibiotics.展开更多
The objective of this study was to evaluate the changes on flavor and quality characteristics of goat yogurt during storage with the addition of dairy bioactive peptides and a mixture of lotus seed and lily bulb powde...The objective of this study was to evaluate the changes on flavor and quality characteristics of goat yogurt during storage with the addition of dairy bioactive peptides and a mixture of lotus seed and lily bulb powder.Both the addition of dairy bioactive peptides and lotus seeds/lily bulb powder resulted in a fermentation time reduction,water holding capacity(WHC)improvement,and inhibition of post-acidification of goat yogurt during storage.A total of 50 volatile flavor components were detected in the goat milk yogurt samples,and the addition of the above two supplements were shown to be effective in improving the flavor and the textural properties of the goat milk yogurt during storage.The group added with lotus seeds/lily bulb powder showed the best WHC and textural properties,followed by the group added with dairy bioactive peptides alone and the group with both added.The addition of both supplements was found to be useful in making up for the two defects of goat yogurt,prolonged fermentation and soft curds.Therefore,dairy bioactive peptides and lotus seeds/lily bulb powder are recommended to be added to goat yogurt as nutritional supplements.展开更多
Milk from different species has been exploited for the isolation of various functional ingredients for decades.Irrespective of the source,milk is considered as a complete food,as it provides essential nutrients requir...Milk from different species has been exploited for the isolation of various functional ingredients for decades.Irrespective of the source,milk is considered as a complete food,as it provides essential nutrients required by the human body.Proteins and their fractions are valuable sources of bioactive peptides that might exert a health beneficial role in the human body such as immune-modulation,antioxidant activity,ACE-inhibitory activity,anti-neoplastic,anti-microbial,etc.In milk,bioactive peptides may either be present in their natural form or released from their parental proteins due to enzymatic action.The increasing interest in bioactive peptides among researchers has lately augmented the exploration of minor dairy species such as sheep,goat,camel,mithun,mare,and donkey.Alternative to cow,milk from minor dairy species have also been proven to be healthier from infancy to older age owing to their higher digestibility and other nutritive components.Therefore,realizing the significance of milk from such species and incentivized interest towards the derivatization of bioactive peptides,the present review highlights the significant research achievements on bioactive peptides from milk and milk products of minor dairy species.展开更多
Plant proteins are good alternative to animal sources in bioactive peptide production due to their safety,low-cost,rich resources and easy for large scale production.The bioactivities of the peptides derived from plan...Plant proteins are good alternative to animal sources in bioactive peptide production due to their safety,low-cost,rich resources and easy for large scale production.The bioactivities of the peptides derived from plant proteins including antihypertensive,hypocholesterolemic,immunomodulatory,antioxidant,antimicrobial,anti-diabetic,opiate and hepatoprotective effect are being increasingly recognized with regards to health promoting and disease prevention.In addition to bioactivities,the plant-derived bioactive peptides possess various functional properties including emulsifying and foaming properties,and water and oil retention capacities owning to the hydrophilic/lipophilic property,conformational flexibility and chain length of peptides.Hence,the plant-derived bioactive peptides are promising ingredients for the development of health-care and functional products.This review provides the research progress on the biological activities and functional properties of plant derived peptides.The mechanism of action and structure-activity relationships of the bioactive peptide were also described,when known.Furthermore,recent developments,major challenges and prospect in the application of the plant-derive bioactive peptides in the development of functional products are discussed and summarized.The objective of this review is to improve the understanding of plant-derive bioactive peptides,and provide some constructive inspirations for further research and industrial application in the food and medicine industry.展开更多
Bioactive peptides are released during the production of fermented dairy,vegetables,fruits,legumes,fish,and meat prod-ucts.The proteolytic specificity of lactic acid bacteria,Bacillus spp.,yeasts,and mold,apart from t...Bioactive peptides are released during the production of fermented dairy,vegetables,fruits,legumes,fish,and meat prod-ucts.The proteolytic specificity of lactic acid bacteria,Bacillus spp.,yeasts,and mold,apart from their ability to synthesize bioactive peptides,plays an important role in the generation of specific bioactive peptides in traditional fermented foods.Controlled fermentation using defined starter strains has been explored for the development of bioactive peptides enriched novel fermented foods with potential functionality.Bioactive peptides enriched foods exert diverse health benefits,such as antioxidant,antihypertensive,antidiabetic,and immunomodulatory effects.Bioactive peptides can be used as alternatives to synthetic compounds due to negligible side effects and high valuation in the nutraceutical and functional food market.However,challenges associated with the identification,quantification,organoleptic properties,and bioavailability of bioac-tive peptides need to be addressed before exploiting the potential of bioactive peptides in the functional food industry.In the present review,we have discussed the production of bioactive peptides in diverse fermented foods.Structural and sequence specificity of peptides and their effect on the expression of distinct health beneficial effects have been described.The potential of utilizing these bioactive peptides for the development of novel functional fermented foods is discussed.Recent advances in peptide identification,quantification,debittering of peptides,and increasing peptide bioavailability have been explained.展开更多
文摘The cosmetic sector is a multibillion-dollar industry that requires constant attention being paid to innovative product development and engagement.Notably,its market value is projected to exceed 750 billion U.S.dollars by 2025,and it is expanding as novel,climate-friendly,green,and sustainable components from natural sources are incorporated.This review is written based on the numerous reports on the potential applications of food-derived peptides while focusing on their possible uses in the formulation of cosmeceutical and skincare products.First,the production methods of bioactive peptides linked to cosmeceutical uses are described.Then,we discuss the obtainment and characterization of different anti-inflammatory,antimicrobial,antioxidant,anti-aging,and other pleiotropic peptides with their specific mechanisms,from various food sources.The review concludes with salient considerations of the cost of production and pilot scale operation,stability,compatibility,user safety,site-specificity,and delivery methods,when designing or developing biopeptide-based cosmeceutical products.
基金supported by the National Natural Science Foundation of China(82372405,81871752)the Key Research and Development Program of Hubei Province(2022BCA052)+2 种基金the Key Research and Development Program of Wuhan City(2024020702030105)the Fundamental Research Funds for the Central Universities(2042023kf0199)the Translational Medicine and Interdisciplinary Research Joint Fund of Zhongnan Hospital of Wuhan University(ZNJC202014).
文摘Bioactive peptides and proteins(BAPPs)are promising therapeutic agents for tissue repair with considerable advantages,including multifunctionality,specificity,biocompatibility,and biodegradability.However,the high complexity of tissue microenvironments and their inherent deficiencies such as short half-live and susceptibility to enzymatic degradation,adversely affect their therapeutic efficacy and clinical applications.Investigating the fundamental mechanisms by which BAPPs modulate the microenvironment and developing rational delivery strategies are essential for optimizing their administration in distinct tissue repairs and facilitating clinical translation.This review initially focuses on the mechanisms through which BAPPs influence the microenvironment for tissue repair via reactive oxygen species,blood and lymphatic vessels,immune cells,and repair cells.Then,a variety of delivery platforms,including scaffolds and hydrogels,electrospun fibers,surface coatings,assisted particles,nanotubes,two-dimensional nanomaterials,and nanoparticles engineered cells,are summarized to incorporate BAPPs for effective tissue repair,modification strategies aimed at enhancing loading efficiencies and release kinetics are also reviewed.Additionally,the delivery of BAPPs can be precisely regulated by endogenous stimuli(glucose,reactive oxygen species,enzymes,pH)or exogenous stimuli(ultrasound,heat,light,magnetic field,and electric field)to achieve on-demand release tailored for specific tissue repair needs.Furthermore,this review focuses on the clinical potential of BAPPs in facilitating tissue repair across various types,including bone,cartilage,intervertebral discs,muscle,tendons,periodontal tissues,skin,myocardium,nervous system(encompassing brain,spinal cord,and peripheral nerve),endometrium,as well as ear and ocular tissue.Finally,current challenges and prospects are discussed.
基金the funds from the National Key R&D Program of China(2022YFF1100200).
文摘Oxidative stress is caused by an imbalance of the antioxidant defense system and excessive production of free radicals,which can damage biological macromolecules such as proteins,lipids and nucleic acids,and can cause aging,ischemia-reperfusion injury,inflammatory injury,liver and kidney injury and other diseases.The nuclear factor erytheroid-2-related factor 2(Nrf2)is a major regulator of redox balance.The Nrf2 pathway also exerts a central function in cell apoptosis,oxidative stress damage and metabolic diseases.Bioactive peptides are small molecular peptides composed of amino acid residues.They have many biological activities and play important physiological roles in human body.Antioxidant peptide is a kind of peptide which can reduce oxidative stress damage.They are safe,non-toxic and easily absorbed.In this review,we summarized the mechanism of bioactive peptides in regulating oxidative stress,especially antioxidant peptides,through regulating the Nrf2 signaling pathway and the expressions of oxidative stress-related genes,to alleviate oxidative stress-induced damage.The paper will provide valuable reference to investigators in the antioxidant peptide field and also promote the applications of antioxidant peptides in the oxidative stress-associated diseases.
基金supported by the National Natural Science Foundation of China(U1905202,31972017,and 31771922)the National Key R&D Program of China(2018YFD0901006)+2 种基金the Fujian Major Project of Provincial Science&Technology Hall,China(2020NZ010008)the Open Project of the Key Laboratory of Refrigeration and Conditioning Aquatic Products Processing,Ministry of Agriculture and Rural Affairs,China(KLRCAPP2021-03)the Quanzhou Science&Technology Project,China(2019C085R)。
文摘Peptides are functional active fragments of proteins which can provide nutrients needed for human growth and development,and they also have unique physiological activity characteristics relative to proteins.Bioactive peptides contain a great deal of development potential.More specifically,food-derived bioactive peptides have the advantages of a wide variety of sources,unique structures,high efficiency and safety,so they have broad development prospects.This review provides an overview of the current advances regarding the preparation,functional characteristics,and structure–activity relationships of food-derived bioactive peptides.Moreover,the prospects for the future development and application of food-derived bioactive peptides are discussed.This review may provide a better understanding of foodderived bioactive peptides,and some constructive inspirations for further research and applications in the food industry.
基金the National Natural Science Foundation of China,Nos.31771322,31571235the Natural Science Foundation of Beijing,No.7212121+3 种基金Beijing Science Technology New Star Cross Subject of China,No.2018019Shenzhen Science and Technology Plan Project of China,No.JCYJ 20190806162205278the Key Laboratory of Trauma and Neural Regeneration(Peking University),Ministry of Educationa grant from National Center for Trauma Medicine,No.BMU2020XY005-01(all to PXZ)。
文摘The introduction of neurotrophic factors into injured peripheral nerve sites is beneficial to peripheral nerve regeneration.However,neurotrophic facto rs are rapidly degraded in vivo and obstruct axonal regeneration when used at a supraphysiological dose,which limits their clinical benefits.Bioactive mimetic peptides have been developed to be used in place of neurotrophic factors because they have a similar mode of action to the original growth fa ctors and can activate the equivalent receptors but have simplified sequences and structures.In this study,we created polydopamine-modified chitin conduits loaded with brain-derived neurotrophic factor mimetic peptides and vascular endothelial growth fa ctor mimetic peptides(Chi/PDA-Ps).We found that the Chi/PDA-Ps conduits were less cytotoxic in vitro than chitin conduits alone and provided sustained release of functional peptides.In this study,we evaluated the biocompatibility of the Chi/P DA-Ps conduits.Brain-derived neurotrophic factor mimetic peptide and vascular endothelial growth fa ctor mimetic peptide synergistically promoted prolife ration of Schwann cells and secretion of neurotrophic factors by Schwann cells and attachment and migration of endothelial cells in vitro.The Chi/P DA-Ps conduits were used to bridge a 2 mm gap between the nerve stumps in rat models of sciatic nerve injury.We found that the application of Chi/PDA-Ps conduits could improve the motor function of rats and reduce gastrocnemius atrophy.The electrophysiological results and the microstructure of regenerative nerves showed that the nerve conduction function and re myelination was further resto red.These findings suggest that the Chi/PDA-Ps conduits have great potential in peripheral nerve injury repair.
文摘The present study here establishes a complete and effective method for isolating,purifying and identifying extracellular and intracellular peptides,and also describes the characters and bioactivities of peptides from fermented casein with Lactobacillus helveticus.Intracellular peptides are much larger in quantity and more complex in composition than extracellular peptides,between which the correlation reveals proteolytic and metabolic mechanisms.In addition,totally 241 different peptide sequences were identified by Nano LC–MS/MS from casein(212)and Lactobacillus helveticus proteins(29).These casein-derived peptides mostly originated from-casein,followed byS1-casein,-casein,andS2-casein,and came from extracell(69)and intracell(143),in which common peptides have a total of 27.Forty-four of the identified peptides were previously described as bioactive,including angiotensinconverting enzyme(ACE)-inhibitory,antioxidant,immunomodulating,antimicrobial,DPP-IV inhibitory,antiamnesic and anticancer effects and so on.Thirteen peptides with the potential of some biological activities are obtained,which were described in previous studies.A total of 47 novel peptides of 5 to 26 amino acids that were not disclosed were obtained.The new sources of natural bioactive peptides may have the very high application value as potential new peptide drugs for treatment human diseases.The product peptide DELQDKIHPF found in both extracell and intracell was quantitatively analyzed using the MRM mode of UPLC-U3Q,23.1 and 9.76 ng/mL,respectively.The quantitative analysis of the potential bioactive peptide may also advance the production of peptide products in the future.
基金supported by Grants from Natural Sciences and Engineering Research Council(NSERC)of CanadaAlberta Agriculture and Forestry,and Egg Farmers of Canada。
文摘Insulin resistance leads to impaired glucose metabolism by disrupting both insulin secretion and sensitivity.Insulin resistance plays a key role in the pathophysiology of type 2 diabetes and metabolic syndrome.Reviews on the mechanisms of action of bioactive peptides on glucose homeostasis and insulin resistance are scarce.The recent discoveries of pathways and target cells in the management of glucose and energy metabolism have opened up new opportunities for identification of novel bioactive peptides on enhancing adipocyte differentiation and insulin signaling,glucose uptake,cholecystokinin receptor expression and activation,as well as insulin mimetics and incretin stimulants.Examples of food-derived bioactive peptides with glucoregulatory properties include Trp-Glu-Lys-Ala-Phe-Lys-Asp-Glu-Asp(WEKAFKDED),Gln-Ala-MetPro-Phe-Arg-Val-Thr-Glu-Gln-Glu(QAMPFRVTEQE),Glu-Arg-Tyr-Pro-Ile-Leu(ERKPIL),Val-Phe-LysGly-Leu(VFKGL),Phe-Leu-Val(FLV),Val-Pro-Pro(VPP),Ile-Arg-Trp(IRW),Ala-Lys-Ser-Pro-Leu-Phe(AKSPLF),Ala-Thr-Gln-Pro-Leu-Phe(ATNPLF),Phe-Glu-Glu-Leu-Gln(FEELN),Leu-Ser-Val-Ser-Val-Leu(LSVSVL),Val-Arg-Ileu-Arg-Leu-Leu-Gln-Arg-Phe-Asn-Lys-Arg-Ser(VRIRLLQRFNKRS),and Ala-GlyPhe-Ala-Gly-Asp-Asp-Ala-Pro-Arg(AGFAGDDAPR).However,as yet,clinical evidence on the effi cacy of such bioactive peptides is rare but is inevitable to establish their applications against glucose intolerance and insulin resistance.
基金The Hi-Tech Research and Development Program ("863") of China,under contract No 2006AA09Z403
文摘Over 400 yeast strains from seawater and sediments were obtained, but only five strains named HN2 -3, N13d, N13C, Mb5 and HN3 - 2 among them could form clear zones around their colonies on the double plates with 2.0% casein. Peptides in the hydrolysate produced by the proteases from strains HN2 -3 and N13d had higher angiotensin I-converting-enzyme (ACE)-inhibitory activity. The two marine yeast strains were identified to be Aureobasidium pullulans according to the results of routine yeast identification and molecular methods. After purification of the proteases from the two marine yeast strains, it was found that the optimal pH for them was both 9.0, both of them were serine alkaline protease. However, the optimal temperature for the protease from the strain HN2 -3 was 52℃ while that from strain N13d was 48℃. ACE-inhibitory activity of the peptides in the hydrolysate of shrimp protein produced by the purified protease from the strain HN2 -3 was the highest while antioxidant activity in the hydrolysate of spirulina protein produced by the purified protease from the strain N13d was the highest.
基金supported by the Science-Technology Supporting Project of the National Twelfth Five-YearPlan of China (No. 2012BAD25B01)
文摘The present study was conducted to evaluate the feasibility of replacing fish meal(FM) with bioactive peptides(BPs) in diet of white shrimp(Litopenaeus vannamei). The changes in growth performance, body composition, non-specific immunity, and water quality were examined after the shrimp were fed four diets, in which 0%(control), 33.3%, 66.7% and 100% of FM was replaced by BPs, respectively. The groups were designated as Con, 1/3BPs, 2/3BPs, and 3/3BPs. A total of 720 shrimp with an initial body weight of 1.46 ± 0.78 g were fed the experimental diets for 56 days. The results revealed that: 1) the weight gain rate(WGR) in 1/3BPs, 2/3BPs, and 3/3BPs was significantly higher than that in Con(P < 0.05), while no significant difference was found on survival rate and feed conversion ratio(FCR); 2) the whole-body crude protein(CP) and crude lipids(CL) were significantly different among groups, while there was no significant difference between crude ash and phosphorus contents; 3) the levels of acid phosphatase(ACP), lysozyme(LZM), superoxide dismutase(SOD), phenol oxidase(PO) and bactericidal activity increased significantly with the inclusion of BPs; 4) in terms of water quality, no significant difference was found in p H and dissolved oxygen among diets during the whole experimental period. Moreover, even though nitrite and ammonium levels tended to increase with time, there was no significant difference among groups. The results indicated that BPs is an applicable alternative of protein source, which can substitute FM in the diets of L. vannamei; it is able to effectively promote growth performance and improve immunity. Moreover, BPs in the diets had no negative impact on water quality.
基金Supported by the High Technology Research and Development Program of China (863 Program) (No.2006AA09Z403)the National Science and Technology Infrastructure Program of China (No.2005DKA21209)
文摘A total of 400 yeast strains from seawater, sediments, saltern mud, marine fish guts, and marine algae were obtained. The protease activity of the yeast cultures was estimated, after which four strains (HN3.11, Nllb, YF04C and HN4.9) capable of secreting extracellular alkaline protease were isolated. The isolated strains were identified as Aureobasidium pullulans, Yarrowia lipolytica, lssatchenkia orientalis and Cryptococcus cf. aureus. The optimal pH of the protease activity produced by strains HN3.11, YF04C, and HN4.9 was 9.0, while that of the protease produced by strain N1 lb was 10.0. The optimal temperature for protease activity was 45℃for strains HN3.11, N11b, and YF04C, and 50℃ for strain HN4.9. After digestion of shrimp (Penaeus vannamei) protein and spirulina (Arthospira platens&) protein with the four crude alkaline proteases, the filtrate from spirulina (Arthrospira platensis) powder digested by the crude alkaline protease of strain HNYl 1 was found to have the highest antioxidant activity (61.4%) and the highest angiotensin I converting enzyme (ACE)-inhibitory activities (68.4%). The other filtrates had much lower antioxidant activity and ACE-inhibitory activities.
基金Supported by 2011 Agriculture Science and Technology Achievements Transformation Fund of the Ministry of Science and Technology(2011C3002001)
文摘[ Objective] To prepare peanut bioactive peptides and analyze their molecular weight composition and antioxidant activity. [ Method ] The dialysis bag of 8.0, 3.5 and 1.0 kD were used to classify the hydrolyzate derived from alcalase and flavourzyme, peanut bioactive poptides of differ-ent molecular weight were obtained and then their scavenging capacity of free radicals was measured. The molecular weight composition was stud-ied by Tricine-SDS-PAGE.[Result] The content of peptides 〈 1.0 kD were 76.21% and 83.42% in the total hydrolyzate from alcalase and fla-vourzyme respectively. All hydrolyzate with different molecular grades showed free radical scavenging capacity, which was increased with the reduc- tion of molecular mass. The peptides 〈 1.0 kD exhibited higher radical scavenging capacity of (87.41 ±0.66) % (alcalase) and (67.88 ±0.48)% ( flavourzyme), respectively. [ Conclusion] Peanut bioactive peptides had strong effect of antioxidant capacity, especially that 〈 1.0 kD, which had great prospect.
基金Supported by Special Fund for Development of Guangdong Academy of Sciences(2019GDASYL-0105026)Construction Project of Zhanjiang Demonstration City for Innovation and Development of Marine Economy(ZHC 2017C4B1)+1 种基金Science and Technology Project of Zhanjiang City(2017A05007)Special Fund for Construction of Zhanjiang Research Institute,Guangdong Acade-my of Sciences(2017-2019)。
文摘[Objective]The paper was to study the effect of 30%Xiange oceanic bioactive peptide pesticide-fertilizer on sugarcane pests,sugarcane yield and sugar.[Method]With conventional compound fertilizer mixed with 3%carbofuran granulated insecticide as the control,the field effect of30%Xiange pesticide-fertilizer on sugarcane was compared.[Result]After the application of 30%Xiange pesticide-fertilizer for 90 d,the control effects on sugarcane borers in the two test points were 93.66%and 93.09%,respectively,which were significantly higher than those of conventional control(21.86%and 24.19%).Before harvest,the reduction effects of sugarcane internodes in the two test points treated by pesticide-fertilizer were6.21%and 5.10%,respectively,which were significantly lower than those of conventional control(36.25%and 34.55%).The control effects of Xiange pesticide-fertilizer on sugarcane chafer in the two test points were 91.34%and 100.00%respectively,which were significantly higher than those of conventional control(68.00%and 64.29%).The yields of sugarcane treated by Xiange pesticide-fertilizer in the two test points were107700 and 108000 kg/hm2,and the sugar contents were 15.62%and 15.55%,respectively.The yield and sugar content of sugarcane treated by Xiange pesticide-fertilizer were increased by 28.63%and 1.33%compared with those of conventional control.[Conclusion]30%Xiange oceanic bioactive peptide pesticide-fertilizer has good control effect on sugarcane pests,which could obviously increase yield and sugar of sugarcane.The product is worth being promoted and applied in sugarcane planting area.
基金supported by the Guangdong Basic and Applied Basic Research Foundation(No.2023A1515030047)Zhejiang Provincial Department of Agriculture and Rural Affairs(2022SNJF078).
文摘Regenerative medicine and anti-aging research have made great strides at the molecular and cellular levels in dermatology and the medical aesthetic field,targeting potential treatments with skin therapeutic and intervention pathways,which make it possible to develop effective skin regeneration and repair ingredients.With the rapid development of computational biology,bioinformatics as well as artificial intelligence(A.I.),the development of new ingredients for regenerative medicine has been greatly accelerated,and the success rate has been improved.Some application cases have appeared in topical skin regeneration and repair scenarios.This review will briefly introduce the application of bioactive peptides in skin repair and anti-aging as emerging ingredients in cosmeceutics and emphasize how A.I.based computational biology technology may accelerate the development of innovative peptide molecules and ultimately translate them into potential skin regenerative and anti-aging scenarios.Typically,two research routines have been summarized and current limitations as well as directions were discussed for border applications in future research.
基金supported by National Key Research and Development Program of China(2023YFD2402000)The Agricultural Science and Technology Innovation Program(ASTIP)(CAAS-ZDRW202303)+2 种基金Beijing Innovation Consortium of Agriculture Research System(BAIC07-2025-08)Science and Technology Program of Xinjiang(2024A02001)It is very gratifying to acknowledge the support of the China Agricultural University(CAU)and the Chinese Academy of Agricultural Sciences(CAAS)for the PhD joint project.
文摘Bioactive peptides(BAPs),typically comprising two to 20 amino acids,are widely acknowledged for their distinctive biological functions.They can be broadly classified as endogenous or exogenous peptides.Integrating BAPs into feed is now deemed an efficacious nutritional strategy to enhance the resilience of farmed aquatic species against stress-induced damage and pathogen infections.Moreover,dietary BAPs have exhibited significantly favorable effects on fish and shrimp's feed utilization and growth performance.The present review comprehensively explores the extensive research on the diverse applications of BAPs in aquaculture,explicitly focusing on recent advances in utilizing antioxidative,antimicrobial,antiviral,anti-inflammatory and immunomodulatory peptides.Additionally,the study incorporates several common dipeptides and tripeptides to address the challenges associated with inefficient absorption,high production costs,and the inherent instability of amino acid monomers.Furthermore,the review explores the methods for obtaining BAPs through enzymatic hydrolysis technology,highlighting key challenges that require attention in aquatic research.This review is expected to encourage further investigation in the related fields.
文摘Camel milk is traditionally considered to have medicinal characteristics that it has potential health benefits and could help to treat several illnesses. Particularly, it is closest to human breast milk and has high levels of nutrients and bioactive components. The aim of this study was to explore the antioxidant peptides derived from protein fractions of camel milk. Camel milk proteins(CMP) were fractionated into camel casein protein(CCP) and camel whey protein(CWP), which were hydrolyzed with pepsin to produce peptic digests P-CCP and P-CWP, respectively. RP-HPLC was used for fractionation of the peptides from the P-CCP and P-CWP. The antioxidant activities were evaluated using superoxide anion generating system of xanthine oxidase(XOD)and 2,2-diphenyl-1-picrylhydrazyl(DPPH) scavenging assay. Active peptides were analyzed using matrixassisted laser desorption ionization time of flight mass spectrometry(MALDI-TOF-MS) whereas a number of antioxidant peptides, with masses ranging from 913 to 2,951 Da, derived mainly from alpha-casein, lactophorin and lactoferrin, were identified. When yeast cells are used as a system for modeling mitochondrial disease, the peptides in caseins and whey fractions significantly enhanced the tolerance of yeast cells against peroxide-induced oxidative stress. The results show that both caseins and whey proteins of camel milk possess bioactive peptides with significant radical-scavenging activities and thus herald a fascinating opportunity for their potential as nutraceuticals or therapeutic peptides for prevention and treatment of oxidative stress-associated diseases.
基金the Department of Animal Science of Islamic Azad University,Shahrekord Branch,Iran(Grant No.2019/13).
文摘This experiment aimed to examine the effect of periodical application of bioactive peptides derived from cottonseed(BPC)in comparison with using sub-therapeutic doses of lincomycin and the excessive in-clusion of vitamin E on performance,immunity,total antioxidant capacity of serum and intestinal morphology of broiler chickens.A total of 240 one-d-old male broiler chicks with similar initial weight(Ross strain)were randomly assigned to 6 groups(8 chicks/pen):non-treated group(basal diet),basal diet supplemented with 2 mg/kg lincomycin,basal diet supplemented with 50 IU vitamin E,basal diet supplemented with 6 g BPC/kg in starter period,basal diet supplemented with 6 g BPC/kg in starter and grower periods and basal diet supplemented with 6 g BPC/kg throughout the whole experiment.The highest final body weight was obtained in the group supplemented with BPC in starter and grower periods.In the finisher phase,broilers fed the diet containing BPC in the starter period and in the whole trial had significantly(P<0.05)better feed conversion ratios(FCR).Jejunal villus height was significantly elevated in broilers supplemented with antibiotic(P<0.001),furthermore it tended to be greater in broilers fed BPC in the starter period.The jejunal villus height-to-crypt depth ratio was significantly(P<0.01)higher in broilers fed the diet containing antibiotic in comparison to other groups.Humoral immune response against Newcastle disease vaccine tended to be elevated in broilers fed the diet containing BPC in the whole trial(P>0.05).Broilers supplemented with BPC in starter and grower,and in the whole trial had significantly(P<0.05)higher antibody titers against sheep red blood cells(SRBC).The highest total antioxidant capacity was obtained in broilers supplemented with the excessive level of vitamin E,furthermore it tended to improve in broilers fed the diet containing BPC in the whole trial.In summary,the results of the study indicated that addition of BPC in broiler diets in the whole trial could improve FCR,immune responses and total antioxidant activity of serum,and BPC could be used in broiler diets as an alternative to in-feed antibiotics.
基金funded by the Key Research and Development Program of Shandong province(2019YYSP025)Natural Science Foundation of Shandong Province(ZR2020MC210)+1 种基金Shandong Major Agricultural Technology Innovation Project(SD2019ZZ006)the Open Project Program of State Key Laboratory of Dairy Biotechnology(No.SKLDB2021-003).
文摘The objective of this study was to evaluate the changes on flavor and quality characteristics of goat yogurt during storage with the addition of dairy bioactive peptides and a mixture of lotus seed and lily bulb powder.Both the addition of dairy bioactive peptides and lotus seeds/lily bulb powder resulted in a fermentation time reduction,water holding capacity(WHC)improvement,and inhibition of post-acidification of goat yogurt during storage.A total of 50 volatile flavor components were detected in the goat milk yogurt samples,and the addition of the above two supplements were shown to be effective in improving the flavor and the textural properties of the goat milk yogurt during storage.The group added with lotus seeds/lily bulb powder showed the best WHC and textural properties,followed by the group added with dairy bioactive peptides alone and the group with both added.The addition of both supplements was found to be useful in making up for the two defects of goat yogurt,prolonged fermentation and soft curds.Therefore,dairy bioactive peptides and lotus seeds/lily bulb powder are recommended to be added to goat yogurt as nutritional supplements.
文摘Milk from different species has been exploited for the isolation of various functional ingredients for decades.Irrespective of the source,milk is considered as a complete food,as it provides essential nutrients required by the human body.Proteins and their fractions are valuable sources of bioactive peptides that might exert a health beneficial role in the human body such as immune-modulation,antioxidant activity,ACE-inhibitory activity,anti-neoplastic,anti-microbial,etc.In milk,bioactive peptides may either be present in their natural form or released from their parental proteins due to enzymatic action.The increasing interest in bioactive peptides among researchers has lately augmented the exploration of minor dairy species such as sheep,goat,camel,mithun,mare,and donkey.Alternative to cow,milk from minor dairy species have also been proven to be healthier from infancy to older age owing to their higher digestibility and other nutritive components.Therefore,realizing the significance of milk from such species and incentivized interest towards the derivatization of bioactive peptides,the present review highlights the significant research achievements on bioactive peptides from milk and milk products of minor dairy species.
基金This work was financially supported by the Science and Technology Development Plan project of Jilin Province of China(20210508014RQ).
文摘Plant proteins are good alternative to animal sources in bioactive peptide production due to their safety,low-cost,rich resources and easy for large scale production.The bioactivities of the peptides derived from plant proteins including antihypertensive,hypocholesterolemic,immunomodulatory,antioxidant,antimicrobial,anti-diabetic,opiate and hepatoprotective effect are being increasingly recognized with regards to health promoting and disease prevention.In addition to bioactivities,the plant-derived bioactive peptides possess various functional properties including emulsifying and foaming properties,and water and oil retention capacities owning to the hydrophilic/lipophilic property,conformational flexibility and chain length of peptides.Hence,the plant-derived bioactive peptides are promising ingredients for the development of health-care and functional products.This review provides the research progress on the biological activities and functional properties of plant derived peptides.The mechanism of action and structure-activity relationships of the bioactive peptide were also described,when known.Furthermore,recent developments,major challenges and prospect in the application of the plant-derive bioactive peptides in the development of functional products are discussed and summarized.The objective of this review is to improve the understanding of plant-derive bioactive peptides,and provide some constructive inspirations for further research and industrial application in the food and medicine industry.
文摘Bioactive peptides are released during the production of fermented dairy,vegetables,fruits,legumes,fish,and meat prod-ucts.The proteolytic specificity of lactic acid bacteria,Bacillus spp.,yeasts,and mold,apart from their ability to synthesize bioactive peptides,plays an important role in the generation of specific bioactive peptides in traditional fermented foods.Controlled fermentation using defined starter strains has been explored for the development of bioactive peptides enriched novel fermented foods with potential functionality.Bioactive peptides enriched foods exert diverse health benefits,such as antioxidant,antihypertensive,antidiabetic,and immunomodulatory effects.Bioactive peptides can be used as alternatives to synthetic compounds due to negligible side effects and high valuation in the nutraceutical and functional food market.However,challenges associated with the identification,quantification,organoleptic properties,and bioavailability of bioac-tive peptides need to be addressed before exploiting the potential of bioactive peptides in the functional food industry.In the present review,we have discussed the production of bioactive peptides in diverse fermented foods.Structural and sequence specificity of peptides and their effect on the expression of distinct health beneficial effects have been described.The potential of utilizing these bioactive peptides for the development of novel functional fermented foods is discussed.Recent advances in peptide identification,quantification,debittering of peptides,and increasing peptide bioavailability have been explained.
