A high performance liquid chromatography (HPLC) method was established for simultaneous determina-tion of geniposidic acid, chlorogenic acid and geniposide in eucommia. Detection at 240 nm with a reversed-phasecolumn,...A high performance liquid chromatography (HPLC) method was established for simultaneous determina-tion of geniposidic acid, chlorogenic acid and geniposide in eucommia. Detection at 240 nm with a reversed-phasecolumn, CH3OH volume fraction, acidic additive and pH value of mobile phase were studied for their effects on theseparability of the compounds. The most suitable separation was obtained with isocratic gradient elution systemusing CH3OH-H2O-H3 PO4 (12.00: 87.96: 0.04, volume ratio) at a flow-rate of 1.0 mL/min. Under the experi-mental conditions, the capacity factors of three compounds are in 3-13. The sample is separated rightly. Theanalysis time is 30 min and the retention time of genfposidic acid, chlorogenic acid and geniposide are 6. 7 min,10.5 min and 21 min, respectively.展开更多
In this study, we assess the effectiveness of utilizing a straight knee kick in the backstroke with regard to the overall time, max speed, and distance per stroke when using a straight knee butterfly technique. We ana...In this study, we assess the effectiveness of utilizing a straight knee kick in the backstroke with regard to the overall time, max speed, and distance per stroke when using a straight knee butterfly technique. We analyzed freestyle kick of knee angles from 7-Olympic medalists, 1970's S-shaped pulling pattern stroke was used with a bending knee freestyle kick. The straight knee kick used in butterfly competitions resulted in improvements from 54.74 to 51.00 in Men's 100-meter butterfly and fi'om 23.43 to 23.02 in Men's 50-meter butterfly. Using a straight knee kick in backstroke competitions resulted in improvements from 1:01.74 to 1:00.55 in the 100-meter backstroke event. Increases in performance speed, max speed and distance per stroke among three elite level swimmers are highly correlated to duration of the kick resistance, and straight knee kick in backstroke. The straight knee kick also resulted in an increase in lactate acid.展开更多
Short-chain fatty acids,metabolites produced by the fermentation of dietary fiber by gut microbiota,have garnered significant attention due to their correlation with neurodegenerative diseases,particularly Parkinson’...Short-chain fatty acids,metabolites produced by the fermentation of dietary fiber by gut microbiota,have garnered significant attention due to their correlation with neurodegenerative diseases,particularly Parkinson’s disease.In this review,we summarize the changes in short-chain fatty acid levels and the abundance of short-chain fatty acid-producing bacteria in various samples from patients with Parkinson’s disease,highlighting the critical role of gut homeostasis imbalance in the pathogenesis and progression of the disease.Focusing on the nervous system,we discuss the molecular mechanisms by which short-chain fatty acids influence the homeostasis of both the enteric nervous system and the central nervous system.We identify key processes,including the activation of G protein-coupled receptors and the inhibition of histone deacetylases by short-chain fatty acids.Importantly,structural or functional disruptions in the enteric nervous system mediated by these fatty acids may lead to abnormalα-synuclein expression and gastrointestinal dysmotility,which could serve as an initiating event in Parkinson’s disease.Furthermore,we propose that short-chain fatty acids help establish communication between the enteric nervous system and the central nervous system via the vagal nerve,immune circulation,and endocrine signaling.This communication may shed light on their potential role in the transmission ofα-synuclein from the gut to the brain.Finally,we elucidate novel treatment strategies for Parkinson’s disease that target short-chain fatty acids and examine the challenges associated with translating short-chain fatty acid-based therapies into clinical practice.In conclusion,this review emphasizes the pivotal role of short-chain fatty acids in regulating gut-brain axis integrity and their significance in the pathogenesis of Parkinson’s disease from the perspective of the nervous system.Moreover,it highlights the potential value of short-chain fatty acids in early intervention for Parkinson’s disease.Future research into the molecular mechanisms of short-chain fatty acids and their synergistic interactions with other gut metabolites is likely to advance the clinical translation of innovative short-chain fatty acid-based therapies for Parkinson’s disease.展开更多
Three copper(Ⅱ),nickel and cadmium(Ⅱ)complexes,namely[Cu_(2)(μ-H2dbda)2(phen)2]·2H_(2)O(1),[Ni(μ-H2dbda)(μ-bpb)(H_(2)O)2]n(2),and[Cd(μ-H2dbda)(μ-bpa)]n(3),have been constructed hydrothermally using H4dbda(...Three copper(Ⅱ),nickel and cadmium(Ⅱ)complexes,namely[Cu_(2)(μ-H2dbda)2(phen)2]·2H_(2)O(1),[Ni(μ-H2dbda)(μ-bpb)(H_(2)O)2]n(2),and[Cd(μ-H2dbda)(μ-bpa)]n(3),have been constructed hydrothermally using H4dbda(4,4'-dihydroxy-[1,1'-biphenyl]-3,3'-dicarboxylic acid),phen(1,10-phenanthroline),bpb(1,4-bis(pyrid-4-yl)benzene),bpa(bis(4-pyridyl)amine),and copper,nickel and cadmium chlorides at 160℃.The products were isolated as stable crystalline solids and were characterized by IR spectra,elemental analyses,thermogravimetric analyses,and singlecrystal X-ray diffraction analyses.Single-crystal X-ray diffraction analyses revealed that three complexes crystallize in the monoclinic P21/n,tetragonal I42d,and orthorhombic P21212 space groups.The complexes exhibit molecular dimers(1)or 2D metal-organic networks(2 and 3).The catalytic performances in the Knoevenagel reaction of these complexes were investigated.Complex 1 exhibits an effective catalytic activity and excellent reusability as a heterogeneous catalyst in the Knoevenagel reaction at room temperature.CCDC:2463800,1;2463801,2;2463802,3.展开更多
Lignin-derived oxygenated aromatics,particularly phenols and aromatic ethers obtained through depolymerization,represent promising feedstocks for synthesizing high-density and high-heat-sink aviation fuels via alkylat...Lignin-derived oxygenated aromatics,particularly phenols and aromatic ethers obtained through depolymerization,represent promising feedstocks for synthesizing high-density and high-heat-sink aviation fuels via alkylation-hydrogenation processes.This study systematically evaluates the catalytic performance of various zeolites(Hβ,HZSM-5,MCM-41 and HUSY)in the alkylation reaction of phenol with cyclohexanol.Characterization results demonstrate that HUSY zeolite showed superior catalytic activity compared to other zeolites,attributable to its favorable pore architecture and well-balanced acid site distribution that synergistically facilitate molecular diffusion and catalytic transformations.To further enhance the catalytic properties,HUSY zeolite was modified with citric acid at various concentrations and compared with those treated with NaOH and oxalic acid.The results revealed that citric acid treatment preserved the crystallinity of the zeolite while modulating its acid distribution and pore structure.All modified zeolites enhanced phenol alkylation activity.Notably,the HUSY-0.5M catalyst,which exhibited the highest medium-strong acid to total acid ratio,achieved superior catalytic performance,80.4%conversion of phenol and 99.6%selectivity for alkylation products.The catalyst also exhibited high activity in the alkylation of various lignin-derived compounds,demonstrating its broad applicability.This work provides a new strategy for the valorization of lignin-derived phenols into high-value fuel precursors through alkylation.展开更多
Both linoleic acid(18:2 n-6,LA)andα-linolenic acid(18:3 n-3,ALA)are essential fatty acids for infants.The contents of LA and ALA,and their ratio exhibited significant changes in human milk over the past 4 decades,whi...Both linoleic acid(18:2 n-6,LA)andα-linolenic acid(18:3 n-3,ALA)are essential fatty acids for infants.The contents of LA and ALA,and their ratio exhibited significant changes in human milk over the past 4 decades,which were not well summarized.Here,we summarized these values in 9898 human breast milk samples of 6664 mothers from 50 countries in 81 studies.A literature search was conducted using PubMed,Embase,and Web of Science between January 1980 and October 2023.The 95%confidence interval of LA/ALA ratio across lactation and gestation ranged from 14.24 to 31.26.The LA content was higher in China and Turkey(>20%)whereas the ALA content was below 1%in Africa.The LA/ALA ratio in countries along the Mediterranean coast exceeded 20 or even 30.LA and ALA contents increased significantly(P<0.01)while the ratio remained stable over the last 40 years.Multivariate meta-regression results showed that regions significantly(P<0.01)determined the LA,ALA,and LA/ALA ratio.Especially,maternal diet could definitely explain the variation while the effects of gestational age,lactation period was not significant.Clinical trials demonstrated that decreasing the LA/ALA ratio increased docosahexaenoic acid(22:6 n-3,DHA)status,reduced arachidonic acid(20:4 n-6,AA)contents,exerted no effect on the visual function of infants,and reached no consensus on growth.The current review aims to provide an overview on the LA and ALA contents and their ratio in human breast milk to raise concern in infant formula.展开更多
Lysophosphatidic acid(LPA)is a pleiotropic lipid agonist essential for functions of the central nervous system(CNS).It is abundant in the developing and adult brain while its concentration in biological fluids,includi...Lysophosphatidic acid(LPA)is a pleiotropic lipid agonist essential for functions of the central nervous system(CNS).It is abundant in the developing and adult brain while its concentration in biological fluids,including cerebrospinal fluid,varies significantly(Figure 1Α;Yung et al.,2014).LPA actually corresponds to a variety of lipid species that include different stereoisomers with either saturated or unsaturated fatty acids bearing likely differentiated biological activities(Figure 1Α;Yung et al.,2014;Hernández-Araiza et al.,2018).展开更多
Background Ruminants and monogastric animals exhibit significant differences in gluconeogenic efficiency.In dairy cows,hepatic gluconeogenesis serves as the primary source of glucose.Metabolites modulate gluconeogenes...Background Ruminants and monogastric animals exhibit significant differences in gluconeogenic efficiency.In dairy cows,hepatic gluconeogenesis serves as the primary source of glucose.Metabolites modulate gluconeogenesis efficiency through allosteric regulation,redox state,and signal transduction pathways.However,the liver-enriched metabolites that regulate hepatic gluconeogenesis in dairy cows and their specific regulatory mechanisms remain incompletely characterized.Results Six Holstein dairy cows and six Duroc×(Landrace×Yorkshire)(DLY)crossbred pigs served as research subjects.Employing non-targeted and targeted metabolomics,we discovered that three bile acids—taurodeoxycholic acid(TDCA),taurocholic acid(TCA),and glycocholic acid(GCA)—were highly enriched in Holstein dairy cows'livers.In bovine hepatocytes,individual or combined stimulation of these bile acids significantly upregulated the expression of gluconeogenesis genes(FBP1,PCK1 and G6PC)and enhanced glucose production.In fasting mice with induced gluconeogenesis,TDCA,TCA,and GCA increased fasting blood glucose levels,and pyruvate tolerance tests further revealed their capacity to enhance hepatic gluconeogenesis,enabling more efficient glucose synthesis from pyruvate.Mechanistically,these bile acids activated Takeda G protein-coupled receptor 5(TGR5),elevated intracellular cAMP levels,and ultimately enhanced gluconeogenesis via the transcription factor cAMP-response element binding protein(CREB).Notably,a TGR5 inhibitor abrogated the stimulatory effects of TDCA,TCA,and GCA on hepatic gluconeogenesis in fasting mice.Conclusion TDCA,TCA,and GCA are key metabolites promoting hepatic gluconeogenesis in dairy cows,with TGR5 as the pivotal receptor and the cAMP/PKA/CREB pathway as the critical downstream mechanism.展开更多
In previous research,we demonstrated that long-term consumption of thermally oxidized oil leads to neuroinflammation and anxiety in mice.Therefore,in this study,we employed polar lipid components from thermo-induced o...In previous research,we demonstrated that long-term consumption of thermally oxidized oil leads to neuroinflammation and anxiety in mice.Therefore,in this study,we employed polar lipid components from thermo-induced oxidized oil to induce neurodamage.Behavioral assessments revealed that both the linoleic acid and AUDA(a classical inhibitor of soluble epoxide hydrolase)groups exhibited significantly reduced anxiety-like behaviors compared to the model group(P<0.05).Immunofluorescence analysis indicated that microglial activation in the hippocampus was attenuated in both the linoleic acid and AUDA groups relative to the model group,accompanied by a reduction in the m RNA expression of pro-inflammatory cytokines(IL-1β,IL-6,NOS2,TNF-α)and an upregulation of neuroprotective factors(IL-4,IL-10,BDNF).Lipidomic profiling of hippocampal tissue revealed that the lipid composition of the linoleic acid group closely resembled that of the AUDA group,with a significant downregulation of cardiolipin(CL)compared to the control group,consistent with alterations in the membrane potential channel receptor TRPC1.Both linoleic acid and AUDA inhibited the m RNA expression of EPHX2,leading to an increase in epoxyeicosatrienoic acids(EETs)levels.Furthermore,linoleic acid upregulated the expression of cytochrome P450 enzymes(CYP2J6)and lipoxygenase(LOX2S),which further upregulated the synthesis of EETs,and increased the content of 9-HODE and 13-HODE.These findings collectively suggest that linoleic acid alleviates neuroinflammation by modulating microglial differentiation and attenuates neurodegeneration induced by thermally oxidized oil through the regulation of arachidonic acid metabolism and the linoleic acid metabolic pathway,leading to the production of neuroprotective lipid mediators.Therefore,linoleic acid may serve as a potential neuro-nutrient for the treatment of anxiety disorders.This provided a scientific basis for the development of specialized medical foods aimed at protecting neural health.展开更多
Understanding the acid resistance mechanism of S.mutans is crucial for preventing dental caries.FtsZ is the core protein for cell division in bacteria that can polymerize into Z-rings and drive cytokinesis.Our previou...Understanding the acid resistance mechanism of S.mutans is crucial for preventing dental caries.FtsZ is the core protein for cell division in bacteria that can polymerize into Z-rings and drive cytokinesis.Our previous study revealed that the FtsZ in S.mutans(SmFtsZ) has higher self-assembly and GTPase activity under acidic stress,which may be responsible for acid resistance and ca riogenesis of S.mutans.However,the functional structure mechanism of SmFtsZ under low pH conditions is still unclear.Here,we further reported the crystal structure of S.mutans FtsZ,revealing a unique lateral interface.Through protein polymerization and GTPase activity assay,we experimentally demonstrated that the mutation of Arg68 on this lateral interface significantly reduced the functional activity of FtsZ in an acidic environment.The phenotype assay and rat caries model further showed that the mutation of Arg68 effectively inhibited the acid resistance of S.mutans and the occurrence and progress of dental caries in vivo.By employing a molecular dynamics simulation analysis,we conclude that the mutation of Arg68 disrupts the conformation change necessary for SmFtsZ polymerization under acidic conditions.Our study proposes a novel mechanism to maintain FtsZ function in bacteria and could be a potential target for antimicrobial drugs to inhibit the growth of S.mutans in acidic environments.展开更多
Phosphorus plays an indispensable role in the food chain,yet phosphorus mineral resources are finite,underscoring the urgency for developing a closed-loop phosphorus economy.Although there have been advances in phosph...Phosphorus plays an indispensable role in the food chain,yet phosphorus mineral resources are finite,underscoring the urgency for developing a closed-loop phosphorus economy.Although there have been advances in phosphorus recovery from various waste materials,modern agriculture still depends on adequate phosphorus supply to support plant growth.In this study,we explored the amorphization of Ox bone using phytic acid(OxPA),and investigated how varying treatment durations influence the resulting structure.Inductively Coupled Plasma(ICP)analysis was employed to quantify phosphate solubilization.Additionally,pot experiments were conducted to assess the phosphate efficiency of Ox-PA in comparison to untreated Ox bone and control group.The results showed that Ox-PA exhibited significantly higher phosphate solubilization(2973 ppm)than untreated counterpart(13 ppm).When used as a fertilizer,Ox-PA markedly enhanced both aboveground and belowground biomass and root development in maize plants.Moreover,it facilitated increased phosphorus uptake by the plants during their early growth stages.These findings indicate that Ox-PA not only holds significant potential for promoting agronomic sustainability but also contributes meaningfully to the establishment of a circular phosphorus economy.展开更多
Early knee osteoarthritis(KOA)is characterized by progressive degeneration of the articular cartilage,synovial inflammation,and excessive accumulation of reactive oxygen species(ROS).At present,intra-articular injecti...Early knee osteoarthritis(KOA)is characterized by progressive degeneration of the articular cartilage,synovial inflammation,and excessive accumulation of reactive oxygen species(ROS).At present,intra-articular injection of hyaluronic acid(HA)is widely used to alleviate symptoms;however,its lubrication persistence,antioxidant,and anti-inflammatory abilities are limited,and it is difficult to effectively delay the early process of cartilage degeneration.Based on this,hyaluronic acid-g-lipoic acid(HA-LA)was synthesized by esterification reaction,and HA-LA microspheres were prepared by a reversed-phase emulsion method,which was combined with a macromolecular HA-LA solution to form injectable hydrogels.The objective of this study was to evaluate the efficacy of an injectable hydrogel based on hyaluronic acid-g-lipoic acid microspheres(HA-LA MS)for the treatment of KOA and to verify its injectability,lubricity,reactive oxygen species(ROS)scavenging ability,and anti-inflammatory effects.The results show that the HA-LA MS hydrogel has excellent shear thinning characteristics and continuous injectability,and its microsphere structure significantly reduces the interfacial friction coefficient through the rolling effect.In vitro experiments have shown that the hydrogel can efficiently scavenge ROS,reduce the expression of inflammatory factors,and is non-cytotoxic.The HA-LA MS injectable hydrogel has excellent lubricity,ROS scavenging ability,and anti-inflammatory effects in vivo,which can effectively delay the degeneration of early KOA cartilage,and its efficacy is significantly better than that of traditional hyaluronic acid,making it a promising intra-articular injection preparation.展开更多
To address the issue of residual pollution caused by polyethylene mulch,this study explored the effects of different mulching methods on the soil environment of the yam field,as well as on yam yield and quality.The ex...To address the issue of residual pollution caused by polyethylene mulch,this study explored the effects of different mulching methods on the soil environment of the yam field,as well as on yam yield and quality.The experiment comprised six treatments in total:one non-mulched treatment served as the control(CK),along with five different film-mulched treatments,namely PE,FZS12,FZS15,FC12,and FC15.The degradation of these films and their effects on soil physicochemical properties,microbial community,yam yield and quality were compared.The results showed that the FZS12 treatment achieved grade 5 degradation by the end of the planting period.Compared with PE treatment,the total soluble sugar content and yield of yam treated with FZS12 were significantly increased by 35.78%and 74.97%,respectively(p<0.05).Compared with CK and PE treatments,FZS12 significantly increased soil available nitrogen by 31.62%and 6.20%,respectively(p<0.05),and significantly increased soil available phosphorus by 8.58%and 4.45%,respectively(p<0.05).Soil pH,available nitrogen,and available phosphorus were the main environmental factors affecting the soil bacterial community.The FZS12 treatment significantly increased the relative abundances of soil bacteria phylum including Acidobacteriota,Myxococcota,Patescibacteria,and Proteobacteria compared with the CK and PE treatments.Functional prediction using Picrust2 revealed that the FZS12 treatment had significantly higher levels of signal transduction and amino acid metabolism than the CK and PE treatments.In conclusion,covering with 12μm PBAT/PLA humic acid biodegradable film enhances yam yield and total soluble sugar content by shaping beneficial soil microbial communities,activating soil nutrients.展开更多
Elaidic acid(EA)is a typical trans fatty acid(TFA)that emerges during the processing of various fatty foods.In this study,we found that EA induced renal injury with necroptosis.Pretreatment with a reactive oxygen spec...Elaidic acid(EA)is a typical trans fatty acid(TFA)that emerges during the processing of various fatty foods.In this study,we found that EA induced renal injury with necroptosis.Pretreatment with a reactive oxygen species(ROS)inhibitor and a RIPK3 inhibitor alleviated EA-induced necroptosis.The data indicated that EA induced renal necroptosis through ROS/RIPK3/MLKL pathway.In mechanistic studies,we explored how EA induced ROS production.Results indicated that EA caused mitochondrial damage by testing MMP,MFN1,VDAC,and FIS1.Further,EA suppressed mitophagy by testing the levels of LC3,p62,PINK1,Parkin,colocalization of LC3 and Mito-Tracker Red.Mitophagy is a process of selective degradation of damaged mitochondria.A large number of damaged mitochondria couldn't be cleared by mitophagy in time,which increased ROS levels in renal cells.Pretreatment with a mitophagy activator decreased EA-induced ROS levels and mitochondrial damage.Taken together,our data identified that EA induced renal necroptosis by destroying mitochondria and inhibiting mitophagy,thereby activating the ROS/RIPK3/MLKL pathway.展开更多
Neurodegenerative disorde rs such as Alzheimer's and Parkinson s diseases are increasingly associated with metabolic dysfunction,including obesity,type 2 diabetes,and metabolic dysfunction-associated steatotic liv...Neurodegenerative disorde rs such as Alzheimer's and Parkinson s diseases are increasingly associated with metabolic dysfunction,including obesity,type 2 diabetes,and metabolic dysfunction-associated steatotic liver disease.Central to this connection is the dysregulation of lipid metabolism,which extends beyond peripheral tissues to the brain,defective autolysosomal function,oxidative stress,inflammation,and insulin resistance.Lipids,which constitute over half of dry weight of the brain,play critical roles in ene rgy provisio n,structural integrity,and synaptic function.Dys regulation of lipid metabolism contributes to neuroinflammation,impaired neuronal function,and disrupted blood-brain barrier integrity.Palmitic acid,a saturated fatty acid abundant in high-fat diets,serves as a key model for studying lipid-induced toxicity(lipotoxicity)in the brain.Palmitic acid disrupts autophagy and lysosomal function,mitochondrial function,trigge ring oxidative stress,contributing to neuroinflammation and neurodegeneration.These effects are particularly pronounced in neurons,which are highly susceptible to lipid-induced toxicity due to their high metabolic demands.Glial cells,including astrocytes,microglia,and oligodendrocytes,also exhibit distinct vulnerabilities and adaptive responses to lipid metabolism dysregulation,further contributing to neuroinflammation and demyelination.Therapeutic strategies,such as supplementation with polyunsaturated fatty acids,AMP-activated protein kinase activation,and lysosome-ta rgeted interventions,show promise in mitigating palmitic acid-induced lipotoxicity and restoring cellular homeostasis.This review comprehensively examines palmitic acid-induced lipotoxicity and its impact on autolysosomal dysfunction across various central nervous system cell types,including neurons,astrocytes,microglia,and oligodendrocytes.Additionally,it highlights therapeutic approaches to restore autolysosomal function under lipotoxic conditions.Advances in multi-omics technologies and a deeper unde rstanding of intercellular crosstalk offer new avenues for develo ping targeted the rapies to resto re autolysosomal function,and attenuate neuroinflammation and neurodegeneration.展开更多
Investigating structural and hydroxyl group effects in electrooxidation of alcohols to value-added products by solid-acid electrocatalysts is essential for upgrading biomass alcohols.Herein,we report efficient electro...Investigating structural and hydroxyl group effects in electrooxidation of alcohols to value-added products by solid-acid electrocatalysts is essential for upgrading biomass alcohols.Herein,we report efficient electrocatalytic oxidations of saturated alcohols(C_(1)-C_(6))to selectively form formate using Ni Co hydroxide(Ni Co-OH)derived Ni Co_(2)O_(4)solid-acid electrocatalysts with balanced Lewis acid(LASs)and Brønsted acid sites(BASs).Thermal treatment transforms BASs-rich(89.6%)Ni Co-OH into Ni Co_(2)O_(4)with nearly equal distribution of LASs(53.1%)and BASs(46.9%)which synergistically promote adsorption and activation of OH-and alcohol molecules for enhanced oxidation activity.In contrast,BASs-enriched Ni Co-OH facilitates formation of higher valence metal sites,beneficial for water oxidation.The combined experimental studies and theoretical calculation imply the oxidation ability of C1-C6alcohols increases as increased number of hydroxyl groups and decreased HOMO-LUMO gaps:methanol(C_(1))<ethylene glycol(C_(2))<glycerol(C3)<meso-erythritol(C4)<xylitol(C5)<sorbitol(C6),while the formate selectivity shows the opposite trend from 100 to 80%.This study unveils synergistic roles of LASs and BASs,as well as hydroxyl group effect in electro-upgrading of alcohols using solid-acid electrocatalysts.展开更多
Recent studies have shown that lipid metabolism is a key factor affecting anther development and male fertility.However,how plants regulating the metabolic balance of multiple lipids to ensure proper anther developmen...Recent studies have shown that lipid metabolism is a key factor affecting anther development and male fertility.However,how plants regulating the metabolic balance of multiple lipids to ensure proper anther development and male fertility remains unclear.Analyzing lipid molecules related to anther fertility and genes responsible for their biosynthesis is crucial for understanding the physiological significance of lipid metabolism in crop fertility.In this study,we compared the transcriptome and the composition and content of lipids in anthers of two upland cotton(Gossypium hirsutum) materials,Shida 98(WT) and its nearly-isogenic male sterile line Shida 98A(MS).Transcriptomics analysis identified many differentially expressed genes(DEGs) between the two materials,with the genes of the alpha-linolenic acid metabolism pathway being the most significantly associated with the male sterility phenotype.Investigations on lipids revealed that the MS anthers over-accumulated free fatty acids(FFAs),phosphatidic acid(PA),mono-and di-galactosyldiacylglycerol(MGDG and DGDG),and had a decreased content of triacylglycerol(TAG),which was closely related to the abnormal metabolism of alpha-linolenic acid(C18:3);therefore,the major lipids containing C18:3-acyl chains,such as PA,MGDG,DGDG,and TAG,are proposed to play a major role in cotton anther development.We also showed that an excessive level of MGDG and DGDG caused jasmonic acid(JA) overaccumulation in MS anthers,which in turn inhibited the expression of GhFAD3 and consequently reduced the C18:3 content,presumably via a feedback regulation mechanism,ultimately affecting plant fertility.Together,our results revealed the importance of a balanced lipid metabolism in regulating the development of cotton anther and pollen and consequently male fertility.展开更多
Drought,as the most catastrophic abiotic stress,poses a significant threat to the growth and development of plants.Among the mechanisms employed by plants to cope with drought-induced stress,abscisic acid(ABA)which is...Drought,as the most catastrophic abiotic stress,poses a significant threat to the growth and development of plants.Among the mechanisms employed by plants to cope with drought-induced stress,abscisic acid(ABA)which is the sesquiterpene hormone,occupies a pivotal role.A hypothesis has emerged that the exogenous application of ABA can positively influence the terpenoid content of Lavandula angustifolia cv Hidcote essential oil(EO),thereby conferring enhanced resilience to drought stress.A randomized complete block design experiment was conducted with three replicationsandfour irrigation regimes,including I4[30%-40%of field capacity(FC)],I3(50%-60%FC),I2(70%-80%FC),andI1(90%-100%FC)as control.Application of ABAspraying included three concentrations,A3(30μmol·L^(-1)ABA),A2(15μmol·L^(-1)ABA),and A1 as control(distilled water).Results revealed that drought significantly affected all studied traits except for relative water content(RWC)and shoot dry mass.The ABA impact application on the observed traits was found to be dependent upon the level of drought to which the plants were exposed.Specifically,the highest levels of flavonoid content,total antioxidant activity,peroxidase(POX)activity,and EO percentage were observed under I4A2 conditions.Conversely,the highest levels of superoxide dismutase(SOD)and catalase(CAT)activity,and proline were recorded under I4A3 conditions,while the highest EO yield was obtained under I3A2 conditions.Analysis of the EO revealed that there were common indicative compounds across the varying levels of droughtandABAapplication,including linalool,camphor,borneol,bornyl formate,andcaryophyllene oxide.Theproduction pattern ofmonoterpene and sesquiterpene compounds demonstrated a distinct trend,with the highest concentration of monoterpene hydrocarbon compounds(average of 12.92%)being observed in the I2A3 treatment group,andthe highest concentration of oxygenatedmonoterpenecompounds(average of 64.76%)being recorded in the I1A1 group.Conversely,the most significant levels of sesquiterpene hydrocarboncompounds(14.98%)andoxygenated sesquiterpene compounds(10.46%)were observed in the I4A3 and I4A1 groups,respectively,showing the efficacy of monoterpenes and sesquiterpenes from the action of ABA under drought conditions.The observed results indicated that the concentration of oxygenated monoterpene compounds decreases with an increase in drought level.Conversely,the application of ABA at any given drought level appears to resulted in increased concentrations of oxygenated monoterpene compounds in the same conditions.It may be concluded that plants under high-stress drought conditions allocate more terpene precursors to the production of sesquiterpene hydrocarbon compounds,aided by ABA with the same properties.展开更多
Beer is a prominent fermented food product and is regarded as the one of most widely consumed beverage globally.There is a dearth of studies examining the impact of different types of beer with intricate components as...Beer is a prominent fermented food product and is regarded as the one of most widely consumed beverage globally.There is a dearth of studies examining the impact of different types of beer with intricate components as a comprehensive intervention on human health and immune status.This study used a 14-day continuous drinking intervention consisting of 5 beers,namely white beer,India pale ale(IPA),Pilsner,non-alcoholic beer,and premium lager beer.Surprisingly,our findings indicate that consuming white beer has little impact on the gut microbiota and physiological condition of mice,whereas consuming other types of beer leads to an increase in Lactobacillus and a decrease in Lachnospiraceae.In addition,we devised an extended feeding experiment to investigate the comparative safety and health benefits of consuming white beer.The research showed that when mice drank excessive quantities of white beer over 42 days,the intestines of the mice had more Prevotellaceae and the Firmicutes to Bacteroidetes ratio(F/B ratio)had a decline from 1.29 to 0.38.The levels of acetic acid,propionic acid,and isobutyric acid increased from 1.0,0.27,and 0.015 mg/g to 1.28,0.38,and 0.037 mg/g,respectively(P<0.05).There were no significant changes observed in the levels of most measured cytokines in the colon tissue of mice that consumed beer,however,there was an increase in the concentration of the inflammatory factor tumor nesrosis factor-α(TNF-α)from 135.86 pg/mL in the control group to 189.78 pg/mL in the white beer group(P<0.01).These results give us real-world proof that we can use to study how different beers affect the host’s health and satisfaction in future research.展开更多
Background Fatty liver syndrome is a prevalent metabolic disorder in transition dairy cows,characterized by excessive hepatic lipid accumulation that impairs liver function and leads to systemic metabolic disturbances...Background Fatty liver syndrome is a prevalent metabolic disorder in transition dairy cows,characterized by excessive hepatic lipid accumulation that impairs liver function and leads to systemic metabolic disturbances.Docosahexaenoic acid(DHA),a prominent n-3 polyunsaturated fatty acid(PUFA),not only exhibits anti-inflammatory and anti-oxidative properties,but also holds potential in ameliorating lipid metabolism.This study integrated in vitro bovine primary hepatocyte models and in vivo dairy cow trials to investigate the regulatory effects of DHA on hepatic lipid deposition.Results In vitro,40μmol/L DHA significantly reduced triglyceride(TAG)accumulation in steatotic hepatocytes by downregulating genes involved in fatty acid transport(FABP-1,CD36)and lipogenesis(DGAT2,FAS,SREBP-1C),while upregulating markers of lipolysis(CGI-58,ATGL)and fatty acid oxidation(ACADL,CPT1A,CPT2).Transmission electron microscopy(TEM)confirmed DHA-mediated restoration of mitochondrial ultrastructure and enhanced lipid droplet(LD)-mitochondria interactions.In vivo,dietary rumen-protected DHA(180 g/d)supplementation reduced hepatic lipid deposition,improved liver function(evidenced by decreased total bilirubin and alanine aminotransferase),reduced oxidative stress and inflammation(suppressed malondialdehyde,glutathione peroxidase,and lipopolysaccharide),coincided with relieving insulin resistance(reduced insulin and glucose,as well increased adiponectin)in dairy cows with fatty liver.These improvements may be attributed to increased expression of TOMM20 and MtCo-1,promoting mitochondrial biogenesis andβ-oxidation,along with an elevated plasma n-3/n-6 ratio.Conclusions Collectively,these findings suggest that DHA supplementation represents a promising nutritional strategy for preventing spontaneous fatty liver in transition dairy cows by enhancing hepatic lipid clearance and restoring metabolic homeostasis.展开更多
基金Project (02JZY3029) supported by the Department of Science and Technology of Hunan Province Pro-ject (2002-772) supported by the Development Planning Commission of Hunan Province
文摘A high performance liquid chromatography (HPLC) method was established for simultaneous determina-tion of geniposidic acid, chlorogenic acid and geniposide in eucommia. Detection at 240 nm with a reversed-phasecolumn, CH3OH volume fraction, acidic additive and pH value of mobile phase were studied for their effects on theseparability of the compounds. The most suitable separation was obtained with isocratic gradient elution systemusing CH3OH-H2O-H3 PO4 (12.00: 87.96: 0.04, volume ratio) at a flow-rate of 1.0 mL/min. Under the experi-mental conditions, the capacity factors of three compounds are in 3-13. The sample is separated rightly. Theanalysis time is 30 min and the retention time of genfposidic acid, chlorogenic acid and geniposide are 6. 7 min,10.5 min and 21 min, respectively.
文摘In this study, we assess the effectiveness of utilizing a straight knee kick in the backstroke with regard to the overall time, max speed, and distance per stroke when using a straight knee butterfly technique. We analyzed freestyle kick of knee angles from 7-Olympic medalists, 1970's S-shaped pulling pattern stroke was used with a bending knee freestyle kick. The straight knee kick used in butterfly competitions resulted in improvements from 54.74 to 51.00 in Men's 100-meter butterfly and fi'om 23.43 to 23.02 in Men's 50-meter butterfly. Using a straight knee kick in backstroke competitions resulted in improvements from 1:01.74 to 1:00.55 in the 100-meter backstroke event. Increases in performance speed, max speed and distance per stroke among three elite level swimmers are highly correlated to duration of the kick resistance, and straight knee kick in backstroke. The straight knee kick also resulted in an increase in lactate acid.
基金supported by the National Key R&D Program of China,No.2021YFC2501200(to PC).
文摘Short-chain fatty acids,metabolites produced by the fermentation of dietary fiber by gut microbiota,have garnered significant attention due to their correlation with neurodegenerative diseases,particularly Parkinson’s disease.In this review,we summarize the changes in short-chain fatty acid levels and the abundance of short-chain fatty acid-producing bacteria in various samples from patients with Parkinson’s disease,highlighting the critical role of gut homeostasis imbalance in the pathogenesis and progression of the disease.Focusing on the nervous system,we discuss the molecular mechanisms by which short-chain fatty acids influence the homeostasis of both the enteric nervous system and the central nervous system.We identify key processes,including the activation of G protein-coupled receptors and the inhibition of histone deacetylases by short-chain fatty acids.Importantly,structural or functional disruptions in the enteric nervous system mediated by these fatty acids may lead to abnormalα-synuclein expression and gastrointestinal dysmotility,which could serve as an initiating event in Parkinson’s disease.Furthermore,we propose that short-chain fatty acids help establish communication between the enteric nervous system and the central nervous system via the vagal nerve,immune circulation,and endocrine signaling.This communication may shed light on their potential role in the transmission ofα-synuclein from the gut to the brain.Finally,we elucidate novel treatment strategies for Parkinson’s disease that target short-chain fatty acids and examine the challenges associated with translating short-chain fatty acid-based therapies into clinical practice.In conclusion,this review emphasizes the pivotal role of short-chain fatty acids in regulating gut-brain axis integrity and their significance in the pathogenesis of Parkinson’s disease from the perspective of the nervous system.Moreover,it highlights the potential value of short-chain fatty acids in early intervention for Parkinson’s disease.Future research into the molecular mechanisms of short-chain fatty acids and their synergistic interactions with other gut metabolites is likely to advance the clinical translation of innovative short-chain fatty acid-based therapies for Parkinson’s disease.
文摘Three copper(Ⅱ),nickel and cadmium(Ⅱ)complexes,namely[Cu_(2)(μ-H2dbda)2(phen)2]·2H_(2)O(1),[Ni(μ-H2dbda)(μ-bpb)(H_(2)O)2]n(2),and[Cd(μ-H2dbda)(μ-bpa)]n(3),have been constructed hydrothermally using H4dbda(4,4'-dihydroxy-[1,1'-biphenyl]-3,3'-dicarboxylic acid),phen(1,10-phenanthroline),bpb(1,4-bis(pyrid-4-yl)benzene),bpa(bis(4-pyridyl)amine),and copper,nickel and cadmium chlorides at 160℃.The products were isolated as stable crystalline solids and were characterized by IR spectra,elemental analyses,thermogravimetric analyses,and singlecrystal X-ray diffraction analyses.Single-crystal X-ray diffraction analyses revealed that three complexes crystallize in the monoclinic P21/n,tetragonal I42d,and orthorhombic P21212 space groups.The complexes exhibit molecular dimers(1)or 2D metal-organic networks(2 and 3).The catalytic performances in the Knoevenagel reaction of these complexes were investigated.Complex 1 exhibits an effective catalytic activity and excellent reusability as a heterogeneous catalyst in the Knoevenagel reaction at room temperature.CCDC:2463800,1;2463801,2;2463802,3.
基金Supported by National Key Research&Development Program of China (2022YFB4201800)Key Program of National Natural Science Foundation of China (52130610)。
文摘Lignin-derived oxygenated aromatics,particularly phenols and aromatic ethers obtained through depolymerization,represent promising feedstocks for synthesizing high-density and high-heat-sink aviation fuels via alkylation-hydrogenation processes.This study systematically evaluates the catalytic performance of various zeolites(Hβ,HZSM-5,MCM-41 and HUSY)in the alkylation reaction of phenol with cyclohexanol.Characterization results demonstrate that HUSY zeolite showed superior catalytic activity compared to other zeolites,attributable to its favorable pore architecture and well-balanced acid site distribution that synergistically facilitate molecular diffusion and catalytic transformations.To further enhance the catalytic properties,HUSY zeolite was modified with citric acid at various concentrations and compared with those treated with NaOH and oxalic acid.The results revealed that citric acid treatment preserved the crystallinity of the zeolite while modulating its acid distribution and pore structure.All modified zeolites enhanced phenol alkylation activity.Notably,the HUSY-0.5M catalyst,which exhibited the highest medium-strong acid to total acid ratio,achieved superior catalytic performance,80.4%conversion of phenol and 99.6%selectivity for alkylation products.The catalyst also exhibited high activity in the alkylation of various lignin-derived compounds,demonstrating its broad applicability.This work provides a new strategy for the valorization of lignin-derived phenols into high-value fuel precursors through alkylation.
基金supported by National Key R&D Program of China(2021YFD2100700).
文摘Both linoleic acid(18:2 n-6,LA)andα-linolenic acid(18:3 n-3,ALA)are essential fatty acids for infants.The contents of LA and ALA,and their ratio exhibited significant changes in human milk over the past 4 decades,which were not well summarized.Here,we summarized these values in 9898 human breast milk samples of 6664 mothers from 50 countries in 81 studies.A literature search was conducted using PubMed,Embase,and Web of Science between January 1980 and October 2023.The 95%confidence interval of LA/ALA ratio across lactation and gestation ranged from 14.24 to 31.26.The LA content was higher in China and Turkey(>20%)whereas the ALA content was below 1%in Africa.The LA/ALA ratio in countries along the Mediterranean coast exceeded 20 or even 30.LA and ALA contents increased significantly(P<0.01)while the ratio remained stable over the last 40 years.Multivariate meta-regression results showed that regions significantly(P<0.01)determined the LA,ALA,and LA/ALA ratio.Especially,maternal diet could definitely explain the variation while the effects of gestational age,lactation period was not significant.Clinical trials demonstrated that decreasing the LA/ALA ratio increased docosahexaenoic acid(22:6 n-3,DHA)status,reduced arachidonic acid(20:4 n-6,AA)contents,exerted no effect on the visual function of infants,and reached no consensus on growth.The current review aims to provide an overview on the LA and ALA contents and their ratio in human breast milk to raise concern in infant formula.
基金supported by the Hellenic Foundation for Research and Innovation,HFRI,“2nd Call for HFRI Research Projects to support Faculty Members&Researchers”Project 02667 to GL.
文摘Lysophosphatidic acid(LPA)is a pleiotropic lipid agonist essential for functions of the central nervous system(CNS).It is abundant in the developing and adult brain while its concentration in biological fluids,including cerebrospinal fluid,varies significantly(Figure 1Α;Yung et al.,2014).LPA actually corresponds to a variety of lipid species that include different stereoisomers with either saturated or unsaturated fatty acids bearing likely differentiated biological activities(Figure 1Α;Yung et al.,2014;Hernández-Araiza et al.,2018).
基金supported by the National Science Fund for Excellent Young Scholars(grant number 32422082)the Natural Science Basic Research Plan in Shaanxi Province(grant number 2025JC-QYXQ-009)。
文摘Background Ruminants and monogastric animals exhibit significant differences in gluconeogenic efficiency.In dairy cows,hepatic gluconeogenesis serves as the primary source of glucose.Metabolites modulate gluconeogenesis efficiency through allosteric regulation,redox state,and signal transduction pathways.However,the liver-enriched metabolites that regulate hepatic gluconeogenesis in dairy cows and their specific regulatory mechanisms remain incompletely characterized.Results Six Holstein dairy cows and six Duroc×(Landrace×Yorkshire)(DLY)crossbred pigs served as research subjects.Employing non-targeted and targeted metabolomics,we discovered that three bile acids—taurodeoxycholic acid(TDCA),taurocholic acid(TCA),and glycocholic acid(GCA)—were highly enriched in Holstein dairy cows'livers.In bovine hepatocytes,individual or combined stimulation of these bile acids significantly upregulated the expression of gluconeogenesis genes(FBP1,PCK1 and G6PC)and enhanced glucose production.In fasting mice with induced gluconeogenesis,TDCA,TCA,and GCA increased fasting blood glucose levels,and pyruvate tolerance tests further revealed their capacity to enhance hepatic gluconeogenesis,enabling more efficient glucose synthesis from pyruvate.Mechanistically,these bile acids activated Takeda G protein-coupled receptor 5(TGR5),elevated intracellular cAMP levels,and ultimately enhanced gluconeogenesis via the transcription factor cAMP-response element binding protein(CREB).Notably,a TGR5 inhibitor abrogated the stimulatory effects of TDCA,TCA,and GCA on hepatic gluconeogenesis in fasting mice.Conclusion TDCA,TCA,and GCA are key metabolites promoting hepatic gluconeogenesis in dairy cows,with TGR5 as the pivotal receptor and the cAMP/PKA/CREB pathway as the critical downstream mechanism.
基金supported by National Key R&D Program of China(2021YFD2100300)Pilot Research Project of Wuxi Industrial Innovation Research Institute(XD24019).
文摘In previous research,we demonstrated that long-term consumption of thermally oxidized oil leads to neuroinflammation and anxiety in mice.Therefore,in this study,we employed polar lipid components from thermo-induced oxidized oil to induce neurodamage.Behavioral assessments revealed that both the linoleic acid and AUDA(a classical inhibitor of soluble epoxide hydrolase)groups exhibited significantly reduced anxiety-like behaviors compared to the model group(P<0.05).Immunofluorescence analysis indicated that microglial activation in the hippocampus was attenuated in both the linoleic acid and AUDA groups relative to the model group,accompanied by a reduction in the m RNA expression of pro-inflammatory cytokines(IL-1β,IL-6,NOS2,TNF-α)and an upregulation of neuroprotective factors(IL-4,IL-10,BDNF).Lipidomic profiling of hippocampal tissue revealed that the lipid composition of the linoleic acid group closely resembled that of the AUDA group,with a significant downregulation of cardiolipin(CL)compared to the control group,consistent with alterations in the membrane potential channel receptor TRPC1.Both linoleic acid and AUDA inhibited the m RNA expression of EPHX2,leading to an increase in epoxyeicosatrienoic acids(EETs)levels.Furthermore,linoleic acid upregulated the expression of cytochrome P450 enzymes(CYP2J6)and lipoxygenase(LOX2S),which further upregulated the synthesis of EETs,and increased the content of 9-HODE and 13-HODE.These findings collectively suggest that linoleic acid alleviates neuroinflammation by modulating microglial differentiation and attenuates neurodegeneration induced by thermally oxidized oil through the regulation of arachidonic acid metabolism and the linoleic acid metabolic pathway,leading to the production of neuroprotective lipid mediators.Therefore,linoleic acid may serve as a potential neuro-nutrient for the treatment of anxiety disorders.This provided a scientific basis for the development of specialized medical foods aimed at protecting neural health.
基金supported by the Beijing Natural Science Foundation:7222220National Natural Science Foundation of China (82001039)+2 种基金Research Foundation of Peking University School and Hospital of Stomatology:PKUSS20230117The Fundamental Research Funds for the Central UniversitiesYoung Elite Scientist Sponsorship Program by CAST (No.2019QNRC001 to Y.L.L)。
文摘Understanding the acid resistance mechanism of S.mutans is crucial for preventing dental caries.FtsZ is the core protein for cell division in bacteria that can polymerize into Z-rings and drive cytokinesis.Our previous study revealed that the FtsZ in S.mutans(SmFtsZ) has higher self-assembly and GTPase activity under acidic stress,which may be responsible for acid resistance and ca riogenesis of S.mutans.However,the functional structure mechanism of SmFtsZ under low pH conditions is still unclear.Here,we further reported the crystal structure of S.mutans FtsZ,revealing a unique lateral interface.Through protein polymerization and GTPase activity assay,we experimentally demonstrated that the mutation of Arg68 on this lateral interface significantly reduced the functional activity of FtsZ in an acidic environment.The phenotype assay and rat caries model further showed that the mutation of Arg68 effectively inhibited the acid resistance of S.mutans and the occurrence and progress of dental caries in vivo.By employing a molecular dynamics simulation analysis,we conclude that the mutation of Arg68 disrupts the conformation change necessary for SmFtsZ polymerization under acidic conditions.Our study proposes a novel mechanism to maintain FtsZ function in bacteria and could be a potential target for antimicrobial drugs to inhibit the growth of S.mutans in acidic environments.
基金supported by the International Partnership Program of Chinese Academy of Sciences[027GJHZ2022033GC]the National Natural Science Foundation of China[22278415 and 52225309]。
文摘Phosphorus plays an indispensable role in the food chain,yet phosphorus mineral resources are finite,underscoring the urgency for developing a closed-loop phosphorus economy.Although there have been advances in phosphorus recovery from various waste materials,modern agriculture still depends on adequate phosphorus supply to support plant growth.In this study,we explored the amorphization of Ox bone using phytic acid(OxPA),and investigated how varying treatment durations influence the resulting structure.Inductively Coupled Plasma(ICP)analysis was employed to quantify phosphate solubilization.Additionally,pot experiments were conducted to assess the phosphate efficiency of Ox-PA in comparison to untreated Ox bone and control group.The results showed that Ox-PA exhibited significantly higher phosphate solubilization(2973 ppm)than untreated counterpart(13 ppm).When used as a fertilizer,Ox-PA markedly enhanced both aboveground and belowground biomass and root development in maize plants.Moreover,it facilitated increased phosphorus uptake by the plants during their early growth stages.These findings indicate that Ox-PA not only holds significant potential for promoting agronomic sustainability but also contributes meaningfully to the establishment of a circular phosphorus economy.
基金financially supported by the National Natural Science Foundation of China(Nos.82272472 and 52373146)。
文摘Early knee osteoarthritis(KOA)is characterized by progressive degeneration of the articular cartilage,synovial inflammation,and excessive accumulation of reactive oxygen species(ROS).At present,intra-articular injection of hyaluronic acid(HA)is widely used to alleviate symptoms;however,its lubrication persistence,antioxidant,and anti-inflammatory abilities are limited,and it is difficult to effectively delay the early process of cartilage degeneration.Based on this,hyaluronic acid-g-lipoic acid(HA-LA)was synthesized by esterification reaction,and HA-LA microspheres were prepared by a reversed-phase emulsion method,which was combined with a macromolecular HA-LA solution to form injectable hydrogels.The objective of this study was to evaluate the efficacy of an injectable hydrogel based on hyaluronic acid-g-lipoic acid microspheres(HA-LA MS)for the treatment of KOA and to verify its injectability,lubricity,reactive oxygen species(ROS)scavenging ability,and anti-inflammatory effects.The results show that the HA-LA MS hydrogel has excellent shear thinning characteristics and continuous injectability,and its microsphere structure significantly reduces the interfacial friction coefficient through the rolling effect.In vitro experiments have shown that the hydrogel can efficiently scavenge ROS,reduce the expression of inflammatory factors,and is non-cytotoxic.The HA-LA MS injectable hydrogel has excellent lubricity,ROS scavenging ability,and anti-inflammatory effects in vivo,which can effectively delay the degeneration of early KOA cartilage,and its efficacy is significantly better than that of traditional hyaluronic acid,making it a promising intra-articular injection preparation.
基金supported by the Wencheng County Science and Technology Plan Project(2023NKY03)Earmarked Fund for Modern Agro-industry Technology Research System(Grant Number CARS-24-B04,CARS-23-B05)Additional support was provided by Key Laboratory of Biology and Genetic Improvement of Horticultural Crops(Vegetables),Ministry of Agriculture and Rural Affairs,China.
文摘To address the issue of residual pollution caused by polyethylene mulch,this study explored the effects of different mulching methods on the soil environment of the yam field,as well as on yam yield and quality.The experiment comprised six treatments in total:one non-mulched treatment served as the control(CK),along with five different film-mulched treatments,namely PE,FZS12,FZS15,FC12,and FC15.The degradation of these films and their effects on soil physicochemical properties,microbial community,yam yield and quality were compared.The results showed that the FZS12 treatment achieved grade 5 degradation by the end of the planting period.Compared with PE treatment,the total soluble sugar content and yield of yam treated with FZS12 were significantly increased by 35.78%and 74.97%,respectively(p<0.05).Compared with CK and PE treatments,FZS12 significantly increased soil available nitrogen by 31.62%and 6.20%,respectively(p<0.05),and significantly increased soil available phosphorus by 8.58%and 4.45%,respectively(p<0.05).Soil pH,available nitrogen,and available phosphorus were the main environmental factors affecting the soil bacterial community.The FZS12 treatment significantly increased the relative abundances of soil bacteria phylum including Acidobacteriota,Myxococcota,Patescibacteria,and Proteobacteria compared with the CK and PE treatments.Functional prediction using Picrust2 revealed that the FZS12 treatment had significantly higher levels of signal transduction and amino acid metabolism than the CK and PE treatments.In conclusion,covering with 12μm PBAT/PLA humic acid biodegradable film enhances yam yield and total soluble sugar content by shaping beneficial soil microbial communities,activating soil nutrients.
基金supported by National Key Research and Development Program of China(2023YFD1800902).
文摘Elaidic acid(EA)is a typical trans fatty acid(TFA)that emerges during the processing of various fatty foods.In this study,we found that EA induced renal injury with necroptosis.Pretreatment with a reactive oxygen species(ROS)inhibitor and a RIPK3 inhibitor alleviated EA-induced necroptosis.The data indicated that EA induced renal necroptosis through ROS/RIPK3/MLKL pathway.In mechanistic studies,we explored how EA induced ROS production.Results indicated that EA caused mitochondrial damage by testing MMP,MFN1,VDAC,and FIS1.Further,EA suppressed mitophagy by testing the levels of LC3,p62,PINK1,Parkin,colocalization of LC3 and Mito-Tracker Red.Mitophagy is a process of selective degradation of damaged mitochondria.A large number of damaged mitochondria couldn't be cleared by mitophagy in time,which increased ROS levels in renal cells.Pretreatment with a mitophagy activator decreased EA-induced ROS levels and mitochondrial damage.Taken together,our data identified that EA induced renal necroptosis by destroying mitochondria and inhibiting mitophagy,thereby activating the ROS/RIPK3/MLKL pathway.
基金the Department of Biology at Syracuse University(to CHL)a start-up grant from the Department of Biomedical and Chemical Engineering at Syacuse University(to JZ)an NIH grant(R01DK141923)sub-contract to Co-Investigators JZ and CHL from the Principal Investigator Mark W.Grinstaff。
文摘Neurodegenerative disorde rs such as Alzheimer's and Parkinson s diseases are increasingly associated with metabolic dysfunction,including obesity,type 2 diabetes,and metabolic dysfunction-associated steatotic liver disease.Central to this connection is the dysregulation of lipid metabolism,which extends beyond peripheral tissues to the brain,defective autolysosomal function,oxidative stress,inflammation,and insulin resistance.Lipids,which constitute over half of dry weight of the brain,play critical roles in ene rgy provisio n,structural integrity,and synaptic function.Dys regulation of lipid metabolism contributes to neuroinflammation,impaired neuronal function,and disrupted blood-brain barrier integrity.Palmitic acid,a saturated fatty acid abundant in high-fat diets,serves as a key model for studying lipid-induced toxicity(lipotoxicity)in the brain.Palmitic acid disrupts autophagy and lysosomal function,mitochondrial function,trigge ring oxidative stress,contributing to neuroinflammation and neurodegeneration.These effects are particularly pronounced in neurons,which are highly susceptible to lipid-induced toxicity due to their high metabolic demands.Glial cells,including astrocytes,microglia,and oligodendrocytes,also exhibit distinct vulnerabilities and adaptive responses to lipid metabolism dysregulation,further contributing to neuroinflammation and demyelination.Therapeutic strategies,such as supplementation with polyunsaturated fatty acids,AMP-activated protein kinase activation,and lysosome-ta rgeted interventions,show promise in mitigating palmitic acid-induced lipotoxicity and restoring cellular homeostasis.This review comprehensively examines palmitic acid-induced lipotoxicity and its impact on autolysosomal dysfunction across various central nervous system cell types,including neurons,astrocytes,microglia,and oligodendrocytes.Additionally,it highlights therapeutic approaches to restore autolysosomal function under lipotoxic conditions.Advances in multi-omics technologies and a deeper unde rstanding of intercellular crosstalk offer new avenues for develo ping targeted the rapies to resto re autolysosomal function,and attenuate neuroinflammation and neurodegeneration.
基金the financial support from the National Natural Science Foundation of China(52172110,52472231,52311530113)Shanghai"Science and Technology Innovation Action Plan"intergovernmental international science and technology cooperation project(23520710600)+1 种基金Science and Technology Commission of Shanghai Municipality(22DZ1205600)the Central Guidance on Science and Technology Development Fund of Zhejiang Province(2024ZY01011)。
文摘Investigating structural and hydroxyl group effects in electrooxidation of alcohols to value-added products by solid-acid electrocatalysts is essential for upgrading biomass alcohols.Herein,we report efficient electrocatalytic oxidations of saturated alcohols(C_(1)-C_(6))to selectively form formate using Ni Co hydroxide(Ni Co-OH)derived Ni Co_(2)O_(4)solid-acid electrocatalysts with balanced Lewis acid(LASs)and Brønsted acid sites(BASs).Thermal treatment transforms BASs-rich(89.6%)Ni Co-OH into Ni Co_(2)O_(4)with nearly equal distribution of LASs(53.1%)and BASs(46.9%)which synergistically promote adsorption and activation of OH-and alcohol molecules for enhanced oxidation activity.In contrast,BASs-enriched Ni Co-OH facilitates formation of higher valence metal sites,beneficial for water oxidation.The combined experimental studies and theoretical calculation imply the oxidation ability of C1-C6alcohols increases as increased number of hydroxyl groups and decreased HOMO-LUMO gaps:methanol(C_(1))<ethylene glycol(C_(2))<glycerol(C3)<meso-erythritol(C4)<xylitol(C5)<sorbitol(C6),while the formate selectivity shows the opposite trend from 100 to 80%.This study unveils synergistic roles of LASs and BASs,as well as hydroxyl group effect in electro-upgrading of alcohols using solid-acid electrocatalysts.
基金supported by the Science and Technology Major Program of Bingtuan,China (2023AA008)the National Natural Science Foundation of China (31960369)+1 种基金the Bingtuan Science and Technology Program,China (2025DA001)the Henan Provincial Science and Technology Research Project,China (222102110200)。
文摘Recent studies have shown that lipid metabolism is a key factor affecting anther development and male fertility.However,how plants regulating the metabolic balance of multiple lipids to ensure proper anther development and male fertility remains unclear.Analyzing lipid molecules related to anther fertility and genes responsible for their biosynthesis is crucial for understanding the physiological significance of lipid metabolism in crop fertility.In this study,we compared the transcriptome and the composition and content of lipids in anthers of two upland cotton(Gossypium hirsutum) materials,Shida 98(WT) and its nearly-isogenic male sterile line Shida 98A(MS).Transcriptomics analysis identified many differentially expressed genes(DEGs) between the two materials,with the genes of the alpha-linolenic acid metabolism pathway being the most significantly associated with the male sterility phenotype.Investigations on lipids revealed that the MS anthers over-accumulated free fatty acids(FFAs),phosphatidic acid(PA),mono-and di-galactosyldiacylglycerol(MGDG and DGDG),and had a decreased content of triacylglycerol(TAG),which was closely related to the abnormal metabolism of alpha-linolenic acid(C18:3);therefore,the major lipids containing C18:3-acyl chains,such as PA,MGDG,DGDG,and TAG,are proposed to play a major role in cotton anther development.We also showed that an excessive level of MGDG and DGDG caused jasmonic acid(JA) overaccumulation in MS anthers,which in turn inhibited the expression of GhFAD3 and consequently reduced the C18:3 content,presumably via a feedback regulation mechanism,ultimately affecting plant fertility.Together,our results revealed the importance of a balanced lipid metabolism in regulating the development of cotton anther and pollen and consequently male fertility.
基金We appreciate the financial support of this work by Gorgan University of Agricultural Sciences and Natural Resources from Golestan Province(Grant No.9413184180).
文摘Drought,as the most catastrophic abiotic stress,poses a significant threat to the growth and development of plants.Among the mechanisms employed by plants to cope with drought-induced stress,abscisic acid(ABA)which is the sesquiterpene hormone,occupies a pivotal role.A hypothesis has emerged that the exogenous application of ABA can positively influence the terpenoid content of Lavandula angustifolia cv Hidcote essential oil(EO),thereby conferring enhanced resilience to drought stress.A randomized complete block design experiment was conducted with three replicationsandfour irrigation regimes,including I4[30%-40%of field capacity(FC)],I3(50%-60%FC),I2(70%-80%FC),andI1(90%-100%FC)as control.Application of ABAspraying included three concentrations,A3(30μmol·L^(-1)ABA),A2(15μmol·L^(-1)ABA),and A1 as control(distilled water).Results revealed that drought significantly affected all studied traits except for relative water content(RWC)and shoot dry mass.The ABA impact application on the observed traits was found to be dependent upon the level of drought to which the plants were exposed.Specifically,the highest levels of flavonoid content,total antioxidant activity,peroxidase(POX)activity,and EO percentage were observed under I4A2 conditions.Conversely,the highest levels of superoxide dismutase(SOD)and catalase(CAT)activity,and proline were recorded under I4A3 conditions,while the highest EO yield was obtained under I3A2 conditions.Analysis of the EO revealed that there were common indicative compounds across the varying levels of droughtandABAapplication,including linalool,camphor,borneol,bornyl formate,andcaryophyllene oxide.Theproduction pattern ofmonoterpene and sesquiterpene compounds demonstrated a distinct trend,with the highest concentration of monoterpene hydrocarbon compounds(average of 12.92%)being observed in the I2A3 treatment group,andthe highest concentration of oxygenatedmonoterpenecompounds(average of 64.76%)being recorded in the I1A1 group.Conversely,the most significant levels of sesquiterpene hydrocarboncompounds(14.98%)andoxygenated sesquiterpene compounds(10.46%)were observed in the I4A3 and I4A1 groups,respectively,showing the efficacy of monoterpenes and sesquiterpenes from the action of ABA under drought conditions.The observed results indicated that the concentration of oxygenated monoterpene compounds decreases with an increase in drought level.Conversely,the application of ABA at any given drought level appears to resulted in increased concentrations of oxygenated monoterpene compounds in the same conditions.It may be concluded that plants under high-stress drought conditions allocate more terpene precursors to the production of sesquiterpene hydrocarbon compounds,aided by ABA with the same properties.
基金financially supported by the National Key R&D Program of China(2022YFA1304103)Agricultural Scientific and Technological Innovation Project of Shandong Academy of Agricultural Sciences(CXGC2024A04)SKLMT Frontiers&Challenges Project.
文摘Beer is a prominent fermented food product and is regarded as the one of most widely consumed beverage globally.There is a dearth of studies examining the impact of different types of beer with intricate components as a comprehensive intervention on human health and immune status.This study used a 14-day continuous drinking intervention consisting of 5 beers,namely white beer,India pale ale(IPA),Pilsner,non-alcoholic beer,and premium lager beer.Surprisingly,our findings indicate that consuming white beer has little impact on the gut microbiota and physiological condition of mice,whereas consuming other types of beer leads to an increase in Lactobacillus and a decrease in Lachnospiraceae.In addition,we devised an extended feeding experiment to investigate the comparative safety and health benefits of consuming white beer.The research showed that when mice drank excessive quantities of white beer over 42 days,the intestines of the mice had more Prevotellaceae and the Firmicutes to Bacteroidetes ratio(F/B ratio)had a decline from 1.29 to 0.38.The levels of acetic acid,propionic acid,and isobutyric acid increased from 1.0,0.27,and 0.015 mg/g to 1.28,0.38,and 0.037 mg/g,respectively(P<0.05).There were no significant changes observed in the levels of most measured cytokines in the colon tissue of mice that consumed beer,however,there was an increase in the concentration of the inflammatory factor tumor nesrosis factor-α(TNF-α)from 135.86 pg/mL in the control group to 189.78 pg/mL in the white beer group(P<0.01).These results give us real-world proof that we can use to study how different beers affect the host’s health and satisfaction in future research.
基金supported by the National Key R&D Program of China(No.2022YFD1301001)。
文摘Background Fatty liver syndrome is a prevalent metabolic disorder in transition dairy cows,characterized by excessive hepatic lipid accumulation that impairs liver function and leads to systemic metabolic disturbances.Docosahexaenoic acid(DHA),a prominent n-3 polyunsaturated fatty acid(PUFA),not only exhibits anti-inflammatory and anti-oxidative properties,but also holds potential in ameliorating lipid metabolism.This study integrated in vitro bovine primary hepatocyte models and in vivo dairy cow trials to investigate the regulatory effects of DHA on hepatic lipid deposition.Results In vitro,40μmol/L DHA significantly reduced triglyceride(TAG)accumulation in steatotic hepatocytes by downregulating genes involved in fatty acid transport(FABP-1,CD36)and lipogenesis(DGAT2,FAS,SREBP-1C),while upregulating markers of lipolysis(CGI-58,ATGL)and fatty acid oxidation(ACADL,CPT1A,CPT2).Transmission electron microscopy(TEM)confirmed DHA-mediated restoration of mitochondrial ultrastructure and enhanced lipid droplet(LD)-mitochondria interactions.In vivo,dietary rumen-protected DHA(180 g/d)supplementation reduced hepatic lipid deposition,improved liver function(evidenced by decreased total bilirubin and alanine aminotransferase),reduced oxidative stress and inflammation(suppressed malondialdehyde,glutathione peroxidase,and lipopolysaccharide),coincided with relieving insulin resistance(reduced insulin and glucose,as well increased adiponectin)in dairy cows with fatty liver.These improvements may be attributed to increased expression of TOMM20 and MtCo-1,promoting mitochondrial biogenesis andβ-oxidation,along with an elevated plasma n-3/n-6 ratio.Conclusions Collectively,these findings suggest that DHA supplementation represents a promising nutritional strategy for preventing spontaneous fatty liver in transition dairy cows by enhancing hepatic lipid clearance and restoring metabolic homeostasis.
