Tannins are polyphenols widely present in the plant kingdom,commonly divided into two groups:condensed and hydrolysable tannins.Sustainable furanic bio-foams based on condensed tannins have been largely studied,but li...Tannins are polyphenols widely present in the plant kingdom,commonly divided into two groups:condensed and hydrolysable tannins.Sustainable furanic bio-foams based on condensed tannins have been largely studied,but little is described about the use of hydrolysable tannins for this material.This study examined the potential of hydrolysable chestnut tannin in comparison to condensed mimosa tannins to produce furanic foams by chemical expansion.Due to the low reactivity of the hydrolysable tannin,the use of an external source for its polymerization and curing was necessary.Through Fourier transform infrared spectroscopy(FTIR)chromatography,it was possible to observe that the new foams presented small differences in functional groups compared to the condensed tannin foams,presenting peaks related to carboxyl groups.In terms of physical properties,the chestnut foams showed an apparent density 36%higher than the conventional mimosa tannin foams and a superior hydrophilic character.In terms of thermal properties,both foams exhibit high thermal stability,with the acacia tannin foam being slightly superior.In summary,this research paves the way for new applications of hydrolysable tannins in bio-foams and materials science.展开更多
Non-isocyanate polyurethane(NIPU)foams from a commercial hydrolysable tannin extract,chestnut wood tannin extract,have been prepared to determine what chemical species and products are taking part in the reactions inv...Non-isocyanate polyurethane(NIPU)foams from a commercial hydrolysable tannin extract,chestnut wood tannin extract,have been prepared to determine what chemical species and products are taking part in the reactions involved.This method is based on two main steps:the reaction with dimethyl carbonate and the formation of urethane bonds by further reaction of the carbonated tannin with a diamine-like hexamethylene diamine.The hydroxyl groups on the tannin polyphenols and on the carbohydrates intimately linked with it and part of a hydrolysable tannin are the groups involved in these reactions.The carbohydrate skeleton of the hydrolysable tannin is also able to participate through its hydroxyl groups to the same two reactions rendering the whole molecular complex able to react to form NIPUs.The analysis by Matrix-Assisted Laser Desorption Ionization(MALDI-TOF)mass spectrometry and 13C Nuclear Magnetic Resonance(13C NMR)to further investigate the reaction mechanisms involved revealed the unsuspected complexity of chestnut hydrolysable tannin,with different fragments reacting in different manners forming a hardened network of considerable complexity.As the morphology and performance of these types of foams changes slightly with the change in the amount of glutaraldehyde and hexamine hardeners,the best performing foam formulation previously determined was scanned by SEM and analysed chemically for the structures formed.展开更多
ABSTRACT Non-isocyanate polyurethane(NIPU)foams using a hydrolysable tannin,also vulgarly called tannic acid,namely here commercial chestnut wood tannin extract was prepared.Compression strength did not appear to depe...ABSTRACT Non-isocyanate polyurethane(NIPU)foams using a hydrolysable tannin,also vulgarly called tannic acid,namely here commercial chestnut wood tannin extract was prepared.Compression strength did not appear to depend on the foam apparent density while the formulation composition of the NIPU foams has been shown to be more determinant.These NIPU foams appeared to be self-extinguishing once the high temperature flame is removed.The ignition time gave encouraging results but for improved fire resistance the foams may need some fire-retardant addition.FTIR spectrometry showed the formation of non-isocyanate urethane linkages.Thermogravimetric analysis indicated a good thermal resistance of these foams,with thermal degradation following four phases.First in the interval 25℃–120℃ range,mainly evaporation of water occurs with a maximal loss of 10%weight.In the 150℃–450℃ temperature range foams mass loss is of almost 70%.In particular in the 125℃–275℃ range occurs the degradation of some small molecular weight substances.In the 500℃–790℃ temperature range the foams do not present any further large degradation.展开更多
Tomentosin(1), a new C-glycosidic hydrolysable tannin, isolated from the leaves of Rhodomyrtus tomentosa. Its structure determined by chemical method and (1)HNMR spectroscopic analysis.
Background To more effectively address the scarcity resources and elevated costs associated with fishmeal(FM),the utilization of cottonseed protein concentrate(CPC)as an alternative in aquaculture feeds has become inc...Background To more effectively address the scarcity resources and elevated costs associated with fishmeal(FM),the utilization of cottonseed protein concentrate(CPC)as an alternative in aquaculture feeds has become increasingly prevalent.However,high levels of CPC substitution for FM have been reported to suppress the growth of fish and impair intestinal health.Hydrolysable tannin(HT)has been reported to exhibit biological activities such as antiinflammatory and antioxidant activities,but whether the HT can generate positive biological effects on the intestinal health of largemouth bass(Micropterus salmoides)remains unknown.Largemouth bass(initial weight:6.03±0.01 g)were subjected to an 8-week feeding trial with three different diets:a basic diet(named as the NC),a high CPC diet(in which CPC replaced 75%of the FM protein in the NC diet,named as the HC),and an additive diet(1.25 g/kg of the HT was added to the HC diet,named as the HCH)to explore the potential benefits of HT on intestinal health.Results The HC treatment significantly reduced the weight gain rate of fish,increased the feed conversion ratio,and induced intestinal inflammation.However,the HCH treatment could alleviate the adverse impacts of the HC diet,as evidenced by the promotion of growth and feed utilization,increased activity of digestive enzymes and antioxidant capacities,downregulated expression of pro-inflammatory factors,and maintenance of the integrity of intestinal barrier.Metabolomic analysis revealed that HCH treatment could reduce the pro-inflammatory active substances produced by arachidonic acid metabolism,including prostaglandin F2α(PGF2α)and leukotriene B4(LTB4).Transcriptomic results indicated that dietary HT might alleviate intestinal inflammation by suppressing the activation of the NF-κB signaling pathway.Furthermore,correlation analysis demonstrated that the metabolites PGF2αand LTB4,derived from arachidonic acid,exhibited a significant positive correlation with the expression of genes associated with proinflammatory responses within the NF-κB signaling pathway.Conclusions The study indicates that the HT mitigates the growth retardation and intestinal inflammation resulting from the HC diet on largemouth bass.展开更多
Pomegranate peels are disposed of as waste even though it is an eminent source of total hydrolysable tannins(THT)and possesses a great worth for recycling.The present study was carried out with the hypothesis that pul...Pomegranate peels are disposed of as waste even though it is an eminent source of total hydrolysable tannins(THT)and possesses a great worth for recycling.The present study was carried out with the hypothesis that pulsed system ultrasound-assisted extraction(PSUAE)technique optimization would aid in retaining high extract yield and THT recovery yield from pomegranate peel extract(PPE)with enhanced antioxidant potential.The extraction was performed at various conditions regarding solvent concentration(30-90% of acetone),solvent-feed ratio(10-30 mL/g),extraction time(10-20 min),and ultrasound amplitude(40-80%)for maximum extract yield,THT and antioxidant activity(AA).To model and optimize the process conditions tools namely response surface methodology(RSM)and artificial neural network(ANN)were applied.For solvent concentration,solvent-feed ratio,extraction time,and amplitude the optimal conditions attained with aid of RSM and ANN were:56%,26.5 mL/g,15 min,55%,and 45%,23 mL/g,15 min,50% respectively.The extract yield and THT content determined with RSM and ANN optimized values were 51.2%,86.4 mg TAE/g,and 62%,98.1 mg TAE/g,respectively.The mean square error value displayed the minimum and R^(2) exhibited maximum value in case of ANN compared to RSM model.PSUAE significantly augmented the AA of PPE to 77.2±0.50% compared to 49.7±0.35% of conventional extraction.FTIR and HPLC analysis established that PPE produced from PSUAE contains a significant amount of THT compounds(gallic acid and tannic acid derivative).SEM elucidated that the sonication effect resulted in peel cell wall disruptions ensuing in elevated extraction of THT.Therefore,this pulsed mode of ultrasound extraction could be regarded as an easy,cost-effective,and competent technique for the extraction of preferred natural THT from pomegranate peels that possess high prospective to be applied in food and nutraceutical formulations.展开更多
Insomnia is associated with neurotransmitters and intestinal dysbiosis.Though studies have demonstrated the ameliorative effects of milk hydrolysates on insomnia,the underlying mechanisms require further exploration.I...Insomnia is associated with neurotransmitters and intestinal dysbiosis.Though studies have demonstrated the ameliorative effects of milk hydrolysates on insomnia,the underlying mechanisms require further exploration.In this study,we investigated how papain hydrolysates of goat casein(CPH)and whey protein(WPH)affected mice's sleeplessness.Here,we show that CPH effectively improved the total sleep time in 12 h and restoring neurotransmitters(5-hydroxytryptamine(5-HT),γ-aminobutyric acid(GABA),dopamine(DA),and norepinephrine(NE))in mice.Further gut microbiota analysis revealed a significant increase in the relative abundance of Helicobacter and Escherichia-Shigella and a decrease in the relative abundance of Lactobacillus in the insomnia model mice(Model).Compared to the Model group,both CPH and WPH significantly increased the relative abundance of Akkermansia and Lactobacillus while lowering the relative abundance of Helicobacter and Escherichia-Shigella.Notably,while diazepam(DZP)increased mouse sleep duration,it also increased the relative abundance of Colidextribacter,Parasutterella,Muribaculaceae,and Prevotella.Additionally,the gene expression and protein expression of GABA_A receptor,cAMP-response element binding protein(CREB),and brain-derived neurotrophic factor(BDNF)were upregulated in the hypothalamus.We also discovered a link between intestinal gut microbiota and neurotransmitters.Overall,our results suggest that goat milk hydrolysates,especially CPH,can effectively improve insomnia,providing a theoretical basis for further experimentation and individualized designs.展开更多
OBJECTIVE:To clarify the effect of Hamayou(Oviductus Ranae) protein hydrolysate(ORPH) on depression and its exact underlying mechanism from a new perspective. METHODS:We used the Chronic Unpredictable Mild Stress(CUMS...OBJECTIVE:To clarify the effect of Hamayou(Oviductus Ranae) protein hydrolysate(ORPH) on depression and its exact underlying mechanism from a new perspective. METHODS:We used the Chronic Unpredictable Mild Stress(CUMS) method to prepare a mouse model of depression and lipopolysaccharide(LPS) to prepare a model of BV2 cellular inflammation to investigate the antidepressant effect and mechanism of action of ORPH. Behavioral changes in mice and cerebral blood flow were detected by behavioral experiments and scatter imaging. Levels of corticosterone(CORT), proinflammatory cytokines and neurotransmitter were detected by enzyme-linked immunosorbent assay. Furthermore, hematoxylin-eosin staining, Tunel staining were used to evaluate the effect of ORPH. The distribution and expression of ionized calcium bindingadaptor molecule-1(Iba-1) in mouse hippocampal tissue and BV2 cells were detected by immunofluorescence. Mitogen-activated protein kinase(MAPK) pathway related protein expression was detected by Western blot. RESULTS:ORPH improved depression-like behavior, ameliorated brain tissue damage and apoptosis, and inhibited microglia activation in brain tissue in mice. In addition, ORPH reduced expression of B-cell lymphoma-2(Bcl-2)-associated X(Bax), cysteinyl aspartate specific proteinase 3(Caspase3), cysteinyl aspartate specific proteinase 9(Caspase9), nuclear factor-kappa B(NF-κB), phosphorylation-p38(p-p38), phosphorylation-Jun Nterminal kinase(p-JNK) proteins, and increased expression of Bcl-2, inhibitory kappa B alpha(IκB-α), phosphorylation-extracellular regulated protein kinases 1/2(p-ERK1/2) proteins. On the other hand, there were fewer Iba-1-positive cells, lower expression of NF-κB, pp38, p-JNK and p-ERK1/2 proteins, and higher expression of IκB-α proteins in BV2 cells in the ORPH group. In addition, ORPH increased 5-hydroxytryptamine, norepinephrine levels and decreased CORT, interleukin-1β(IL-1β), interleukin-6(IL-6), tumor necrosis factor-α(TNF-α) levels. CONCLUSION:ORPH was able to improve depressionlike behaviors and that it took effects by promoting cerebral blood flow, inhibition of hypothalamic-pituitaryadrenal axis overactivation, improving the structural damage of hippocampal tissues, and inhibiting the inflammatory response. ORPH can reduced neuronal damage and inhibiting apoptosis by promoting the MAPK pathway.展开更多
It has been reported that sea cucumber intestine hydrolysates(SCIH)could promote glutamine metabolism in mice,while there is a close connection between glutamine metabolism and insulin sensitivity.However,the effect o...It has been reported that sea cucumber intestine hydrolysates(SCIH)could promote glutamine metabolism in mice,while there is a close connection between glutamine metabolism and insulin sensitivity.However,the effect of SCIH on insulin resistance is still unclear.The results showed that SCIH hydrolyzed by flavor protease had significant activity using the insulin-induced Hep G2 cell model.Animal experiments exhibited that SCIH supplementation significantly improved the high-fat and high-sucrose diet-induced impaired glucose tolerance,reduced fasting serum glucose and glycosylated serum protein.Besides,SCIH ameliorated islet vacuolization and decreased the pancreas TNF-αand IL-6 by 32.1%and 36.2%,respectively.Immunofluorescence staining results showed that SCIH promoted insulin secretion.Interestingly,SCIH significantly increased the liver glutamine levels and upregulated the expression of glutaminase1(GLS1)and glutamate dehydrogenase 1(GLUD1).Furthermore,SCIH increased liver acetyl-Co A levels to enhance histone acetylation and activate the gene transcription and translation on glucose metabolism-related IRS/PI3K/AKT signaling pathway,thereby attenuating insulin resistance.The present findings proposed the potential value for developing functional foods in SCIH utilization.展开更多
Abiotic stresses such as drought,heat,salinity,and heavy metal contamination severely affect global agricultural productivity.Between 2005 and 2015,droughts caused losses of approximately USD 29 billion in developing ...Abiotic stresses such as drought,heat,salinity,and heavy metal contamination severely affect global agricultural productivity.Between 2005 and 2015,droughts caused losses of approximately USD 29 billion in developing countries,and from 2008 to 2018,droughts accounted for over 34%of crop and livestock yield losses,totaling about USD 37 billion.To support the growing human population,agricultural output must increase substantially,necessitating a 60%–100%rise in crop productivity to meet the escalating demand.To address environmental challenges,organic,inorganic,and microbial biostimulants are increasingly employed to enhance plant resilience through various morphological,physiological,and biochemical modifications.Plant biostimulants enhance plant resilience under abiotic stress through mechanisms such as abscisic acid signaling modulation,which regulates stomatal closure to reduce water loss during drought and heat stress.Additionally,they aid in scavenging reactive oxygen species and stabilizing ion channels,mitigating oxidative damage,and maintaining ionic balance under stress conditions such as salinity.This review summarizes recent advancements in applying these biostimulants,focusing on their roles in triggering morphological,physiological,biochemical,and molecular changes that collectively enhance plant resilience under stress conditions.It also includes a bibliometric analysis of all articles published on biostimulants from 2019 to 2024 and explores future research directions.Emphasis was placed on optimizing biostimulant formulations and understanding their synergistic effects to maximize their efficacy under various stress conditions.By integrating biostimulants into agricultural practices,we can adopt a sustainable strategy to safeguard crop productivity in the face of climate change and environmental stressors.展开更多
Biodiversity experiments have shown that soil organic carbon(SOC)is not only a function of plant diversity,but is also closely related to the nitrogen(N)-fixing plants.However,the effect of N-fixing trees on SOC chemi...Biodiversity experiments have shown that soil organic carbon(SOC)is not only a function of plant diversity,but is also closely related to the nitrogen(N)-fixing plants.However,the effect of N-fixing trees on SOC chemical stability is still little known,especially with the compounding effects of tree species diversity.An experimental field manipulation was established in subtropical plantations of southern China to explore the impacts of tree species richness(i.e.,one,two,four and six tree species)and with/without N-fixing trees on SOC chemical stability,as indicated by the ratio of easily oxidized organic carbon to SOC(EOC/SOC).Plant-derived C components in terms of hydrolysable plant lipids and lignin phenols were isolated from soils for evaluating their relative contributions to SOC chemical stability.The results showed that N-fixing tree species rather than tree species richness had a significant effect on EOC/SOC.Hydrolysable plant lipids and lignin phenols were negatively correlated with EOC/SOC,while hydrolysable plant lipids contributed more to EOC/SOC than lignin phenols,especially in the occurrence of N-fixing trees.The presence of N-fixing tree species led to an increase in soil N availability and a decrease in fungal abundance,promoting the selective retention of certain key components of hydrolysable plant lipids,thus enhancing SOC chemical stability.These findings underpin the crucial role of N-fixing trees in shaping SOC chemical stability,and therefore,preferential selection of N-fixing tree species in mixed plantations is an appropriate silvicultural strategy to improve SOC chemical stability in subtropical plantations.展开更多
Globally,the prevalence of anxiety and depression has reached epidemic proportions.Food-derived protein hydrolysates and peptides delivered through dietary supplementation can avoid the negative risks associated with ...Globally,the prevalence of anxiety and depression has reached epidemic proportions.Food-derived protein hydrolysates and peptides delivered through dietary supplementation can avoid the negative risks associated with traditional pharmaceuticals while delivering superior anxiolytic and antidepressant effects.This review summarizes current research on food-derived anxiolytic and antidepressant protein hydrolysates and peptides,and subsequently analyses their physicochemical characteristics and elaborates on their mechanisms.The aim of this work is to contribute to the in-depth study and provide a theoretical foundation for the development of related products to better serve patients with anxiety and depression.展开更多
Soil organic nitrogen(ON)accounts for more than 90%of the total nitrogen(TN)in paddy soils.Inadequate understanding of the different ON fractions in paddy soils and their corresponding bioavailability under different ...Soil organic nitrogen(ON)accounts for more than 90%of the total nitrogen(TN)in paddy soils.Inadequate understanding of the different ON fractions in paddy soils and their corresponding bioavailability under different climatic conditions has constrained the development of appropriate nutrient management strategies for rice production.In this study,we applied a modified Bremner method coupled with high-performance liquid chromatography to characterize how soil ON fractions and amino acid chirality varied under different climatic conditions at five typical rice production sites along a latitudinal gradient.According to the results,climate had no obvious influence on TN,nitrogen(N)form,and individual amino acid contents.However,the proportions of various N forms in TN had linear relationships with annual mean temperature(AMT),with high correlation coefficient(r)values.Amino acid components also exhibited similar trends,with r as high as 0.85.Most notably,consistent linear relationships were observed between the D/L ratios of several amino acids and AMT in paddy soils(r=0.18–0.92).Findings of this study provide insights into ON and amino acid dynamics in paddy soil systems under intensive production along climate gradients.展开更多
Hemoglobin hydrolysate is derived from the enzymatic degradation of hemoglobin.This work aimed to evaluate whether hemoglobin hydrolysate promotes the absorption of non-heme iron and the safety of absorbed iron in mic...Hemoglobin hydrolysate is derived from the enzymatic degradation of hemoglobin.This work aimed to evaluate whether hemoglobin hydrolysate promotes the absorption of non-heme iron and the safety of absorbed iron in mice by analyzing the iron binding content,iron circulation,and liver homeostasis.We found that hemoglobin hydrolysate promoted the absorption of non-heme iron with high efficiency in duodenum by spontaneously binding non-heme iron during digestion,and increased hepatic iron content by up-regulating divalent metal transporter 1,zinc transporter 14,but hepatic iron content only increased at 3 weeks.Duodenal iron entered the blood through ferroportin without restriction at 3 weeks,and excessive iron entered the liver and then affected the hepatocyte membranes permeability and lipid synthesis through oxidative stress.With the prolongation of dietary intervention,the up-regulated hepcidin acted on the ferroportin to restrict excess iron from entering the blood,and then the hepatic homeostasis recovered.In addition,hemoglobin hydrolysate enhanced the hepatic antioxidant capacity.Taken together,hemoglobin hydrolysate has a strong ability to promote the absorption of non-heme iron in vivo,and the absorbed iron is relatively safe due to the regulation of hepcidin.展开更多
Bone collagen hydrolysates(peptides)derived from byproduct of animal product processing have been used to produce commercially valuable products due to their potential antioxidant activity.Maillard glycosylated reacti...Bone collagen hydrolysates(peptides)derived from byproduct of animal product processing have been used to produce commercially valuable products due to their potential antioxidant activity.Maillard glycosylated reaction is considered as a promising method to enhance the antioxidant activity of peptides.Hence,this research aims at investigating the Maillard glycosylation activity and antioxidant activity of bone collagen hydrolysates from different sources.In this study,3 glycosylated bone collagen hydrolysates were prepared and characterized,and cytotoxicity and antioxidant activity were analyzed and evaluated.The free amino groups loss,browning intensity,and fluorescence intensity of G-Cbcp(glycosylated chicken bone collagen hydrolysates(peptides))were the heaviest,followed by G-Pbcp(glycosylated porcine bone collagen hydrolysates(peptides))and G-Bbcp(glycosylated bovine bone collagen hydrolysates(peptides)).The results of amino acid analysis showed that amino acid composition of different bone collagen hydrolysates was significantly different and the amino acid decreased to different degrees after Maillard glycosylated reaction,which may lead to differences in Maillard glycosylated reaction activity.Furthermore,the 3 glycosylated hydrolysates showed no significant cytotoxicity.The results showed that glycosylation process significantly increased the antioxidant activity of bone collagen hydrolysates,and G-Cbcp showed the strongest antioxidant activity,followed by G-Pbcp and G-Bbcp.Therefore,compared with the bone collagen hydrolysates,3 glycosylated hydrolysates showed significant characteristic and structural changes,and higher antioxidant activity.展开更多
Novel angiotensin-converting enzyme(ACE)inhibitory peptides were identified from whey protein hydrolysates(WPH)in vitro in our previous study and the antihypertensive abilities of WPH in vivo were further investigated...Novel angiotensin-converting enzyme(ACE)inhibitory peptides were identified from whey protein hydrolysates(WPH)in vitro in our previous study and the antihypertensive abilities of WPH in vivo were further investigated in the current study.Results indicated that WPH significantly inhibited the development of high blood pressure and tissue injuries caused by hypertension.WPH inhibited ACE activity(20.81%,P<0.01),and reduced renin concentration(P<0.05),thereby reducing systolic blood pressure(SBP)(12.63%,P<0.05)in spontaneously hypertensive rats.The increased Akkermansia,Bacteroides,and Lactobacillus abundance promoted high short chain fatty acid content in feces after WPH intervention.These changes jointly contributed to low blood pressure.The heart weight and cardiomyocyte injuries(hypertrophy and degeneration)were alleviated by WPH.The proteomic results revealed that 19 protein expressions in the heart mainly associated with the wingless/integrated(Wnt)signaling pathway and Apelin signaling pathway were altered after WPH supplementation.Notably,WPH alleviated serum oxidative stress,indicated by the decreased malondialdehyde content(P<0.01),enhanced total antioxidant capacity(P<0.01)and superoxide dismutase activity(P<0.01).The current study suggests that WPH exhibit promising antihypertensive abilities in vivo and could be a potential alternative for antihypertensive dietary supplements.展开更多
The soybean, cotton, maize and sorghum were planted in pot under low nitrogen, high nitrogen treatments, the soil available nitrogen constitution and con- version and utilization of nitrogen fertilizer were determined...The soybean, cotton, maize and sorghum were planted in pot under low nitrogen, high nitrogen treatments, the soil available nitrogen constitution and con- version and utilization of nitrogen fertilizer were determined, so as to provide techni- cal guidance for reasonable use and improving use efficiency of nitrogen fertilizer for different types of crops. Compared with the control with nitrogen but unplanted crop, growing soybean, cotton, maize, sorghum significantly decreased the soil available N contents by 53. 48%, 51.54%, 33.10%, 55.03%,and influenced the constitution of soil available N. Thereinto, growing soybean, cotton, maize and sorghum significantly decreased soil inorganic N contents by 85.41%, 83.09%, 70.89% and 83.35%,but increased soil hydrolysable organic N contents by 1.41, 1.53, 2.11 and 1.28 times, respectively; growing soybean, cotton, maize and sorghum significantly decreased the rate of soil inorganic N to available N by 68.61%, 65.09%, 56.47% and 63.00%, but increased the rate of soil hydrolysable organic N to available N by 4.18, 4.21, 3.66 and 4.08 times, respectively. Compared with the control, growing soybean, cotton, maize and sorghum significantly increased the transform rate of ammonium nitrogen fertilizer by 93.66%, 38.19%, 32.58% and 38.31% respectively, and growing soybean treatment had the highest increasing range; the nitrification rates of ammo- nium nitrogen fertilizer of growing soybean, cotton, maize and sorghum treatments were negative values, and growing soybean treatment had the highest decreasing amplitude. The ammonium nitrogen fertilizer use efficiency of growing soybean, cot- ton, maize and sorghum treatments were 52.01%, 28.31%, 24.16% and 28.40% re- spectively and growing soybean treatment had the highest value. In conclusion, growing crops suppressed the soil nitrification and accelerated the development of soil hydrolysable organic nitrogen by the utilization of soil available nitrogen and the alteration of soil environment, and hence impacted the constitution of soil available nitrogen and the transform and use of ammonium nitrogen applied in soil. Legumi- nous crops had stronger ability of suppressing nitrification, making use of ammonium compared with non-Leguminous crops.展开更多
Anti-hepatic fibrosis peptide from Carapax Trionycis was purified, characterized, and inhibitory effect was assessed. Carapax Trionycis extract peptide hydrolysates (CTEPHs) were separated by ultrafiltration, Sephad...Anti-hepatic fibrosis peptide from Carapax Trionycis was purified, characterized, and inhibitory effect was assessed. Carapax Trionycis extract peptide hydrolysates (CTEPHs) were separated by ultrafiltration, Sephadex G-15 gel chromatography and RP-HPLC. One novel anti-hepatic fibrosis peptide (CTEPH-I: Asn-Pro-Asn-Pro-Thr) was obtained and identified. MTS assay and enzyme-linked immunosorbent assay were applied to evaluate the anti-fibrotic effect of CTEPH-1 on activated hepatic stellate cells (HSCs) in vitro. CTEPH-1 efficiently inhibited activation and proliferation of cultured HSC-T6 cells via lowering the contents of collagen and TIMP- 1 except for matrix metalloproteinase- 1 (MMP- 1). The purified peptide might be beneficial as functional food or potential drug for treatment of liver fibrogenesis.展开更多
[Objective] This study aimed to investigate the changes of granule struc- ture, characteristic and related enzymatic activity of starch in upper flue-cured tobac- co leaves during bulk flue-curing process, to provide ...[Objective] This study aimed to investigate the changes of granule struc- ture, characteristic and related enzymatic activity of starch in upper flue-cured tobac- co leaves during bulk flue-curing process, to provide theoretical basis for reasonably regulating the starch content in upper flue-cured tobacco leaves and improving the quality of upper flue-cured tobacco leaves. [Method] Changes of amylase activity, enzyme hydrolysability and granule structure of starch in upper flue-cured tobacco leaves were studied during flue-curing process using conventional physical and chemical analysis and SEM. [Result] During the flue-curing process, the starch con- tent of tobacco leaves changed greatly at yellowing stage, and the activity of amy- lase presented the double-peak curve. The SEM observation results showed that most of the starch granules in fresh tobacco leaves were spheroidal and long cylin- drical, while some individuals were in irregular shape, with obvious groove-like in- vagination and layered structure on granule surface; during the flue-curing process, a large amount of starch granules showed layered structure on the surface at yellow- ing stage, and the long cylindrical starch granules were reduced greatly; at the end of flue-curing, there were barely any long cylindrical starch granule in flue-cured to- bacco leaves. Average long-axis-diameter of starch granules in fresh tobacco leaves was 3.21 μm, showing an overall gradually increasing trend during the flue-curing process, which was significantly enhanced at 38 and 42 ℃. The diameter of starch granules increased by more than 60% at the end of 42 ℃ and there was no re- markable difference after 47 ℃. During the flue-curing process, enzyme hydrolysabil- ity of starch in flue-cured tobacco leaves first increased, reached a peak at 38 ~C, and then decreased. [Conclusion] During the bulk flue-curing, the yellowing stage is the critical period for starch content, granule structure and characteristic changes of flue-cured tobacco leaves, it is of positive effects to improve the quality of upper flue-cured tobacco leaves by regulating the flue-curing conditions at yellowing stage.展开更多
Li_(3)FeF_(6)has been the focus of research of fluorine-based cathode materials for lithium-ion batteries.Because of the low electronic conductivity of Li3 FeF6,the decrease of particle size,by an energyconsuming long...Li_(3)FeF_(6)has been the focus of research of fluorine-based cathode materials for lithium-ion batteries.Because of the low electronic conductivity of Li3 FeF6,the decrease of particle size,by an energyconsuming long-time ball milling process with carbon,is necessary to achieve a high electrochemical performance.The most successful method to enhance electrochemical activity,carbon coating,seemed to be impracticable,so far,for sensitive fluorides like Li3 FeF6.In this work,carbon coating on Li3 FeF6 particles has been successfully achieved for the first time,while avoiding both extended hydrolysis and Fe(Ⅲ)-Fe(Ⅱ)reduction.The heat treatment and atmosphere,yielding the maximal transformation of organic carbon to both graphitised and disordered carbon,has been determined.Carbon coating,with a thickness of approximately 2.5 nm,has been achieved by controlled thermal decomposition of glucose,under air,at 300℃.Raman and X-ray photoelectron spectroscopy(XPS)experiments have proved the existence of carbon and Fe2O3 on the surface of Li3FeF6 nanoparticles.XPS spectroscopy indicates the presence of organic residues from glucose decomposition.Attempts to further reduce the orga nic carbon content results in a decrease of the amorphous carbon coating layer.Optimised carbon-coated Li3 FeF6 nanoparticles deliver 122 mA h g^(-1)(85%of theoretical capacity)significantly higher than that of a noncoated sample(58 mA h g^(-1)).Even more,a significant beneficial effect of carbon coating on both capacity retention and coulombic efficiency is observed.展开更多
基金supported by a grant overseen by the French National Research Agency(ANR),as part of the“Investissements d’Avenir”program(ANR-11-LABX-0002-01,Lab of Excellence ARBRE)supported by“Lorraine Universitéd’Excellence”Master Grant,ORION program and by the French Ministry of Foreign Office through EIFFEL program.
文摘Tannins are polyphenols widely present in the plant kingdom,commonly divided into two groups:condensed and hydrolysable tannins.Sustainable furanic bio-foams based on condensed tannins have been largely studied,but little is described about the use of hydrolysable tannins for this material.This study examined the potential of hydrolysable chestnut tannin in comparison to condensed mimosa tannins to produce furanic foams by chemical expansion.Due to the low reactivity of the hydrolysable tannin,the use of an external source for its polymerization and curing was necessary.Through Fourier transform infrared spectroscopy(FTIR)chromatography,it was possible to observe that the new foams presented small differences in functional groups compared to the condensed tannin foams,presenting peaks related to carboxyl groups.In terms of physical properties,the chestnut foams showed an apparent density 36%higher than the conventional mimosa tannin foams and a superior hydrophilic character.In terms of thermal properties,both foams exhibit high thermal stability,with the acacia tannin foam being slightly superior.In summary,this research paves the way for new applications of hydrolysable tannins in bio-foams and materials science.
文摘Non-isocyanate polyurethane(NIPU)foams from a commercial hydrolysable tannin extract,chestnut wood tannin extract,have been prepared to determine what chemical species and products are taking part in the reactions involved.This method is based on two main steps:the reaction with dimethyl carbonate and the formation of urethane bonds by further reaction of the carbonated tannin with a diamine-like hexamethylene diamine.The hydroxyl groups on the tannin polyphenols and on the carbohydrates intimately linked with it and part of a hydrolysable tannin are the groups involved in these reactions.The carbohydrate skeleton of the hydrolysable tannin is also able to participate through its hydroxyl groups to the same two reactions rendering the whole molecular complex able to react to form NIPUs.The analysis by Matrix-Assisted Laser Desorption Ionization(MALDI-TOF)mass spectrometry and 13C Nuclear Magnetic Resonance(13C NMR)to further investigate the reaction mechanisms involved revealed the unsuspected complexity of chestnut hydrolysable tannin,with different fragments reacting in different manners forming a hardened network of considerable complexity.As the morphology and performance of these types of foams changes slightly with the change in the amount of glutaraldehyde and hexamine hardeners,the best performing foam formulation previously determined was scanned by SEM and analysed chemically for the structures formed.
文摘ABSTRACT Non-isocyanate polyurethane(NIPU)foams using a hydrolysable tannin,also vulgarly called tannic acid,namely here commercial chestnut wood tannin extract was prepared.Compression strength did not appear to depend on the foam apparent density while the formulation composition of the NIPU foams has been shown to be more determinant.These NIPU foams appeared to be self-extinguishing once the high temperature flame is removed.The ignition time gave encouraging results but for improved fire resistance the foams may need some fire-retardant addition.FTIR spectrometry showed the formation of non-isocyanate urethane linkages.Thermogravimetric analysis indicated a good thermal resistance of these foams,with thermal degradation following four phases.First in the interval 25℃–120℃ range,mainly evaporation of water occurs with a maximal loss of 10%weight.In the 150℃–450℃ temperature range foams mass loss is of almost 70%.In particular in the 125℃–275℃ range occurs the degradation of some small molecular weight substances.In the 500℃–790℃ temperature range the foams do not present any further large degradation.
文摘Tomentosin(1), a new C-glycosidic hydrolysable tannin, isolated from the leaves of Rhodomyrtus tomentosa. Its structure determined by chemical method and (1)HNMR spectroscopic analysis.
基金supported by the National Key Research and Development Program of China(2024YFD1300803).
文摘Background To more effectively address the scarcity resources and elevated costs associated with fishmeal(FM),the utilization of cottonseed protein concentrate(CPC)as an alternative in aquaculture feeds has become increasingly prevalent.However,high levels of CPC substitution for FM have been reported to suppress the growth of fish and impair intestinal health.Hydrolysable tannin(HT)has been reported to exhibit biological activities such as antiinflammatory and antioxidant activities,but whether the HT can generate positive biological effects on the intestinal health of largemouth bass(Micropterus salmoides)remains unknown.Largemouth bass(initial weight:6.03±0.01 g)were subjected to an 8-week feeding trial with three different diets:a basic diet(named as the NC),a high CPC diet(in which CPC replaced 75%of the FM protein in the NC diet,named as the HC),and an additive diet(1.25 g/kg of the HT was added to the HC diet,named as the HCH)to explore the potential benefits of HT on intestinal health.Results The HC treatment significantly reduced the weight gain rate of fish,increased the feed conversion ratio,and induced intestinal inflammation.However,the HCH treatment could alleviate the adverse impacts of the HC diet,as evidenced by the promotion of growth and feed utilization,increased activity of digestive enzymes and antioxidant capacities,downregulated expression of pro-inflammatory factors,and maintenance of the integrity of intestinal barrier.Metabolomic analysis revealed that HCH treatment could reduce the pro-inflammatory active substances produced by arachidonic acid metabolism,including prostaglandin F2α(PGF2α)and leukotriene B4(LTB4).Transcriptomic results indicated that dietary HT might alleviate intestinal inflammation by suppressing the activation of the NF-κB signaling pathway.Furthermore,correlation analysis demonstrated that the metabolites PGF2αand LTB4,derived from arachidonic acid,exhibited a significant positive correlation with the expression of genes associated with proinflammatory responses within the NF-κB signaling pathway.Conclusions The study indicates that the HT mitigates the growth retardation and intestinal inflammation resulting from the HC diet on largemouth bass.
文摘Pomegranate peels are disposed of as waste even though it is an eminent source of total hydrolysable tannins(THT)and possesses a great worth for recycling.The present study was carried out with the hypothesis that pulsed system ultrasound-assisted extraction(PSUAE)technique optimization would aid in retaining high extract yield and THT recovery yield from pomegranate peel extract(PPE)with enhanced antioxidant potential.The extraction was performed at various conditions regarding solvent concentration(30-90% of acetone),solvent-feed ratio(10-30 mL/g),extraction time(10-20 min),and ultrasound amplitude(40-80%)for maximum extract yield,THT and antioxidant activity(AA).To model and optimize the process conditions tools namely response surface methodology(RSM)and artificial neural network(ANN)were applied.For solvent concentration,solvent-feed ratio,extraction time,and amplitude the optimal conditions attained with aid of RSM and ANN were:56%,26.5 mL/g,15 min,55%,and 45%,23 mL/g,15 min,50% respectively.The extract yield and THT content determined with RSM and ANN optimized values were 51.2%,86.4 mg TAE/g,and 62%,98.1 mg TAE/g,respectively.The mean square error value displayed the minimum and R^(2) exhibited maximum value in case of ANN compared to RSM model.PSUAE significantly augmented the AA of PPE to 77.2±0.50% compared to 49.7±0.35% of conventional extraction.FTIR and HPLC analysis established that PPE produced from PSUAE contains a significant amount of THT compounds(gallic acid and tannic acid derivative).SEM elucidated that the sonication effect resulted in peel cell wall disruptions ensuing in elevated extraction of THT.Therefore,this pulsed mode of ultrasound extraction could be regarded as an easy,cost-effective,and competent technique for the extraction of preferred natural THT from pomegranate peels that possess high prospective to be applied in food and nutraceutical formulations.
基金supported by the National First-class Discipline Program of Food Science and Technology(JUFSTR20180204)。
文摘Insomnia is associated with neurotransmitters and intestinal dysbiosis.Though studies have demonstrated the ameliorative effects of milk hydrolysates on insomnia,the underlying mechanisms require further exploration.In this study,we investigated how papain hydrolysates of goat casein(CPH)and whey protein(WPH)affected mice's sleeplessness.Here,we show that CPH effectively improved the total sleep time in 12 h and restoring neurotransmitters(5-hydroxytryptamine(5-HT),γ-aminobutyric acid(GABA),dopamine(DA),and norepinephrine(NE))in mice.Further gut microbiota analysis revealed a significant increase in the relative abundance of Helicobacter and Escherichia-Shigella and a decrease in the relative abundance of Lactobacillus in the insomnia model mice(Model).Compared to the Model group,both CPH and WPH significantly increased the relative abundance of Akkermansia and Lactobacillus while lowering the relative abundance of Helicobacter and Escherichia-Shigella.Notably,while diazepam(DZP)increased mouse sleep duration,it also increased the relative abundance of Colidextribacter,Parasutterella,Muribaculaceae,and Prevotella.Additionally,the gene expression and protein expression of GABA_A receptor,cAMP-response element binding protein(CREB),and brain-derived neurotrophic factor(BDNF)were upregulated in the hypothalamus.We also discovered a link between intestinal gut microbiota and neurotransmitters.Overall,our results suggest that goat milk hydrolysates,especially CPH,can effectively improve insomnia,providing a theoretical basis for further experimentation and individualized designs.
基金Science and Technology Development Project of Jilin Province:Preparation and Evaluation of an Animal Model of Liverdepression Type Depression (20220505038ZP)Exploring the Material Basis and Action Pathway of the Antipyretic Effect of Baihu Tang based on Histologic Techniques (20240602036RC)。
文摘OBJECTIVE:To clarify the effect of Hamayou(Oviductus Ranae) protein hydrolysate(ORPH) on depression and its exact underlying mechanism from a new perspective. METHODS:We used the Chronic Unpredictable Mild Stress(CUMS) method to prepare a mouse model of depression and lipopolysaccharide(LPS) to prepare a model of BV2 cellular inflammation to investigate the antidepressant effect and mechanism of action of ORPH. Behavioral changes in mice and cerebral blood flow were detected by behavioral experiments and scatter imaging. Levels of corticosterone(CORT), proinflammatory cytokines and neurotransmitter were detected by enzyme-linked immunosorbent assay. Furthermore, hematoxylin-eosin staining, Tunel staining were used to evaluate the effect of ORPH. The distribution and expression of ionized calcium bindingadaptor molecule-1(Iba-1) in mouse hippocampal tissue and BV2 cells were detected by immunofluorescence. Mitogen-activated protein kinase(MAPK) pathway related protein expression was detected by Western blot. RESULTS:ORPH improved depression-like behavior, ameliorated brain tissue damage and apoptosis, and inhibited microglia activation in brain tissue in mice. In addition, ORPH reduced expression of B-cell lymphoma-2(Bcl-2)-associated X(Bax), cysteinyl aspartate specific proteinase 3(Caspase3), cysteinyl aspartate specific proteinase 9(Caspase9), nuclear factor-kappa B(NF-κB), phosphorylation-p38(p-p38), phosphorylation-Jun Nterminal kinase(p-JNK) proteins, and increased expression of Bcl-2, inhibitory kappa B alpha(IκB-α), phosphorylation-extracellular regulated protein kinases 1/2(p-ERK1/2) proteins. On the other hand, there were fewer Iba-1-positive cells, lower expression of NF-κB, pp38, p-JNK and p-ERK1/2 proteins, and higher expression of IκB-α proteins in BV2 cells in the ORPH group. In addition, ORPH increased 5-hydroxytryptamine, norepinephrine levels and decreased CORT, interleukin-1β(IL-1β), interleukin-6(IL-6), tumor necrosis factor-α(TNF-α) levels. CONCLUSION:ORPH was able to improve depressionlike behaviors and that it took effects by promoting cerebral blood flow, inhibition of hypothalamic-pituitaryadrenal axis overactivation, improving the structural damage of hippocampal tissues, and inhibiting the inflammatory response. ORPH can reduced neuronal damage and inhibiting apoptosis by promoting the MAPK pathway.
基金supported by National Key Research and Development Program of China(2023YFF1103901)the Taishan Scholars Program(tstp20240812)+2 种基金China Postdoctoral Science Foundation(2024M763107)Postdoctoral Fellowship Program of CPSF(GZC20241617)Youth Innovation Team Program of Universities in Shandong Province(2023KJ040)。
文摘It has been reported that sea cucumber intestine hydrolysates(SCIH)could promote glutamine metabolism in mice,while there is a close connection between glutamine metabolism and insulin sensitivity.However,the effect of SCIH on insulin resistance is still unclear.The results showed that SCIH hydrolyzed by flavor protease had significant activity using the insulin-induced Hep G2 cell model.Animal experiments exhibited that SCIH supplementation significantly improved the high-fat and high-sucrose diet-induced impaired glucose tolerance,reduced fasting serum glucose and glycosylated serum protein.Besides,SCIH ameliorated islet vacuolization and decreased the pancreas TNF-αand IL-6 by 32.1%and 36.2%,respectively.Immunofluorescence staining results showed that SCIH promoted insulin secretion.Interestingly,SCIH significantly increased the liver glutamine levels and upregulated the expression of glutaminase1(GLS1)and glutamate dehydrogenase 1(GLUD1).Furthermore,SCIH increased liver acetyl-Co A levels to enhance histone acetylation and activate the gene transcription and translation on glucose metabolism-related IRS/PI3K/AKT signaling pathway,thereby attenuating insulin resistance.The present findings proposed the potential value for developing functional foods in SCIH utilization.
文摘Abiotic stresses such as drought,heat,salinity,and heavy metal contamination severely affect global agricultural productivity.Between 2005 and 2015,droughts caused losses of approximately USD 29 billion in developing countries,and from 2008 to 2018,droughts accounted for over 34%of crop and livestock yield losses,totaling about USD 37 billion.To support the growing human population,agricultural output must increase substantially,necessitating a 60%–100%rise in crop productivity to meet the escalating demand.To address environmental challenges,organic,inorganic,and microbial biostimulants are increasingly employed to enhance plant resilience through various morphological,physiological,and biochemical modifications.Plant biostimulants enhance plant resilience under abiotic stress through mechanisms such as abscisic acid signaling modulation,which regulates stomatal closure to reduce water loss during drought and heat stress.Additionally,they aid in scavenging reactive oxygen species and stabilizing ion channels,mitigating oxidative damage,and maintaining ionic balance under stress conditions such as salinity.This review summarizes recent advancements in applying these biostimulants,focusing on their roles in triggering morphological,physiological,biochemical,and molecular changes that collectively enhance plant resilience under stress conditions.It also includes a bibliometric analysis of all articles published on biostimulants from 2019 to 2024 and explores future research directions.Emphasis was placed on optimizing biostimulant formulations and understanding their synergistic effects to maximize their efficacy under various stress conditions.By integrating biostimulants into agricultural practices,we can adopt a sustainable strategy to safeguard crop productivity in the face of climate change and environmental stressors.
基金supported by the National Natural Science Foundation of China(31930078,32301559)the Ministry of Science and Technology of China(2021YFD2200405,2021YFD2200402)+1 种基金Fundamental Research Funds of CAF(CAFYBB2021ZW001)the program for scientific research start-up funds of Guangdong Ocean University。
文摘Biodiversity experiments have shown that soil organic carbon(SOC)is not only a function of plant diversity,but is also closely related to the nitrogen(N)-fixing plants.However,the effect of N-fixing trees on SOC chemical stability is still little known,especially with the compounding effects of tree species diversity.An experimental field manipulation was established in subtropical plantations of southern China to explore the impacts of tree species richness(i.e.,one,two,four and six tree species)and with/without N-fixing trees on SOC chemical stability,as indicated by the ratio of easily oxidized organic carbon to SOC(EOC/SOC).Plant-derived C components in terms of hydrolysable plant lipids and lignin phenols were isolated from soils for evaluating their relative contributions to SOC chemical stability.The results showed that N-fixing tree species rather than tree species richness had a significant effect on EOC/SOC.Hydrolysable plant lipids and lignin phenols were negatively correlated with EOC/SOC,while hydrolysable plant lipids contributed more to EOC/SOC than lignin phenols,especially in the occurrence of N-fixing trees.The presence of N-fixing tree species led to an increase in soil N availability and a decrease in fungal abundance,promoting the selective retention of certain key components of hydrolysable plant lipids,thus enhancing SOC chemical stability.These findings underpin the crucial role of N-fixing trees in shaping SOC chemical stability,and therefore,preferential selection of N-fixing tree species in mixed plantations is an appropriate silvicultural strategy to improve SOC chemical stability in subtropical plantations.
基金supported by the National Key Research and Development Program of China (2021YFD2100402)the National Natural Science Foundation of China (81903275)the Fund of the Cultivation Project of Double First-Class Disciplines of Food Science and Engineering,Beijing Technology&Business University (BTBUYXTD202203)。
文摘Globally,the prevalence of anxiety and depression has reached epidemic proportions.Food-derived protein hydrolysates and peptides delivered through dietary supplementation can avoid the negative risks associated with traditional pharmaceuticals while delivering superior anxiolytic and antidepressant effects.This review summarizes current research on food-derived anxiolytic and antidepressant protein hydrolysates and peptides,and subsequently analyses their physicochemical characteristics and elaborates on their mechanisms.The aim of this work is to contribute to the in-depth study and provide a theoretical foundation for the development of related products to better serve patients with anxiety and depression.
基金supported by the National Natural Science Foundation of China(No.41671296)Special Project on the Basis of National Science and Technology of China(No.2015FY110700).
文摘Soil organic nitrogen(ON)accounts for more than 90%of the total nitrogen(TN)in paddy soils.Inadequate understanding of the different ON fractions in paddy soils and their corresponding bioavailability under different climatic conditions has constrained the development of appropriate nutrient management strategies for rice production.In this study,we applied a modified Bremner method coupled with high-performance liquid chromatography to characterize how soil ON fractions and amino acid chirality varied under different climatic conditions at five typical rice production sites along a latitudinal gradient.According to the results,climate had no obvious influence on TN,nitrogen(N)form,and individual amino acid contents.However,the proportions of various N forms in TN had linear relationships with annual mean temperature(AMT),with high correlation coefficient(r)values.Amino acid components also exhibited similar trends,with r as high as 0.85.Most notably,consistent linear relationships were observed between the D/L ratios of several amino acids and AMT in paddy soils(r=0.18–0.92).Findings of this study provide insights into ON and amino acid dynamics in paddy soil systems under intensive production along climate gradients.
基金supported by the National Natural Science Foundation of China(32072211)Jiangsu Province Department of Education(Innovation Group of Meat Nutrition and Biotechnology)。
文摘Hemoglobin hydrolysate is derived from the enzymatic degradation of hemoglobin.This work aimed to evaluate whether hemoglobin hydrolysate promotes the absorption of non-heme iron and the safety of absorbed iron in mice by analyzing the iron binding content,iron circulation,and liver homeostasis.We found that hemoglobin hydrolysate promoted the absorption of non-heme iron with high efficiency in duodenum by spontaneously binding non-heme iron during digestion,and increased hepatic iron content by up-regulating divalent metal transporter 1,zinc transporter 14,but hepatic iron content only increased at 3 weeks.Duodenal iron entered the blood through ferroportin without restriction at 3 weeks,and excessive iron entered the liver and then affected the hepatocyte membranes permeability and lipid synthesis through oxidative stress.With the prolongation of dietary intervention,the up-regulated hepcidin acted on the ferroportin to restrict excess iron from entering the blood,and then the hepatic homeostasis recovered.In addition,hemoglobin hydrolysate enhanced the hepatic antioxidant capacity.Taken together,hemoglobin hydrolysate has a strong ability to promote the absorption of non-heme iron in vivo,and the absorbed iron is relatively safe due to the regulation of hepcidin.
基金supported by the National Natural Science Foundation of China(32101883)Fellowship China Postdoctoral Science Foundation(2021M693902)National Agricultural Science and Technology Innovation Project(CAAS-ASTIP-2022)。
文摘Bone collagen hydrolysates(peptides)derived from byproduct of animal product processing have been used to produce commercially valuable products due to their potential antioxidant activity.Maillard glycosylated reaction is considered as a promising method to enhance the antioxidant activity of peptides.Hence,this research aims at investigating the Maillard glycosylation activity and antioxidant activity of bone collagen hydrolysates from different sources.In this study,3 glycosylated bone collagen hydrolysates were prepared and characterized,and cytotoxicity and antioxidant activity were analyzed and evaluated.The free amino groups loss,browning intensity,and fluorescence intensity of G-Cbcp(glycosylated chicken bone collagen hydrolysates(peptides))were the heaviest,followed by G-Pbcp(glycosylated porcine bone collagen hydrolysates(peptides))and G-Bbcp(glycosylated bovine bone collagen hydrolysates(peptides)).The results of amino acid analysis showed that amino acid composition of different bone collagen hydrolysates was significantly different and the amino acid decreased to different degrees after Maillard glycosylated reaction,which may lead to differences in Maillard glycosylated reaction activity.Furthermore,the 3 glycosylated hydrolysates showed no significant cytotoxicity.The results showed that glycosylation process significantly increased the antioxidant activity of bone collagen hydrolysates,and G-Cbcp showed the strongest antioxidant activity,followed by G-Pbcp and G-Bbcp.Therefore,compared with the bone collagen hydrolysates,3 glycosylated hydrolysates showed significant characteristic and structural changes,and higher antioxidant activity.
基金supported by the Young Elite Scientists Sponsorship Program by CAST(2021QNRC001)。
文摘Novel angiotensin-converting enzyme(ACE)inhibitory peptides were identified from whey protein hydrolysates(WPH)in vitro in our previous study and the antihypertensive abilities of WPH in vivo were further investigated in the current study.Results indicated that WPH significantly inhibited the development of high blood pressure and tissue injuries caused by hypertension.WPH inhibited ACE activity(20.81%,P<0.01),and reduced renin concentration(P<0.05),thereby reducing systolic blood pressure(SBP)(12.63%,P<0.05)in spontaneously hypertensive rats.The increased Akkermansia,Bacteroides,and Lactobacillus abundance promoted high short chain fatty acid content in feces after WPH intervention.These changes jointly contributed to low blood pressure.The heart weight and cardiomyocyte injuries(hypertrophy and degeneration)were alleviated by WPH.The proteomic results revealed that 19 protein expressions in the heart mainly associated with the wingless/integrated(Wnt)signaling pathway and Apelin signaling pathway were altered after WPH supplementation.Notably,WPH alleviated serum oxidative stress,indicated by the decreased malondialdehyde content(P<0.01),enhanced total antioxidant capacity(P<0.01)and superoxide dismutase activity(P<0.01).The current study suggests that WPH exhibit promising antihypertensive abilities in vivo and could be a potential alternative for antihypertensive dietary supplements.
基金Supported by National Natural Science Foundation of China(41371259)Hubei Natural Science Foundation(2014CFB545)~~
文摘The soybean, cotton, maize and sorghum were planted in pot under low nitrogen, high nitrogen treatments, the soil available nitrogen constitution and con- version and utilization of nitrogen fertilizer were determined, so as to provide techni- cal guidance for reasonable use and improving use efficiency of nitrogen fertilizer for different types of crops. Compared with the control with nitrogen but unplanted crop, growing soybean, cotton, maize, sorghum significantly decreased the soil available N contents by 53. 48%, 51.54%, 33.10%, 55.03%,and influenced the constitution of soil available N. Thereinto, growing soybean, cotton, maize and sorghum significantly decreased soil inorganic N contents by 85.41%, 83.09%, 70.89% and 83.35%,but increased soil hydrolysable organic N contents by 1.41, 1.53, 2.11 and 1.28 times, respectively; growing soybean, cotton, maize and sorghum significantly decreased the rate of soil inorganic N to available N by 68.61%, 65.09%, 56.47% and 63.00%, but increased the rate of soil hydrolysable organic N to available N by 4.18, 4.21, 3.66 and 4.08 times, respectively. Compared with the control, growing soybean, cotton, maize and sorghum significantly increased the transform rate of ammonium nitrogen fertilizer by 93.66%, 38.19%, 32.58% and 38.31% respectively, and growing soybean treatment had the highest increasing range; the nitrification rates of ammo- nium nitrogen fertilizer of growing soybean, cotton, maize and sorghum treatments were negative values, and growing soybean treatment had the highest decreasing amplitude. The ammonium nitrogen fertilizer use efficiency of growing soybean, cot- ton, maize and sorghum treatments were 52.01%, 28.31%, 24.16% and 28.40% re- spectively and growing soybean treatment had the highest value. In conclusion, growing crops suppressed the soil nitrification and accelerated the development of soil hydrolysable organic nitrogen by the utilization of soil available nitrogen and the alteration of soil environment, and hence impacted the constitution of soil available nitrogen and the transform and use of ammonium nitrogen applied in soil. Legumi- nous crops had stronger ability of suppressing nitrification, making use of ammonium compared with non-Leguminous crops.
基金The Foundation of the Education Department of Hubei Province(Grant No.D20162004)
文摘Anti-hepatic fibrosis peptide from Carapax Trionycis was purified, characterized, and inhibitory effect was assessed. Carapax Trionycis extract peptide hydrolysates (CTEPHs) were separated by ultrafiltration, Sephadex G-15 gel chromatography and RP-HPLC. One novel anti-hepatic fibrosis peptide (CTEPH-I: Asn-Pro-Asn-Pro-Thr) was obtained and identified. MTS assay and enzyme-linked immunosorbent assay were applied to evaluate the anti-fibrotic effect of CTEPH-1 on activated hepatic stellate cells (HSCs) in vitro. CTEPH-1 efficiently inhibited activation and proliferation of cultured HSC-T6 cells via lowering the contents of collagen and TIMP- 1 except for matrix metalloproteinase- 1 (MMP- 1). The purified peptide might be beneficial as functional food or potential drug for treatment of liver fibrogenesis.
基金Supported by Project of State Tobacco Monopoly Administration(TS-01-2011006)~~
文摘[Objective] This study aimed to investigate the changes of granule struc- ture, characteristic and related enzymatic activity of starch in upper flue-cured tobac- co leaves during bulk flue-curing process, to provide theoretical basis for reasonably regulating the starch content in upper flue-cured tobacco leaves and improving the quality of upper flue-cured tobacco leaves. [Method] Changes of amylase activity, enzyme hydrolysability and granule structure of starch in upper flue-cured tobacco leaves were studied during flue-curing process using conventional physical and chemical analysis and SEM. [Result] During the flue-curing process, the starch con- tent of tobacco leaves changed greatly at yellowing stage, and the activity of amy- lase presented the double-peak curve. The SEM observation results showed that most of the starch granules in fresh tobacco leaves were spheroidal and long cylin- drical, while some individuals were in irregular shape, with obvious groove-like in- vagination and layered structure on granule surface; during the flue-curing process, a large amount of starch granules showed layered structure on the surface at yellow- ing stage, and the long cylindrical starch granules were reduced greatly; at the end of flue-curing, there were barely any long cylindrical starch granule in flue-cured to- bacco leaves. Average long-axis-diameter of starch granules in fresh tobacco leaves was 3.21 μm, showing an overall gradually increasing trend during the flue-curing process, which was significantly enhanced at 38 and 42 ℃. The diameter of starch granules increased by more than 60% at the end of 42 ℃ and there was no re- markable difference after 47 ℃. During the flue-curing process, enzyme hydrolysabil- ity of starch in flue-cured tobacco leaves first increased, reached a peak at 38 ~C, and then decreased. [Conclusion] During the bulk flue-curing, the yellowing stage is the critical period for starch content, granule structure and characteristic changes of flue-cured tobacco leaves, it is of positive effects to improve the quality of upper flue-cured tobacco leaves by regulating the flue-curing conditions at yellowing stage.
基金This work was financially supported by the“Agencia Estatal de Investigación/Fondo Europeo de Desarrollo Regional”(FEDER/UE)and“Comunidad de Madrid”(Nos.MAT2016-78632-C4-1-R and S2013/MIT-2753)Characterisation techniques for this research were partially financed by the EU funds(Nos.POPW.01.03.00-20.034/09-00 and POPW.01.03.00-20-004/11-00)。
文摘Li_(3)FeF_(6)has been the focus of research of fluorine-based cathode materials for lithium-ion batteries.Because of the low electronic conductivity of Li3 FeF6,the decrease of particle size,by an energyconsuming long-time ball milling process with carbon,is necessary to achieve a high electrochemical performance.The most successful method to enhance electrochemical activity,carbon coating,seemed to be impracticable,so far,for sensitive fluorides like Li3 FeF6.In this work,carbon coating on Li3 FeF6 particles has been successfully achieved for the first time,while avoiding both extended hydrolysis and Fe(Ⅲ)-Fe(Ⅱ)reduction.The heat treatment and atmosphere,yielding the maximal transformation of organic carbon to both graphitised and disordered carbon,has been determined.Carbon coating,with a thickness of approximately 2.5 nm,has been achieved by controlled thermal decomposition of glucose,under air,at 300℃.Raman and X-ray photoelectron spectroscopy(XPS)experiments have proved the existence of carbon and Fe2O3 on the surface of Li3FeF6 nanoparticles.XPS spectroscopy indicates the presence of organic residues from glucose decomposition.Attempts to further reduce the orga nic carbon content results in a decrease of the amorphous carbon coating layer.Optimised carbon-coated Li3 FeF6 nanoparticles deliver 122 mA h g^(-1)(85%of theoretical capacity)significantly higher than that of a noncoated sample(58 mA h g^(-1)).Even more,a significant beneficial effect of carbon coating on both capacity retention and coulombic efficiency is observed.
