Aging is a physiological process that leads to degeneration and functional decline of the brain.This is accompanied by intracellular peroxidation and neuronal apoptosis.Natural antioxidants possess a remarkable effect...Aging is a physiological process that leads to degeneration and functional decline of the brain.This is accompanied by intracellular peroxidation and neuronal apoptosis.Natural antioxidants possess a remarkable effect on attenuating the oxidative stress cascade and apoptosis of neurons;however,the challenge of using natural antioxidants for neuroprotection is fabricating a delivery system to overcome the blood-brain barrier(BBB)transport.Herein,we successfully created a stable delivery platform built on rigid ferritin nanocage loading natural lycopene molecules,crossing the BBB in quantity and being taken up in neurons.This nanoparticle worked on D-galactose-induced senescence via alleviating neuronal hyperoxidation injury and weakening neuronal apoptosis in PC12 and BV2 cells.More importantly,this natural delivery system possesses inherent biocompatibility and potential application in improving the bioavailability of bioactive edible compounds with low water solubility.This study demonstrated the effectiveness of natural antioxidant nanomedicines in maintaining the defenses of intracerebral peroxidation and improve degenerating neurons,providing the potential to combat further imbalances of neuronal microenvironment in aging neuropathy.展开更多
Thrombin blockers have been shown to be effective for various pathological conditions,but their use is limited due to the potential for serious bleeding adverse effects.This study introduced a novel bioactive peptide(...Thrombin blockers have been shown to be effective for various pathological conditions,but their use is limited due to the potential for serious bleeding adverse effects.This study introduced a novel bioactive peptide(P-2-CG) from oyster,that mitigated thrombin-mediated barrier dysfunction and prothrombotic phenotypes in human pulmonary microvascular endothelial cells(HPMECs).P-2-CG significantly attenuated the increase in endothelial monolayer permeability induced by thrombin through the possible attenuation of RhoA activation and it promoted barrier recovery by enhancing endothelial cell adhesion.Additionally,P-2-CG was found to decrease the pro-thrombotic phenotype induced by thrombin in HPMEC by reducing the extrinsic trigger tissue factor mRNA expression,which resulted in prolonged plasma clotting time,decreased Factor Xa activation,and reduced thrombin generation.Moreover,P-2-CG inhibited thrombosis efficiently by blocking intercellular adhesion molecule 1 and vascular cell adhesion protein 1 expression via tyrosine phosphorylation of nuclear factor-κB p65.P-2-CG inhibits thrombin mediated inflammation and provides a potential therapeutic option for treating endothelial dysfunction and thrombosis.展开更多
Marine natural products have long been recognized as a vast and diverse source of bioactive compounds with potential therapeutic applications,particularly in oncology.This review provides an updated overview of the si...Marine natural products have long been recognized as a vast and diverse source of bioactive compounds with potential therapeutic applications,particularly in oncology.This review provides an updated overview of the significant advances made in the discovery and development of marine-derived anticancer drugs between 2019 and 2023.With a focus on recent research findings,the review explores the rich biodiversity of marine organisms,including sponges,corals,algae,and microorganisms,which have yielded numerous compounds exhibiting promising anticancer properties.Emphasizing the multifaceted mechanisms of action,the review discusses the molecular targets and pathways targeted by these compounds,such as cell cycle regulation,apoptosis induction,angiogenesis inhibition,and modulation of signaling pathways.Additionally,the review highlights the innovative strategies employed in the isolation,structural elucidation,and chemical modification of marine natural products to enhance their potency,selectivity,and pharmacological properties.Furthermore,it addresses the challenges and opportunities associated with the development of marine-derived anticancer drugs,including issues related to supply,sustainability,synthesis,and clinical translation.Finally,the review underscores the immense potential of marine natural products as a valuable reservoir of novel anticancer agents and advocates for continued exploration and exploitation of the marine environment to address the unmet medical needs in cancer therapy.展开更多
There is no study on food-derived peptide with both anticoagulant and angiotensin I-converting enzyme inhibitory (ACEI) activities yet. In this work, the anticoagulant and ACEI activities of the casein hydrolysates re...There is no study on food-derived peptide with both anticoagulant and angiotensin I-converting enzyme inhibitory (ACEI) activities yet. In this work, the anticoagulant and ACEI activities of the casein hydrolysates released by pepsin digestion were evaluated for the first time to the best of our knowledge. Results indicated that the casein hydrolysate exhibited potent anticoagulant activity by prolonging the thrombin time (TT) and the activated partial thromboplastin time (APTT). Compared with control samples, at 10 mg/mL, the TT and APTT of casein hydrolysate were 186.0 % ± 6.6 % and 163.5 % ± 7.4 %, respectively. The casein hydrolysate also showed a strong ACEI activity with an IC50 value of 1.775 mg/mL. The components of the bioactive casein hydrolysate were analyzed by nanoscale liquid chromatography quadrupole time-of-flight tandem mass spectrometry (NanoLC-Q-TOF-MS/MS). Total of 115 peptides were identified, among which 34, 9, 55 and 17 peptides were derived from α_(s1-), α_(s2-), β-, and κ-casein, respectively. The results of PeptideRanker and PepSite 2 analysis showed that 6 peptides (FRQFYQL, NENLLRF, NPWDQVKR, PVVVPPFLQ, PVRGPFPIIV, and ARHPHPHLSF) have both ACEI and anticoagulant activities by binding to the active sites of ACE and thrombin. This study indicated that casein is a potential functional food supplement that can be used for medical purposes.展开更多
Oysters(Crassostrea gigas)have a wide range of functionality due to their nutritional and bioactive components. However, the bioactive peptides of oyster proteins are rarely reported, particularly their antidiabetes e...Oysters(Crassostrea gigas)have a wide range of functionality due to their nutritional and bioactive components. However, the bioactive peptides of oyster proteins are rarely reported, particularly their antidiabetes effects and antioxidants. Oyster proteins were extracted from fresh oysters using phosphatebuffered saline and simulated gastrointestinal digestion was performed. The degree of hydrolysis(DH), structural characterization, molecular weight(Mw)distribution, free amino acid, anti-diabetic activity, and antioxidant activity were studied during in vitro simulated gastrointestinal digestion. The results showed that the α-glucosidase inhibitory activity, α-amylase inhibitory activity, DPPH radical scavenging activity, and ABTS radical scavenging activity of the oyster protein gastrointestinal digest were increased(P < 0.05)from 0 to 33.96%, from 9.17% to 44.22%, from 9.01 μg trolox/mg protein to 18.48 μg trolox/mg protein, and from 21.44 μg trolox/mg protein to 56.21 μg trolox/mg protein, respectively. Additionally, the DH, β-turn structure, fluorescence intensity, free amino acid, and short peptide content(Mw < 1 000 Da)increased in the simulated gastrointestinal digestion. These results indicate that the digestive hydrolysates obtained from oyster proteins could be used as natural anti-diabetic and antioxidant agents.展开更多
Owing to the formation of aggregation and gelation during storage,certain proteins and peptides exhibit limited applications in aqueous protein food products.The purpose of this study was to investigate the influence ...Owing to the formation of aggregation and gelation during storage,certain proteins and peptides exhibit limited applications in aqueous protein food products.The purpose of this study was to investigate the influence of homogenization and xanthan gum addition on the dispersion stability of Mytilus edulis hydrolysate(PHM).High-pressure homogenization(HPH)at 360 and 40 bar in the first and second values,respectively,and adding xanthan gum at a concentration of 1 mg/mL showed significantly improvement on the stability of the PHM solution.PHM-xanthan gum solutions(PHMX)showed the highest polypeptide precipitation rate and turbidity retention rate compared with those of PHM.Moreover,the centrifugal precipitation rate of PHMX without HPH was higher than that of homogeneous PHMX.After HPH treatment at 400 bar,the percentage of smaller particles in PHM and PHMX was increased,the aqueous system became more uniform,and the fluorescence intensity reached its maximum.HPH pretreatment improved the polypeptide dispersion stability and turbidity retention rate of PHM and PHMX and reduced the fluorescence intensity.The interactions of xanthan gum and polypeptide render the network microstructure more uniform under the conditions of homogenization,thus improving the dispersion stability of PHMX solutions.Therefore,under the premise of adding xanthan gum,HPH can better enhance the dispersion stability of the polypeptide in PHM.展开更多
There are many active substances in Atlantic cod(Gadus morhua)explaining the variety of biological activities.In order to study the immunomodulatory activity and the mechanism of Atlantic cod peptides at the cellular ...There are many active substances in Atlantic cod(Gadus morhua)explaining the variety of biological activities.In order to study the immunomodulatory activity and the mechanism of Atlantic cod peptides at the cellular level.In this study,cod peptides were isolated by 80%ethanol extraction method,the isolated ethanol-soluble cod peptides(CP-ES)were investigated and their immunomodulatory activity was verified.Additionally,CP-ES showed lower molecular weight and more hydrophobic amino acids.CP-ES could promote the proliferation of spleen lymphocytes and T lymphocytes in mice,suggesting that CP-ES may regulate adaptive immunity.It promoted the release of NO and the expression of iNOS,TNF-α,IL-6 and IL-1βgenes in macrophages,suggesting that CP-ES may regulate innate immunity.CP-ES could promote the expression of TLR2 gene,and the peptides identified in CP-ES were docked with TLR2 to predict the peptides playing a major role in CP-ES.These results suggested that CP-ES may regulate the immune activity of both innate and adaptive lines.展开更多
A novel vertical InN/InGaN heterojunction tunnel FET with hetero T-shaped gate as well as polarization-doped source and drain region(InN-Hetero-TG-TFET)is proposed and investigated by Silvaco-Atlas simulations for the...A novel vertical InN/InGaN heterojunction tunnel FET with hetero T-shaped gate as well as polarization-doped source and drain region(InN-Hetero-TG-TFET)is proposed and investigated by Silvaco-Atlas simulations for the first time.Compared with the conventional physical doping TFET devices,the proposed device can realize the P-type source and N-type drain region by means of the polarization effect near the top InN/InGaN and bottom InGaN/InN heterojunctions respectively,which could provide an effective solution of random dopant fluctuation(RDF)and the related problems about the high thermal budget and expensive annealing techniques due to ion-implantation physical doping.Besides,due to the hetero T-shaped gate,the improvement of the on-state performance can be achieved in the proposed device.The simulations of the device proposed here in this work show ION of 4.45×10^(-5)A/μm,ION/IOFF ratio of 10^(13),and SS_(avg)of 7.5 mV/dec in InN-Hetero-TG-TFET,which are better than the counterparts of the device with a homo T-shaped gate(InN-Homo-TG-TFET)and our reported lateral polarization-induced InN-based TFET(PI-InN-TFET).These results can provide useful reference for further developing the TFETs without physical doping process in low power electronics applications.展开更多
BACKGROUND It is unclear that paired-related homeobox 1(PRRX1)induces epithelialmesenchymal transition(EMT)in oesophageal cancer and the specific function of PRRX1 in oesophageal cancer metastasis.AIM To assess the si...BACKGROUND It is unclear that paired-related homeobox 1(PRRX1)induces epithelialmesenchymal transition(EMT)in oesophageal cancer and the specific function of PRRX1 in oesophageal cancer metastasis.AIM To assess the signicance of PRRX1 expression and investigate the mechanism of EMT in oesophageal cancer metastasis.METHODS Detect the expression of PRRX1 by immunohistochemistry in oesophageal tumour tissues and adjacent normal oesophageal tissues;the PRRX1 short hairpin RNA(shRNA)or blank vector lentiviral gene delivery system was transfected into cells;cell proliferation assay,soft agar colony formation assays,cell invasion and migration assays and animal studies were used to observe cells biological characteristics In vitro and in vivo;XAV939 and LiCl were used to alter the activity of Wnt/β-catenin pathway.Immunofluorescence staining and western blot analysis were used to detect protein expression of EMT markers and Wnt/β-catenin pathway.RESULTS PRRX1 is expressed at high levels in oesophageal cancer specimens and is closely related to tumour metastasis in patients with oesophageal cancer.Regulation of PRRX1 expression might exert obvious effects on cell proliferation,especially the migration and invasion of oesophageal cancer cells.Moreover,silencing PRRX1 expression using a shRNA produced the opposite effects.In addition,when PRRX1 was overexpressed,inhibition of the Wnt/β-catenin pathway with XAV939 negated the effect of PRRX1 on EMT,whereas when PRRX1 was downregulated,activation of the Wnt/β-catenin pathway with LiCl impaired the effect on EMT.CONCLUSION PRRX1 is upregulated in oesophageal cancer is closely correlated with cancer metastasis.Additionally,PRRX1 induces EMT in oesophageal cancer metastasis through activation of Wnt/β-catenin signalling.展开更多
Inflammatory bowel disease(IBD)influences several million people around the globe,with a high prevalence in North America and Europe.Results from the studies about host-gut microbial interactions demonstrated that gut...Inflammatory bowel disease(IBD)influences several million people around the globe,with a high prevalence in North America and Europe.Results from the studies about host-gut microbial interactions demonstrated that gut microbiota plays a critical role in the progression of IBD,and probiotics can significantly improve microflora dysbiosis and inflammatory response caused by intestinal pathogens.However,several limitations existed for the probiotics delivered to the intestine in the free form(non-encapsulated),such as low pH and diverse digestive enzymes in the gastrointestinal tract,etc.To overcome the problems,several probiotic delivery systems were established and verified with effects.Here,the types and applications of probiotics in animal models and clinical studies are first reviewed in this paper.Subsequently,various types of probiotic delivery systems are elaborated,containing the well-known microcapsules and hydrogel delivery systems,and the engineered probiotic delivery systems are also introduced.Furthermore,mechanisms of action associated with probiotics are illustrated,including maintaining gut microbiota barrier balance,modulating the immune response,and alleviating oxidative stress,etc.Finally,we discussed the relative advantages and disadvantages of different encapsulation methods,as well as future trends for further development of probiotic delivery systems with health benefits.展开更多
With the increasing penetration of renewable energy resources in power systems,conventional timescale separated load frequency control(LFC)and economic dispatch may degrade frequency performance and reduce economic ef...With the increasing penetration of renewable energy resources in power systems,conventional timescale separated load frequency control(LFC)and economic dispatch may degrade frequency performance and reduce economic efficiency.This paper proposes a novel data-driven adaptive distributed optimal disturbance rejection control(DODRC)method for real-time economic LFC problem in nonlinear power systems.Firstly,a basic DODRC method is proposed by integrating the active disturbance rejection control method and the partial primal–dual algorithm.Then,to deal with the tie-line power flow constraints,the logarithmic barrier function is employed to reconstruct the Lagrange function to obtain the constrained DODRC method.By analyzing the sensitivity of the uncertain parameters of power systems,a data-driven adaptive DODRC method is finally proposed with a neural network.The effectiveness of the proposed method is demonstrated by experimental results using real-time equipment.展开更多
Metal (Me=Fe(III), Mo(VI), Mn(II), Co(II), Ni(II), Zn(II) and Cu(II)) 2-hydroxy-1-naphthaldehyde thiosemicarbazone complexes (MeHNT) were synthesized and used as mimic-enzyme catalysts to mimic the active group of hor...Metal (Me=Fe(III), Mo(VI), Mn(II), Co(II), Ni(II), Zn(II) and Cu(II)) 2-hydroxy-1-naphthaldehyde thiosemicarbazone complexes (MeHNT) were synthesized and used as mimic-enzyme catalysts to mimic the active group of horseradish peroxidase (HRP). The results showed that Fe-HNT, Mo-HNT are effective catalysts, which have similar catalytic activity as HRP. The sequence of catalytic activities of tested biomimic peroxidas is Mo-HNT > Fe-HNT > Zn-HNT > Ni-HNT > Mn-HNT. Among them, Fe-HNT is used as a mimic-enzyme catalyst in determination of ascorbic acid and glucose by coupling the catalytic reaction of glucose oxidase.展开更多
Oyster(Crassostrea gigas),the main ingredient of oyster sauce,has a strong umami taste.In this study,three potential umami peptides,FLNQDEEAR(FR-9),FNKEE(FE-5),and EEFLK(EK-5),were identified and screened from the alc...Oyster(Crassostrea gigas),the main ingredient of oyster sauce,has a strong umami taste.In this study,three potential umami peptides,FLNQDEEAR(FR-9),FNKEE(FE-5),and EEFLK(EK-5),were identified and screened from the alcoholic extracts of the oyster using nano-HPLC-MS/MS analysis,i Umami-Scoring Card Method(i Umami-SCM)database and molecular docking(MD).Sensory evaluation and electronic tongue analysis were further used to confirm their tastes.The threshold of the three peptides ranged from 0.38 to 0.55 mg/m L.MD with umami receptors T1R1/T1R3 indicated that the electrostatic interaction and hydrogen bond interaction were the main forces involved.Besides,the Phe592 and Gln853 of T1R3 were the primary docking site for MD and played an important role in umami intensity.Peptides with two Glu residues at the terminus had stronger umami,especially at the C-terminus.These results contribute to the understanding of umami peptides in oysters and the interaction mechanism between umami peptides and umami receptors.展开更多
Bone morphogenetic proteins(BMPs)are a family of potent,multifunctional growth factors belonging to transforming growth factor-(TGF-).They are highly conservative in structures.Over 20 members of BMPs with varying fun...Bone morphogenetic proteins(BMPs)are a family of potent,multifunctional growth factors belonging to transforming growth factor-(TGF-).They are highly conservative in structures.Over 20 members of BMPs with varying functions such as embryogenesis,skeletal formation,hematopoiesis and neurogenesis have been identified in human body.BMPs are unique growth factors that can induce the formation of bone tissue individually.BMPs can induce the differentiation of bone marrow mesenchymal stem cells into osteoblastic lineage and promote the proliferation of osteoblasts and chondrocytes.BMPs stimulate the target cells by specific membrane-bound receptors and signal transduced through mothers against decapentaplegic(Smads)and mitogen activated protein kinase(MAPK)pathways.It has been demonstrated that BMP-2,BMP-4,BMP-6,BMP-7,and BMP-9 play an important role in bone formation.This article focuses on the molecular characterization of BMPs family members,mechanism of osteogenesis promotion,related signal pathways of osteogenic function,relationships between structure and osteogenetic activity,and the interactions among family members at bone formation.展开更多
A pair of diastereoisomeric furostanol saponins was obtained from the n-butanol fraction of methanol extract from Tupistra chinensis rhizomes, a folk medicine of Shennongjia Forest District of Hubei Province. Their st...A pair of diastereoisomeric furostanol saponins was obtained from the n-butanol fraction of methanol extract from Tupistra chinensis rhizomes, a folk medicine of Shennongjia Forest District of Hubei Province. Their structures were determined, on the basis of chemical and spectroscopic evidences.展开更多
A novel Ga N-based vertical heterostructure field effect transistor(HFET) with nonuniform doping superjunctions(non-SJ HFET) is proposed and studied by Silvaco-ATLAS,for minimizing the specific on-resistance(RonA...A novel Ga N-based vertical heterostructure field effect transistor(HFET) with nonuniform doping superjunctions(non-SJ HFET) is proposed and studied by Silvaco-ATLAS,for minimizing the specific on-resistance(RonA) at no expense of breakdown voltage(BV).The feature of non-SJ HFET lies in the nonuniform doping concentration from top to bottom in the n-and p-pillars,which is different from that of the conventional Ga N-based vertical HFET with uniform doping superjunctions(un-SJ HFET).A physically intrinsic mechanism for the nonuniform doping superjunction(non-SJ) to further reduce RonA at no expense of BV is investigated and revealed in detail.The design,related to the structure parameters of non-SJ,is optimized to minimize the RonA on the basis of the same BV as that of un-SJ HFET.Optimized simulation results show that the reduction in RonA depends on the doping concentrations and thickness values of the light and heavy doping parts in non-SJ.The maximum reduction of more than 51% in RonA could be achieved with a BV of 1890 V.These results could demonstrate the superiority of non-SJ HFET in minimizing RonA and provide a useful reference for further developing the Ga N-based vertical HFETs.展开更多
The power law model is the most widely used model for the rheological behavior of semi-solid metals(SSMs)in the numerical simulation of semi-solid processing.However,it is still not known why the anomalous negative fl...The power law model is the most widely used model for the rheological behavior of semi-solid metals(SSMs)in the numerical simulation of semi-solid processing.However,it is still not known why the anomalous negative flow exponent exists in the power law model for SSMs and its influence on the simulation.In this research,the rheological behavior of semi-solid Al-7Si-0.3Mg aluminum alloy is experimentally studied followed by modeling.The power law model fitting results show flow curves deviate from the experimental data and negative flow exponents,which are physically nonsensical and inapplicable to the simulation of SSMs flow proved by hydrodynamic analysis.This drawback of the power law model stems from neglecting the yield stress of SSMs.By contrast,the model referring Herschel-Bulkley(HB)theory which takes yield stress into consideration has reasonable flow exponent and yields good agreement between the fitting and experimental results.Furthermore,the simulation of die filling process is conducted,suggesting that the power law model over-optimistically predicts the tendency of blistering and misrun defects at low temperature and high filling velocity during semi-solid processing.展开更多
A comprehensive method was applied to evaluate the anticoagulant activity of a novel anticoagulant peptide(NAESLRK)derived from oyster(Crassostrea gigas).The anticoagulant peptide drastically reduced the extrinsic clo...A comprehensive method was applied to evaluate the anticoagulant activity of a novel anticoagulant peptide(NAESLRK)derived from oyster(Crassostrea gigas).The anticoagulant peptide drastically reduced the extrinsic clotting activity and also impaired the intrinsic clotting activity slightly.Consistent with clotting data,the thrombin peak height was reduced to 84.7 nmol/L from 123.4 nmol/L,and thrombin generation time was delayed to 4.67 min from 4.42 min when the extrinsic trigger was applied.The inhibitory kinetics of FⅪa,FⅨa,FⅩa,FⅡa,and APC in a purified component system rationally explained the reduction of extrinsic clotting activity and impairment of thrombin generation.Besides the inhibition of FⅩa and FⅡa activity,the activation processes of FⅩand FⅡby intrinsic/extrinsic tenase complex and prothrombinase were also damaged.The anticoagulant activity in the plasma system was the result of comprehensive inhibition of various factors.The research provided a novel method for anticoagulant evaluation and inhibitory mechanism of bioactive peptides from food products.展开更多
Ferritin has good thermal stability,resistance to certain acids and bases,and targeting,and has broad application prospects in the synthesis of gold nanostars(AuNS).In this study,we screened monodisperse AuNS with uni...Ferritin has good thermal stability,resistance to certain acids and bases,and targeting,and has broad application prospects in the synthesis of gold nanostars(AuNS).In this study,we screened monodisperse AuNS with uniform particle size and morphology through a one-step synthesis method and coupled the synthesized AuNS with oyster ferritin(GF1).The results showed that the surface plasmon resonance(SPR)peaks of the coupled GF1@AuNS changed signifi cantly,and the changes in infrared spectra and potential confirmed the success of the synthesis,while the microscopic morphology showed an increase in particle size and surface peak coverage.Furthermore,GF1@AuNS does not induce cell death in the 100µmol/L range,is highly stable in physiological environments,and exhibits good X-ray attenuation in micro-computed tomography.Due to the unique functional activity of ferritin and AuNS,GF1@AuNS has potential applications in food detection and drug development in the future.展开更多
Reducing kinetic energy barriers and developing accessible active sites are critical to deliver high hydrogen evolution reaction(HER)efficiency.In this paper,we synthesized defect-modulated and heteroatom(boron)-funct...Reducing kinetic energy barriers and developing accessible active sites are critical to deliver high hydrogen evolution reaction(HER)efficiency.In this paper,we synthesized defect-modulated and heteroatom(boron)-functionalized three-dimensional(3D)bowl-shaped Ti_(3−x)C_(2)T_(y)MXene(B-TCT)nanocavities coupled with the vertical growth of MoSe_(2)nanoflakes.The B-TCT@MoSe_(2)nanohybrids catalyst delivers the overpotentials of 49.9,52.7,and 67.8 mV to reach a HER current density of 10 mA·cm^(−2)under acidic,alkaline,and neutral conditions,respectively.Such outstanding HER activity is predominantly attributed to the heteroatom functionalization,self-adapting Ti vacancy(VTi)defect modulation,and spatial configuration design in the 3D B-TCT nanocavity,which synergistically regulate the electronic structure,activate the basal plane/edge unsaturated sites,and reduce the reaction energy barrier.Experimental and theoretical calculations demonstrate that strong heterogeneous interfacial bonding interactions between B-TCT and MoSe_(2)can dramatically reduce the free energy of hydrogen adsorption and facilitate efficient interfacial charge migration,thus essentially improving the HER kinetics.We used this 3D porous nanohybrid system assembled by defectrich lamellar structures to elucidate the advantageous synergistic effects of multiple mechanisms among defect structure,heteroatom functionalization,and interfacial coupling,which provided important insights for the development of efficient hybridtype catalysts.展开更多
基金financially supported by the National Natural Science Foundation of China(31730069)Graduate Innovation Fund of Dalian Polytechnic University。
文摘Aging is a physiological process that leads to degeneration and functional decline of the brain.This is accompanied by intracellular peroxidation and neuronal apoptosis.Natural antioxidants possess a remarkable effect on attenuating the oxidative stress cascade and apoptosis of neurons;however,the challenge of using natural antioxidants for neuroprotection is fabricating a delivery system to overcome the blood-brain barrier(BBB)transport.Herein,we successfully created a stable delivery platform built on rigid ferritin nanocage loading natural lycopene molecules,crossing the BBB in quantity and being taken up in neurons.This nanoparticle worked on D-galactose-induced senescence via alleviating neuronal hyperoxidation injury and weakening neuronal apoptosis in PC12 and BV2 cells.More importantly,this natural delivery system possesses inherent biocompatibility and potential application in improving the bioavailability of bioactive edible compounds with low water solubility.This study demonstrated the effectiveness of natural antioxidant nanomedicines in maintaining the defenses of intracerebral peroxidation and improve degenerating neurons,providing the potential to combat further imbalances of neuronal microenvironment in aging neuropathy.
基金supported by The National Natural Science Foundation of China (32130085 and 32202021)。
文摘Thrombin blockers have been shown to be effective for various pathological conditions,but their use is limited due to the potential for serious bleeding adverse effects.This study introduced a novel bioactive peptide(P-2-CG) from oyster,that mitigated thrombin-mediated barrier dysfunction and prothrombotic phenotypes in human pulmonary microvascular endothelial cells(HPMECs).P-2-CG significantly attenuated the increase in endothelial monolayer permeability induced by thrombin through the possible attenuation of RhoA activation and it promoted barrier recovery by enhancing endothelial cell adhesion.Additionally,P-2-CG was found to decrease the pro-thrombotic phenotype induced by thrombin in HPMEC by reducing the extrinsic trigger tissue factor mRNA expression,which resulted in prolonged plasma clotting time,decreased Factor Xa activation,and reduced thrombin generation.Moreover,P-2-CG inhibited thrombosis efficiently by blocking intercellular adhesion molecule 1 and vascular cell adhesion protein 1 expression via tyrosine phosphorylation of nuclear factor-κB p65.P-2-CG inhibits thrombin mediated inflammation and provides a potential therapeutic option for treating endothelial dysfunction and thrombosis.
文摘Marine natural products have long been recognized as a vast and diverse source of bioactive compounds with potential therapeutic applications,particularly in oncology.This review provides an updated overview of the significant advances made in the discovery and development of marine-derived anticancer drugs between 2019 and 2023.With a focus on recent research findings,the review explores the rich biodiversity of marine organisms,including sponges,corals,algae,and microorganisms,which have yielded numerous compounds exhibiting promising anticancer properties.Emphasizing the multifaceted mechanisms of action,the review discusses the molecular targets and pathways targeted by these compounds,such as cell cycle regulation,apoptosis induction,angiogenesis inhibition,and modulation of signaling pathways.Additionally,the review highlights the innovative strategies employed in the isolation,structural elucidation,and chemical modification of marine natural products to enhance their potency,selectivity,and pharmacological properties.Furthermore,it addresses the challenges and opportunities associated with the development of marine-derived anticancer drugs,including issues related to supply,sustainability,synthesis,and clinical translation.Finally,the review underscores the immense potential of marine natural products as a valuable reservoir of novel anticancer agents and advocates for continued exploration and exploitation of the marine environment to address the unmet medical needs in cancer therapy.
基金The China Postdoctoral Science Foundation(2019M661072)the Basic Research Program of Liaoning Education Department(2017J080)the National Natural Science Foundation of China(31771926)funded this study.
文摘There is no study on food-derived peptide with both anticoagulant and angiotensin I-converting enzyme inhibitory (ACEI) activities yet. In this work, the anticoagulant and ACEI activities of the casein hydrolysates released by pepsin digestion were evaluated for the first time to the best of our knowledge. Results indicated that the casein hydrolysate exhibited potent anticoagulant activity by prolonging the thrombin time (TT) and the activated partial thromboplastin time (APTT). Compared with control samples, at 10 mg/mL, the TT and APTT of casein hydrolysate were 186.0 % ± 6.6 % and 163.5 % ± 7.4 %, respectively. The casein hydrolysate also showed a strong ACEI activity with an IC50 value of 1.775 mg/mL. The components of the bioactive casein hydrolysate were analyzed by nanoscale liquid chromatography quadrupole time-of-flight tandem mass spectrometry (NanoLC-Q-TOF-MS/MS). Total of 115 peptides were identified, among which 34, 9, 55 and 17 peptides were derived from α_(s1-), α_(s2-), β-, and κ-casein, respectively. The results of PeptideRanker and PepSite 2 analysis showed that 6 peptides (FRQFYQL, NENLLRF, NPWDQVKR, PVVVPPFLQ, PVRGPFPIIV, and ARHPHPHLSF) have both ACEI and anticoagulant activities by binding to the active sites of ACE and thrombin. This study indicated that casein is a potential functional food supplement that can be used for medical purposes.
基金financially supported by the National Natural Science Foundation of China (32130085)。
文摘Oysters(Crassostrea gigas)have a wide range of functionality due to their nutritional and bioactive components. However, the bioactive peptides of oyster proteins are rarely reported, particularly their antidiabetes effects and antioxidants. Oyster proteins were extracted from fresh oysters using phosphatebuffered saline and simulated gastrointestinal digestion was performed. The degree of hydrolysis(DH), structural characterization, molecular weight(Mw)distribution, free amino acid, anti-diabetic activity, and antioxidant activity were studied during in vitro simulated gastrointestinal digestion. The results showed that the α-glucosidase inhibitory activity, α-amylase inhibitory activity, DPPH radical scavenging activity, and ABTS radical scavenging activity of the oyster protein gastrointestinal digest were increased(P < 0.05)from 0 to 33.96%, from 9.17% to 44.22%, from 9.01 μg trolox/mg protein to 18.48 μg trolox/mg protein, and from 21.44 μg trolox/mg protein to 56.21 μg trolox/mg protein, respectively. Additionally, the DH, β-turn structure, fluorescence intensity, free amino acid, and short peptide content(Mw < 1 000 Da)increased in the simulated gastrointestinal digestion. These results indicate that the digestive hydrolysates obtained from oyster proteins could be used as natural anti-diabetic and antioxidant agents.
基金This work was supported by the State Key Research and Development Plan M¨odern Food Processing and Food Storage and Transportation Technology and Equipment”(2017YFD0400201)by the National Natural Science Foundation of China(31771926).
文摘Owing to the formation of aggregation and gelation during storage,certain proteins and peptides exhibit limited applications in aqueous protein food products.The purpose of this study was to investigate the influence of homogenization and xanthan gum addition on the dispersion stability of Mytilus edulis hydrolysate(PHM).High-pressure homogenization(HPH)at 360 and 40 bar in the first and second values,respectively,and adding xanthan gum at a concentration of 1 mg/mL showed significantly improvement on the stability of the PHM solution.PHM-xanthan gum solutions(PHMX)showed the highest polypeptide precipitation rate and turbidity retention rate compared with those of PHM.Moreover,the centrifugal precipitation rate of PHMX without HPH was higher than that of homogeneous PHMX.After HPH treatment at 400 bar,the percentage of smaller particles in PHM and PHMX was increased,the aqueous system became more uniform,and the fluorescence intensity reached its maximum.HPH pretreatment improved the polypeptide dispersion stability and turbidity retention rate of PHM and PHMX and reduced the fluorescence intensity.The interactions of xanthan gum and polypeptide render the network microstructure more uniform under the conditions of homogenization,thus improving the dispersion stability of PHMX solutions.Therefore,under the premise of adding xanthan gum,HPH can better enhance the dispersion stability of the polypeptide in PHM.
基金financially supported by the Project of Xingliao Talent Plan“Science and Technology Innovation Leader”(XLYC1802047).
文摘There are many active substances in Atlantic cod(Gadus morhua)explaining the variety of biological activities.In order to study the immunomodulatory activity and the mechanism of Atlantic cod peptides at the cellular level.In this study,cod peptides were isolated by 80%ethanol extraction method,the isolated ethanol-soluble cod peptides(CP-ES)were investigated and their immunomodulatory activity was verified.Additionally,CP-ES showed lower molecular weight and more hydrophobic amino acids.CP-ES could promote the proliferation of spleen lymphocytes and T lymphocytes in mice,suggesting that CP-ES may regulate adaptive immunity.It promoted the release of NO and the expression of iNOS,TNF-α,IL-6 and IL-1βgenes in macrophages,suggesting that CP-ES may regulate innate immunity.CP-ES could promote the expression of TLR2 gene,and the peptides identified in CP-ES were docked with TLR2 to predict the peptides playing a major role in CP-ES.These results suggested that CP-ES may regulate the immune activity of both innate and adaptive lines.
基金the Key Research and Development Program of Shaanxi Province,China(Grant No.2020ZDLGY03-05)the National Natural Science Foundation of China(Grant No.61574112).
文摘A novel vertical InN/InGaN heterojunction tunnel FET with hetero T-shaped gate as well as polarization-doped source and drain region(InN-Hetero-TG-TFET)is proposed and investigated by Silvaco-Atlas simulations for the first time.Compared with the conventional physical doping TFET devices,the proposed device can realize the P-type source and N-type drain region by means of the polarization effect near the top InN/InGaN and bottom InGaN/InN heterojunctions respectively,which could provide an effective solution of random dopant fluctuation(RDF)and the related problems about the high thermal budget and expensive annealing techniques due to ion-implantation physical doping.Besides,due to the hetero T-shaped gate,the improvement of the on-state performance can be achieved in the proposed device.The simulations of the device proposed here in this work show ION of 4.45×10^(-5)A/μm,ION/IOFF ratio of 10^(13),and SS_(avg)of 7.5 mV/dec in InN-Hetero-TG-TFET,which are better than the counterparts of the device with a homo T-shaped gate(InN-Homo-TG-TFET)and our reported lateral polarization-induced InN-based TFET(PI-InN-TFET).These results can provide useful reference for further developing the TFETs without physical doping process in low power electronics applications.
文摘BACKGROUND It is unclear that paired-related homeobox 1(PRRX1)induces epithelialmesenchymal transition(EMT)in oesophageal cancer and the specific function of PRRX1 in oesophageal cancer metastasis.AIM To assess the signicance of PRRX1 expression and investigate the mechanism of EMT in oesophageal cancer metastasis.METHODS Detect the expression of PRRX1 by immunohistochemistry in oesophageal tumour tissues and adjacent normal oesophageal tissues;the PRRX1 short hairpin RNA(shRNA)or blank vector lentiviral gene delivery system was transfected into cells;cell proliferation assay,soft agar colony formation assays,cell invasion and migration assays and animal studies were used to observe cells biological characteristics In vitro and in vivo;XAV939 and LiCl were used to alter the activity of Wnt/β-catenin pathway.Immunofluorescence staining and western blot analysis were used to detect protein expression of EMT markers and Wnt/β-catenin pathway.RESULTS PRRX1 is expressed at high levels in oesophageal cancer specimens and is closely related to tumour metastasis in patients with oesophageal cancer.Regulation of PRRX1 expression might exert obvious effects on cell proliferation,especially the migration and invasion of oesophageal cancer cells.Moreover,silencing PRRX1 expression using a shRNA produced the opposite effects.In addition,when PRRX1 was overexpressed,inhibition of the Wnt/β-catenin pathway with XAV939 negated the effect of PRRX1 on EMT,whereas when PRRX1 was downregulated,activation of the Wnt/β-catenin pathway with LiCl impaired the effect on EMT.CONCLUSION PRRX1 is upregulated in oesophageal cancer is closely correlated with cancer metastasis.Additionally,PRRX1 induces EMT in oesophageal cancer metastasis through activation of Wnt/β-catenin signalling.
基金supported by the 2022 Ningbo Yongjiang Talent Introduction Programme(Young Talent Sub-Project 2022A-158-G)the Zhejiang Provincial Natural Science Foundation of China(LQ23C200005)the Research Startup Fund of Ningbo University(ZX2022000432).
文摘Inflammatory bowel disease(IBD)influences several million people around the globe,with a high prevalence in North America and Europe.Results from the studies about host-gut microbial interactions demonstrated that gut microbiota plays a critical role in the progression of IBD,and probiotics can significantly improve microflora dysbiosis and inflammatory response caused by intestinal pathogens.However,several limitations existed for the probiotics delivered to the intestine in the free form(non-encapsulated),such as low pH and diverse digestive enzymes in the gastrointestinal tract,etc.To overcome the problems,several probiotic delivery systems were established and verified with effects.Here,the types and applications of probiotics in animal models and clinical studies are first reviewed in this paper.Subsequently,various types of probiotic delivery systems are elaborated,containing the well-known microcapsules and hydrogel delivery systems,and the engineered probiotic delivery systems are also introduced.Furthermore,mechanisms of action associated with probiotics are illustrated,including maintaining gut microbiota barrier balance,modulating the immune response,and alleviating oxidative stress,etc.Finally,we discussed the relative advantages and disadvantages of different encapsulation methods,as well as future trends for further development of probiotic delivery systems with health benefits.
基金supported in part by the State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources under Grant LAPS24009in part by the Guangdong Basic and Applied Basic Research Foundation under Grant 2021A1515110016in part by the National Natural Science Foundation of China under Grant 52206009.
文摘With the increasing penetration of renewable energy resources in power systems,conventional timescale separated load frequency control(LFC)and economic dispatch may degrade frequency performance and reduce economic efficiency.This paper proposes a novel data-driven adaptive distributed optimal disturbance rejection control(DODRC)method for real-time economic LFC problem in nonlinear power systems.Firstly,a basic DODRC method is proposed by integrating the active disturbance rejection control method and the partial primal–dual algorithm.Then,to deal with the tie-line power flow constraints,the logarithmic barrier function is employed to reconstruct the Lagrange function to obtain the constrained DODRC method.By analyzing the sensitivity of the uncertain parameters of power systems,a data-driven adaptive DODRC method is finally proposed with a neural network.The effectiveness of the proposed method is demonstrated by experimental results using real-time equipment.
文摘Metal (Me=Fe(III), Mo(VI), Mn(II), Co(II), Ni(II), Zn(II) and Cu(II)) 2-hydroxy-1-naphthaldehyde thiosemicarbazone complexes (MeHNT) were synthesized and used as mimic-enzyme catalysts to mimic the active group of horseradish peroxidase (HRP). The results showed that Fe-HNT, Mo-HNT are effective catalysts, which have similar catalytic activity as HRP. The sequence of catalytic activities of tested biomimic peroxidas is Mo-HNT > Fe-HNT > Zn-HNT > Ni-HNT > Mn-HNT. Among them, Fe-HNT is used as a mimic-enzyme catalyst in determination of ascorbic acid and glucose by coupling the catalytic reaction of glucose oxidase.
基金supported by the National Key Research and Development Program of China:Investigate the mechanism of formation and control technologies of Chinese traditional and ethnic food quality(2021YFD2100100)。
文摘Oyster(Crassostrea gigas),the main ingredient of oyster sauce,has a strong umami taste.In this study,three potential umami peptides,FLNQDEEAR(FR-9),FNKEE(FE-5),and EEFLK(EK-5),were identified and screened from the alcoholic extracts of the oyster using nano-HPLC-MS/MS analysis,i Umami-Scoring Card Method(i Umami-SCM)database and molecular docking(MD).Sensory evaluation and electronic tongue analysis were further used to confirm their tastes.The threshold of the three peptides ranged from 0.38 to 0.55 mg/m L.MD with umami receptors T1R1/T1R3 indicated that the electrostatic interaction and hydrogen bond interaction were the main forces involved.Besides,the Phe592 and Gln853 of T1R3 were the primary docking site for MD and played an important role in umami intensity.Peptides with two Glu residues at the terminus had stronger umami,especially at the C-terminus.These results contribute to the understanding of umami peptides in oysters and the interaction mechanism between umami peptides and umami receptors.
基金This work was supported by National Natural Science Foundation Funding(3110131631371805)Program for New Century Excellent Talents in University of Ministry of Education of China(NCET-11-0796)and Heilongjiang Province Postdoctoral Science Foundation.
文摘Bone morphogenetic proteins(BMPs)are a family of potent,multifunctional growth factors belonging to transforming growth factor-(TGF-).They are highly conservative in structures.Over 20 members of BMPs with varying functions such as embryogenesis,skeletal formation,hematopoiesis and neurogenesis have been identified in human body.BMPs are unique growth factors that can induce the formation of bone tissue individually.BMPs can induce the differentiation of bone marrow mesenchymal stem cells into osteoblastic lineage and promote the proliferation of osteoblasts and chondrocytes.BMPs stimulate the target cells by specific membrane-bound receptors and signal transduced through mothers against decapentaplegic(Smads)and mitogen activated protein kinase(MAPK)pathways.It has been demonstrated that BMP-2,BMP-4,BMP-6,BMP-7,and BMP-9 play an important role in bone formation.This article focuses on the molecular characterization of BMPs family members,mechanism of osteogenesis promotion,related signal pathways of osteogenic function,relationships between structure and osteogenetic activity,and the interactions among family members at bone formation.
文摘A pair of diastereoisomeric furostanol saponins was obtained from the n-butanol fraction of methanol extract from Tupistra chinensis rhizomes, a folk medicine of Shennongjia Forest District of Hubei Province. Their structures were determined, on the basis of chemical and spectroscopic evidences.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.61574112,61334002,61474091,and 61574110)the Natural Science Basic Research Plan in Shaanxi Province,China(Grant No.605119425012)
文摘A novel Ga N-based vertical heterostructure field effect transistor(HFET) with nonuniform doping superjunctions(non-SJ HFET) is proposed and studied by Silvaco-ATLAS,for minimizing the specific on-resistance(RonA) at no expense of breakdown voltage(BV).The feature of non-SJ HFET lies in the nonuniform doping concentration from top to bottom in the n-and p-pillars,which is different from that of the conventional Ga N-based vertical HFET with uniform doping superjunctions(un-SJ HFET).A physically intrinsic mechanism for the nonuniform doping superjunction(non-SJ) to further reduce RonA at no expense of BV is investigated and revealed in detail.The design,related to the structure parameters of non-SJ,is optimized to minimize the RonA on the basis of the same BV as that of un-SJ HFET.Optimized simulation results show that the reduction in RonA depends on the doping concentrations and thickness values of the light and heavy doping parts in non-SJ.The maximum reduction of more than 51% in RonA could be achieved with a BV of 1890 V.These results could demonstrate the superiority of non-SJ HFET in minimizing RonA and provide a useful reference for further developing the Ga N-based vertical HFETs.
基金supported by the National Key Research Project(No.2016YFB0300901)。
文摘The power law model is the most widely used model for the rheological behavior of semi-solid metals(SSMs)in the numerical simulation of semi-solid processing.However,it is still not known why the anomalous negative flow exponent exists in the power law model for SSMs and its influence on the simulation.In this research,the rheological behavior of semi-solid Al-7Si-0.3Mg aluminum alloy is experimentally studied followed by modeling.The power law model fitting results show flow curves deviate from the experimental data and negative flow exponents,which are physically nonsensical and inapplicable to the simulation of SSMs flow proved by hydrodynamic analysis.This drawback of the power law model stems from neglecting the yield stress of SSMs.By contrast,the model referring Herschel-Bulkley(HB)theory which takes yield stress into consideration has reasonable flow exponent and yields good agreement between the fitting and experimental results.Furthermore,the simulation of die filling process is conducted,suggesting that the power law model over-optimistically predicts the tendency of blistering and misrun defects at low temperature and high filling velocity during semi-solid processing.
基金financially supported by the National Natural Science Foundation of China(31771926)the State Key Research and Development Plan“Modern Food Processing and Food Storage and Transportation Technology and Equipment”(No.2017YFD0400201)。
文摘A comprehensive method was applied to evaluate the anticoagulant activity of a novel anticoagulant peptide(NAESLRK)derived from oyster(Crassostrea gigas).The anticoagulant peptide drastically reduced the extrinsic clotting activity and also impaired the intrinsic clotting activity slightly.Consistent with clotting data,the thrombin peak height was reduced to 84.7 nmol/L from 123.4 nmol/L,and thrombin generation time was delayed to 4.67 min from 4.42 min when the extrinsic trigger was applied.The inhibitory kinetics of FⅪa,FⅨa,FⅩa,FⅡa,and APC in a purified component system rationally explained the reduction of extrinsic clotting activity and impairment of thrombin generation.Besides the inhibition of FⅩa and FⅡa activity,the activation processes of FⅩand FⅡby intrinsic/extrinsic tenase complex and prothrombinase were also damaged.The anticoagulant activity in the plasma system was the result of comprehensive inhibition of various factors.The research provided a novel method for anticoagulant evaluation and inhibitory mechanism of bioactive peptides from food products.
基金supported by the National Natural Science Foundation of China(31730069 and 31771926).
文摘Ferritin has good thermal stability,resistance to certain acids and bases,and targeting,and has broad application prospects in the synthesis of gold nanostars(AuNS).In this study,we screened monodisperse AuNS with uniform particle size and morphology through a one-step synthesis method and coupled the synthesized AuNS with oyster ferritin(GF1).The results showed that the surface plasmon resonance(SPR)peaks of the coupled GF1@AuNS changed signifi cantly,and the changes in infrared spectra and potential confirmed the success of the synthesis,while the microscopic morphology showed an increase in particle size and surface peak coverage.Furthermore,GF1@AuNS does not induce cell death in the 100µmol/L range,is highly stable in physiological environments,and exhibits good X-ray attenuation in micro-computed tomography.Due to the unique functional activity of ferritin and AuNS,GF1@AuNS has potential applications in food detection and drug development in the future.
基金supported by the National Natural Science Foundation of China(Nos.52072182 and 51872145)Natural Science Foundation of Jiangsu Province(No.BK20211278)+2 种基金the China Postdoctoral Science Foundation(Nos.2019M650120 and 2020M671554)the National Synergetic Innovation Center for Advanced Materials(SICAM)Postgraduate Research Practice Innovation Program of Jiangsu Province(No.KYCX22_0977).
文摘Reducing kinetic energy barriers and developing accessible active sites are critical to deliver high hydrogen evolution reaction(HER)efficiency.In this paper,we synthesized defect-modulated and heteroatom(boron)-functionalized three-dimensional(3D)bowl-shaped Ti_(3−x)C_(2)T_(y)MXene(B-TCT)nanocavities coupled with the vertical growth of MoSe_(2)nanoflakes.The B-TCT@MoSe_(2)nanohybrids catalyst delivers the overpotentials of 49.9,52.7,and 67.8 mV to reach a HER current density of 10 mA·cm^(−2)under acidic,alkaline,and neutral conditions,respectively.Such outstanding HER activity is predominantly attributed to the heteroatom functionalization,self-adapting Ti vacancy(VTi)defect modulation,and spatial configuration design in the 3D B-TCT nanocavity,which synergistically regulate the electronic structure,activate the basal plane/edge unsaturated sites,and reduce the reaction energy barrier.Experimental and theoretical calculations demonstrate that strong heterogeneous interfacial bonding interactions between B-TCT and MoSe_(2)can dramatically reduce the free energy of hydrogen adsorption and facilitate efficient interfacial charge migration,thus essentially improving the HER kinetics.We used this 3D porous nanohybrid system assembled by defectrich lamellar structures to elucidate the advantageous synergistic effects of multiple mechanisms among defect structure,heteroatom functionalization,and interfacial coupling,which provided important insights for the development of efficient hybridtype catalysts.
