BACKGROUND Steroid-induced avascular necrosis of the femoral head(SANFH)involves bone metabolism imbalance and lacks effective therapies.Mesenchymal stem cells(MSCs),particularly human umbilical cord MSCs(hUCMSCs),off...BACKGROUND Steroid-induced avascular necrosis of the femoral head(SANFH)involves bone metabolism imbalance and lacks effective therapies.Mesenchymal stem cells(MSCs),particularly human umbilical cord MSCs(hUCMSCs),offer promise due to their osteogenic and immunomodulatory potential.Sclerostin(SOST)inhibits bone formation,so we developed a multi-target gene silencing strategy against SOST using RNA interference.We created hUCMSCs with SOST-silenced(sh-hUCMSCs)and compared their therapeutic efficacy with unmodified hUCMSCs in SANFH mice.This study explores a novel approach to enhance osteogenesis and mitigate SANFH progression.AIM To assess the effects of sh-hUCMSCs on bone metabolism in SANFH.METHODS hUCMSCs were isolated from placental tissue and transfected with SOST-targeting short hairpin RNA plasmids.A SANFH mouse model was established through intraperitoneal injection of lipopolysaccharide(20μg/kg)followed by intramuscular methylprednisolone administration(40 mg/kg).Mice were randomized into four experimental groups(n=10/group):Sham control,SANFH(untreated),hUCMSCs-treated,and sh-hUCMSCs-treated.Micro-computed tomography was used to measure bone volume(BV),bone surface area,bone surface/BV ratio,tra-becular number,trabecular thickness,and trabecular separation.Quantification of adipocyte area by hematoxylin and eosin staining.Collagen fiber volume was assessed by Masson’s trichrome staining.Serum levels of osteopro-tegerin(OPG),receptor activator of nuclear factor kappa B(RANK),RANK ligand(RANKL),tartrate-resistant acid phosphatase,and the OPG/RANKL ratio were measured by enzyme-linked immunosorbent assay.The expression levels of alkaline phosphatase,OPG,SOST,β-catenin,peroxisome proliferator-activated receptor gamma,and CCAAT/enhancer-binding protein in bone tissue were determined by western blot analysis.RESULTS hUCMSCs and sh-hUCMSCs exhibited typical fibroblast-like morphology and high expression of MSC surface markers(CD90,CD73,CD105>98%).These cells demonstrated tri-lineage differentiation potential,confirmed by positive Alizarin Red S,Oil Red O,and Alcian Blue staining,and upregulation of lineage-specific genes.After SOST-RNA interference modification,sh-hUCMSCs showed enhanced inhibition of adipogenesis and improved bone formation in a rat model of SANFH.Histological analysis revealed reduced lipid infiltration and empty lacunae in the femoral head of the sh-hUCMSC group.Western blot showed decreased CCAAT/enhancer-binding protein and peroxisome proliferator-activated receptor gamma expression(P<0.05).Masson staining and micro-computed tomography analysis confirmed significantly increased BV,trabecular number,trabecular thickness,and reduced trabecular separation in the sh-hUCMSC group compared to unmodified MSCs and SANFH groups(P<0.05).Serum enzyme-linked immunosorbent assay showed higher OPG and lower RANK,RANKL,and tartrate-resistant acid phosphatase levels in the sh-hUCMSCs group.Western blot further confirmed upregulated alkaline phosphatase,OPG,β-catenin,and downregulated SOST expression in sh-hUCMSCs compared to controls(P<0.05).These results suggest that SOST inhibition enhances the osteogenic potential and therapeutic efficacy of hUCMSCs in SANFH.CONCLUSION sh-hUCMSCs alleviate SANFH by activating the Wnt/β-catenin signaling pathway,thereby promoting osteogenic differentiation and suppressing adipogenesis to restore bone metabolic balance.展开更多
Conversion of dryland to paddy fields(CDPF)is an effective way to transition from rain-fed to irrigated agricul ture,helping to mitigate the effects of climate change on agriculture and increase yields to meet growing...Conversion of dryland to paddy fields(CDPF)is an effective way to transition from rain-fed to irrigated agricul ture,helping to mitigate the effects of climate change on agriculture and increase yields to meet growing food demand.However,the suitability of CDPF is spatio-temporally dynamic but has often been neglected in previous studies.To fill this knowledge gap,this research developed a novel method for quantifying the suitability of CDPF,based on the MaxEnt model for application in Northeast China.We explored the spatiotemporal characteristics of the suitability of CDPF under the baseline scenario(2010-2020),and future projections(2030-2090)coupled with climate change and socioeconomic development scenarios(SSP126,SSP245,and SSP585),and revealed the driving factors behind it.Based on this,we identified potential priority areas for future CDPF implementation.The results show that the suitability of CDPF projects implemented in the past ten years is relatively high.Com pared with the baseline scenario,the suitability of CDPF under the future scenarios will decline overall,with the lightest decrease in the RCP585 and the most severe decrease in the RCP245.The key drivers affecting the suitability of CDPF are elevation,slope,population count,total nitrogen,soil organic carbon content,and precip itation seasonality.The potential priority areas for the future CDPF range from 6,284.61 km^(2)to 37,006.02 km^(2).These findings demonstrate the challenges of CDPF in adapting to climate change and food security,and provide insights for food-producing regions around the world facing climate crises.展开更多
The fabrication of Invar/MnCu functionally graded material(FGM)through directed energy deposition(DED)can satisfy the demands for precision devices in aerospace,providing lightweight properties and integrating thermal...The fabrication of Invar/MnCu functionally graded material(FGM)through directed energy deposition(DED)can satisfy the demands for precision devices in aerospace,providing lightweight properties and integrating thermal stability and vibration damping capabilities.However,basic research on Invar/MnCu FGM is still lacking,hindering its potential applications.To address this gap,this study was conducted using mixed powders and consistent process parameters to print experiments for Invar/MnCu FGM and homogeneous samples.Phases,microstructures,compositions,and thermal expansion properties were thoroughly examined.Three types of defects were detected in the Invar/MnCu FGM sample:unmelted Invar 36 powders,cracks,and pores.The mechanism of unmelted powders was deeply discussed,attributing it to material properties influencing laser absorptivity,the required time for melting powder,and effects on solidus temperature.The mechanism of cracks was also discussed,attributing it to theγ-Fe dendritic structure causing low melting point metal to form an intergranular liquid film,harmful secondary phases mismatched with the terminal alloy,and obvious tensile stresses during the DED process.Additionally,an effective strategy was proposed to reduce defects in Invar/MnCu FGM.After optimization,the specimens exhibited excellent tensile properties,with a yield strength of 262±5 MPa,an ultimate tensile strength of 316±7 MPa,and an elongation of 3%±1%.This research provides valuable references and insights for subsequent work,offering robust support for better understanding and designing other FGM.展开更多
The pre-alloyed TiB_(2)/AlSi10Mg composite,a new high-strength aluminum alloy developed for laser pow-der bed fusion(LPBF)technology,offers promising applications in lightweight and multi-scaled structures.However,the...The pre-alloyed TiB_(2)/AlSi10Mg composite,a new high-strength aluminum alloy developed for laser pow-der bed fusion(LPBF)technology,offers promising applications in lightweight and multi-scaled structures.However,thermal behavior during LPBF is markedly scale-dependent,leading to microstructural varia-tions that significantly affect the load-bearing capacity of multi-scaled structures.Therefore,this study systematically investigates the scale-dependent behavior of microstructure characteristics of this com-posite.Utilizing a hatching scanning strategy,it was found that the marginal zones of samples are pre-dominantly composed of coarse Al cell and Al grain structures,contrasting with the fine microstructures in the central zones.With increasing structure scale,cell and grain structures in both the marginal and central zones become more refined,with cell sizes reducing by 49%-72%(∼3.02μm→0.86-1.55μm).Particularly,the minimum-scaled structures also feature broken eutectic Si particles and nanopores.The essence is primarily due to the low heat dissipation with higher peak temperature and longer duration time at high temperatures in both the small-scale structures and marginal zones.Additionally,smaller structures correlate with reduced microhardness and tensile strength,accompanied by the“softening”of the marginal zones.The strength of the minimum-scaled structure is only half that of the standard sample.Our findings suggest a scale threshold of 2.0 mm for researching scale effect.Encouragingly,in-corporating additional contour scanning significantly counteracts the adverse influence of the scale effect.Owing to the combined influence of extended inter-layer time and laser remelting,all samples demon-strate a distinctly refined microstructure.This results in consistently high levels of microhardness and strength,with the“hardening”of the marginal zones.Eventually,the relationship between mechanical properties and microstructure sizes is established.This study provides valuable insights into the innova-tive designs and engineering applications of multi-scaled structures in LPBF using various materials.展开更多
A graphite carbon nitride(g-C3N4)modified Bi4O5I2 composite was successfully prepared insitu via the thermal treatment of a g-C3N4/Bi OI precursor at 400°C for 3 hr.The as-prepared g-C3N4/Bi4O5I2 showed high phot...A graphite carbon nitride(g-C3N4)modified Bi4O5I2 composite was successfully prepared insitu via the thermal treatment of a g-C3N4/Bi OI precursor at 400°C for 3 hr.The as-prepared g-C3N4/Bi4O5I2 showed high photocatalytic performance in Methyl Orange(MO)degradation under visible light.The best sample presented a degradation rate of 0.164 min^-1,which is 3.2 and 82 times as high as that of Bi4O5I2 and g-C3N4,respectively.The g-C3N4/Bi4O5I2 was characterized by X-ray powder diffractometer(XRD),scanning electron microscopy(SEM),transmission electron microscopy(TEM),Raman,X-ray photoelectron spectroscopy(XPS),ultraviolet-visible diffuse reflectance spectra(DRS),electrochemical impedance spectroscopy(EIS)and transient photocurrent response in order to explain the enhanced photoactivity.Results indicated that the decoration with a small amount of g-C3N4 influenced the specific surface area only slightly.Nevertheless,the capability for absorbing visible light was improved measurably,which was beneficial to the MO degradation.On top of that,a strong interaction between g-C3N4 and Bi4O5I2 was detected.This interplay promoted the formation of a favorable heterojunction structure and thereby enhanced the charge separation.Thus,the g-C3N4/Bi4O5I2 composite presented greater charge separation efficiency and much better photocatalytic performance than Bi4O5I2.Additionally,g-C3N4/Bi4O5I2 also presented high stability.·O2^- and holes were verified to be the main reactive species.展开更多
BACKGROUND Although previous studies have confirmed the feasibility of magnetic compression anastomosis(MCA),there is still a risk of long-term anastomotic stenosis.For traditional MCA devices,a large device is associ...BACKGROUND Although previous studies have confirmed the feasibility of magnetic compression anastomosis(MCA),there is still a risk of long-term anastomotic stenosis.For traditional MCA devices,a large device is associated with great pressure,and eventually increased leakage.AIM To develop a novel MCA device to simultaneously meet the requirements of pressure and size.METHODS Traditional nummular MCA devices of all possible sizes were used to conduct ileac anastomosis in rats.The mean(±SD)circumference of the ileum was 13.34±0.12 mm.Based on short-and long-term follow-up results,we determined the appropriate pressure range and minimum size.Thereafter,we introduced a novel“fedora-type”MCA device,which entailed the use of a nummular magnet with a larger sheet metal.RESULTS With traditional MCA devices,the anastomoses experienced stenosis and even closure during the long-term follow-up when the anastomat was smaller thanΦ5 mm.However,the risk of leakage increased when it was larger thanΦ4 mm.On comparison of the different designs,it was found that the“fedora-type”MCA device should be composed of aΦ4-mm nummular magnet with aΦ6-mm sheet metal.CONCLUSION The diameter of the MCA device should be greater than 120%of the enteric diameter.The novel“fedora-type”MCA device controls the pressure and optimizes the size.展开更多
Although a variety of processing routes were developed to in-situ manipulate microstructure for fabricating high-performance Ti-6Al-4 V alloy by directed energy deposition(DED),the in-situ microstructural control abil...Although a variety of processing routes were developed to in-situ manipulate microstructure for fabricating high-performance Ti-6Al-4 V alloy by directed energy deposition(DED),the in-situ microstructural control ability has been limited and lead to a narrowed mechanical property control range.This work proved the microstructural correlation betweenβ-grains andα-laths resulting from the unique thermal characteristics of DED for the first time and solved such a dilemma through synchronous induction heating assisted laser deposition(SILD)technology.The results confirmed that the laser energy and inductive energy have a different effect on the solidification and solid phase transformation conditions.By adjusting the laser-induction parameters,the microstructural correlation can be tuned;theβ-grains andα-laths can be controlled relatively separately,thereby significantly enhancing the ductility of as-deposited sample(elongation from 14.2%to 20.1%).Furthermore,the mechanical properties of the tuned microstructures are even comparable to that of DED Ti-6Al-4 V with post heat treatment,which indicates that the potential of SILD to be a one-step manufacturing process to fabricate high performance components without post heat treatment.Furthermore,the tensile testing results of the tuned microstructures indicate thatα-lath size is more influential on the mechanical properties than theβ-grain size due to its stronger hindering effect on the slipping of dislocations.This work promotes the understanding of the microstructural formation mechanism in DED titanium alloy and proves that the combination of synchronous induction and laser can expand the ability to control the microstructure and properties of multi-layer deposition.展开更多
Laser powder bed fusion(L-PBF)of Sc/Zr-modified Al-based alloys has recently become a promising method for developing a new generation of high-performance Al alloys.To clarify the modification roles of Sc/Zr elements,...Laser powder bed fusion(L-PBF)of Sc/Zr-modified Al-based alloys has recently become a promising method for developing a new generation of high-performance Al alloys.To clarify the modification roles of Sc/Zr elements,an Al–4.66Mg–0.48Mn–0.72Sc–0.33Zr(wt.%)alloy was processed using L-PBF.The effect of the local solidification condition of the molten pool on the precipitation behavior of primary Al_(3)(Sc,Zr)was analyzed based on time-dependent nucleation theory.It was found that primary Al_(3)(Sc,Zr)inevitably precipitated at the fusion boundary,while its precipitation could be effectively suppressed in the inner region of the molten pool.This subsequently induced the formation of a heterogeneousα-Al matrix.After direct aging,the heredity of solidification microstructure introduced heterogeneous secondary Al_(3)(Sc,Zr)precipitates withinα-Al matrix.Owing to the inverse relationship between grain boundary strengthening and precipitation strengthening,the direct-aged sample with dual heterogeneous structures exhibited reduced mechanical heterogeneity,resulting in lowered hetero-deformation-induced hardening.The low strain-hardening capability in the direct-aged sample promoted necking instability while inducing a large Lüders elongation,which effectively improved the tensile ductility.展开更多
AIM To explore the possible relationship between fecal microbial communities and non-anastomotic stricture(NAS) after liver transplantation(LT).METHODS A total of 30 subjects including 10 patients with NAS, 10 patient...AIM To explore the possible relationship between fecal microbial communities and non-anastomotic stricture(NAS) after liver transplantation(LT).METHODS A total of 30 subjects including 10 patients with NAS, 10 patients with no complications after LT, and 10 nonLT healthy individuals were enrolled. Fecal microbial communities were assessed by the 16 S r RNA gene sequencing technology.RESULTS Different from the uncomplicated and healthy groups, unbalanced fecal bacterium ratio existed in patients with NAS after LT. The results showed that NAS patients were associated with a decrease of Firmicutes and Bacteroidetes and an increase of Proteobacteria at the phylum level, with the proportion-ratio imbalance between potential pathogenic families including Enterococcaceae, Streptococcaceae, Enterobacteriaceae, Pseudomonadaceae and dominant families including Bacteroidaceae. CONCLUSION The compositional shifts of the increase of potential pathogenic bacteria as well as the decrease of dominant bacteria might contribute to the incidence of NAS.展开更多
The corrosion behaviour of 316L and Alloy 625 was investigated using cyclic polarization,electrochemical impedance spectroscopy,X-ray photoelectron spectroscopy,Auger electron spectroscopy and induced coupled plasma-o...The corrosion behaviour of 316L and Alloy 625 was investigated using cyclic polarization,electrochemical impedance spectroscopy,X-ray photoelectron spectroscopy,Auger electron spectroscopy and induced coupled plasma-optical emis sion spectrometer.The results indicated that Alloy 625 showed better corrosion resistance than 316L and the prolonging immersion time could enhance corrosion resistance of the two alloys.The passive film formed on the surface of 316L exhibited an electronic structure of p-p heterojunction,with Fe3O4 and Cr2O3 enriched in the outer and inner layers,respectively.However,Alloy 625 presented the electronic structure of n-p heterojunction dominated by the outer Fe2O3/NiFe2O4 and inner Cr2O3.This resulted in the opposite semiconductive properties of the passive films formed on the two materials.In the acid solutions,Fe and Mo suffered from selective dissolution while Cr and Ni were relatively stable.The corrosion rates were mainly dominated by the dissolution of iron.Alloy 625 presented better corrosion resistance than 316L due to the obviously lower content of Fe and the higher content of Cr and Ni in the passive film.The continuously selective dissolution of iron resulted in the increase in Cr/Fe ratio in the passive film,which was responsible for the enhancement in corrosion resistance.展开更多
Background:Although laparoscopic technology has achieved rapid development in the surgical field,it has not been applied to liver transplantation,primarily because of difficulties associated with laparoscopic vascular...Background:Although laparoscopic technology has achieved rapid development in the surgical field,it has not been applied to liver transplantation,primarily because of difficulties associated with laparoscopic vascular anastomosis.In this study,we introduced a new magnetic-assisted vascular anastomosis technique and explored its application in laparoscopic liver transplantation in pigs.Methods:Two sets of magnetic vascular anastomosis rings(MVARs)with different diameters were developed.One set was used for anastomosis of the suprahepatic vena cava(SHVC)and the other set was used for anastomosis of the infrahepatic vena cava(IHVC)and portal vein(PV).Six laparoscopic orthotopic liver transplantations were performed in pigs.Donor liver was obtained via open surgery.Hepatectomy was performed in the recipients through laparoscopic surgery.Anastomosis of the SHVC was performed using hand-assisted magnetic anastomosis,and the anastomosis of the IHVC and PV was performed by magnetic anastomosis with or without hand assistance.Results:Liver transplants were successfully performed in five of the six cases.Postoperative ultrasonographic examination showed that the portal inflow was smooth.However,PV bending and blood flow obstruction occurred in one case because the MVARs were attached to each other.The durations of loading of MVAR in the laparoscope group and manual assistance group for IHVC and PV were 13±5 vs.5±1 min(P<0.01)and 10±2 vs.4±1 min(P<0.05),respectively.The durations of MVAR anastomosis in the laparoscope group and manual assistance group for IHVC and PV were 5±1 vs.1±1 min(P<0.01),and 5±1 vs.1±1 min(P<0.01),respectively.The anhepatic phase was 43±4 min in the laparoscope group and 23±2 min in the manual assistance group(P<0.01).Conclusions:Our study showed that magnetic-assisted laparoscopic liver transplantation can be successfully carried out in pigs.展开更多
BACKGROUND Hyperuricemia(HUA)is a public health concern that needs to be solved urgently.The lyophilized powder of Poecilobdella manillensis has been shown to significantly alleviate HUA;however,its underlying metabol...BACKGROUND Hyperuricemia(HUA)is a public health concern that needs to be solved urgently.The lyophilized powder of Poecilobdella manillensis has been shown to significantly alleviate HUA;however,its underlying metabolic regulation remains unclear.AIM To explore the underlying mechanisms of Poecilobdella manillensis in HUA based on modulation of the gut microbiota and host metabolism.METHODS A mouse model of rapid HUA was established using a high-purine diet and potassium oxonate injections.The mice received oral drugs or saline.Additionally,16S rRNA sequencing and ultra-high performance liquid chromatography with quadrupole time-of-flight mass spectrometry-based untargeted metabolomics were performed to identify changes in the microbiome and host metabolome,respectively.The levels of uric acid transporters and epithelial tight junction proteins in the renal and intestinal tissues were analyzed using an enzyme-linked immunosorbent assay.RESULTS The protein extract of Poecilobdella manillensis lyophilized powder(49 mg/kg)showed an enhanced anti-trioxypurine ability than that of allopurinol(5 mg/kg)(P<0.05).A total of nine bacterial genera were identified to be closely related to the anti-trioxypurine activity of Poecilobdella manillensis powder,which included the genera of Prevotella,Delftia,Dialister,Akkermansia,Lactococcus,Escherichia_Shigella,Enterococcus,and Bacteroides.Furthermore,22 metabolites in the serum were found to be closely related to the anti-trioxypurine activity of Poecilobdella manillensis powder,which correlated to the Kyoto Encyclopedia of Genes and Genomes pathways of cysteine and methionine metabolism,sphingolipid metabolism,galactose metabolism,and phenylalanine,tyrosine,and tryptophan biosynthesis.Correlation analysis found that changes in the gut microbiota were significantly related to these metabolites.CONCLUSION The proteins in Poecilobdella manillensis powder were effective for HUA.Mechanistically,they are associated with improvements in gut microbiota dysbiosis and the regulation of sphingolipid and galactose metabolism.展开更多
Columnar grain structure caused anisotropy in mechanical properties,especially in elongation,is an important concern for Ti-6Al-4 V alloy fabricated by directed energy deposition(DED).Several strategies have been prop...Columnar grain structure caused anisotropy in mechanical properties,especially in elongation,is an important concern for Ti-6Al-4 V alloy fabricated by directed energy deposition(DED).Several strategies have been proposed to reduce anisotropy by globularizing the grains,but these conventional approaches are costly and inefficient due to challenges faced during producing the columnarβ-grain structures.However,understanding the impact of columnar grain-related microstructures on the anisotropic deformation behavior is still necessary.Despite the recognition of the importance of grain boundary Widmannstättenαcolony(αWGB)as a grain-related microstructure,it has received limited attention in available literature on anisotropy in mechanical properties.This study employed in-situ induction heating during DED to controlαWGB formation,yielding three Ti-6Al-4 V samples with varyingαWGB sizes.Anisotropic deforma-tion ofαWGB and its impact on elongation in build and transverse directions were analyzed.αWGB width grew from 0.5μm to 32.4μm via diffusion-controlled growth due to reduced cooling rate.Transverse deformation led to dislocation movement and accumulation,causing early failure and worsened ductile anisotropy withinαWGB.Notably,largerαWGB size significantly exacerbated anisotropy in ductility.This work underscoresαWGB’s role in anisotropic deformation and offers insights for optimizing mechanical properties in DED-fabricated titanium alloys.展开更多
Mechanosensation is an important process in biological fluid-structure interaction. To understand the biophysics underlying mechanosensation, it is essential to quantify the correlation between membrane deformation, m...Mechanosensation is an important process in biological fluid-structure interaction. To understand the biophysics underlying mechanosensation, it is essential to quantify the correlation between membrane deformation, membrane tension, external fluid shear stress, and conformation of mechanosensitive (MS) channels. Smoothed dissipative particle dynamics (SDPD) simulations of vesicle/cell in three types of flow configurations are conducted to calculate the tension in lipid membrane due to fluid shear stress from the surrounding viscous flow. In combination with a simple continuum model for an MS channel, SDPD simulation results suggest that shearing adhered vesicles/cells is more effective to induce membrane tension sufficient to stretch MS channels open than a free shear flow or a constrictive channel flow. In addition, we incorporate the bilayer-cytoskeletal interaction in a two-component model to probe the effects of a cytoskeletal network on the gating of MS channels.展开更多
Rodents are popular biological models for physiological and behavioral research in neuroscience and rats are better models than mice due to their higher genome similarity to human and more accessible surgical procedur...Rodents are popular biological models for physiological and behavioral research in neuroscience and rats are better models than mice due to their higher genome similarity to human and more accessible surgical procedures.However,rat brain is larger than mice brain and it needs powerful imaging tools to implement better penetration against the scattering of the thicker brain tissue.Three-photon fluorescence microscopy(3PFM)combined with near-infrared(NIR)excitation has great potentials for brain circuits imaging beause of its abilities of anti scattering,deep-tissue imaging,and high signal-to-noise ratio(SNR).In this work,a type of AIE lumninogen with red fuorescence was synthesized and encapsulated with Pluronic F-127 to make up form nano-particles(NPs).Bright DCDPP-2TPA NPs were employed for in trino three-photon fuorescent laser scanning microscopy of blood vessels in rats brain under 1550 nm femtosecond laser exci-tation.A fine three-dimensional(3D)reconstruction up to the deepness of 600 pm was achieved and the blood flow velocity of a selected vessel was measured in vrito as well.Our 3PFM deep brain imaging method simultaneously recorded the morphology and function of the brain blood vessels in vivo in the rat model.Using this angiography combined with the arsenal of rodent's brain disease,models can accelerate the neuroscience research and clinical diagnosis of brain disease in the future.展开更多
D-Psicose,a naturally occurring rare sugar,exhibits a sweetness approximately 70%that of sucrose.It possesses high solubility,antioxidant activity,anti-inflammatory properties,and the ability to regulate cholesterol l...D-Psicose,a naturally occurring rare sugar,exhibits a sweetness approximately 70%that of sucrose.It possesses high solubility,antioxidant activity,anti-inflammatory properties,and the ability to regulate cholesterol levels and enhance insulin sensitivity.However,D-psicose is relatively scarce in nature,making large-scale extraction and utilization impractical.Consequently,the development of cost-effective synthetic strategies for D-psicose is pivotal for its industrial application.In recent years,the Izumoring strategy has emerged as an efficient alternative to chemical synthesis for producing D-psicose.Nonetheless,limitations in the biotransformation of D-psicose,primarily governed by the conversion rate of D-psicose 3-epimerase(DPEase)and enzyme yield,continue to pose challenges in achieving economically viable production.Enzyme engineering and the establishment of high-level expression systems remain crucial avenues for reducing the overall biosynthesis costs.展开更多
BACKGROUND:The molecular mechanism of sepsis-associated acute kidney injury(SA-AKI)is unclear.We analyzed co-differentially expressed genes(co-DEGs)to elucidate the underlying mechanism and intervention targets of SA-...BACKGROUND:The molecular mechanism of sepsis-associated acute kidney injury(SA-AKI)is unclear.We analyzed co-differentially expressed genes(co-DEGs)to elucidate the underlying mechanism and intervention targets of SA-AKI.METHODS:The microarray datasets GSE65682,GSE30718,and GSE174220 were downloaded from the Gene Expression Omnibus(GEO)database.We identified the co-DEGs and constructed a gene co-expression network to screen the hub genes.We analyzed immune correlations and disease correlations and performed functional annotation of the hub genes.We also performed single-cell and microenvironment analyses and investigated the enrichment pathways and the main transcription factors.Finally,we conducted a correlation analysis to evaluate the role of the hub genes.RESULTS:Interleukin 32(IL32)was identified as the hub gene in SA-AKI,and the main enriched signaling pathways were associated with hemopoiesis,cellular response to cytokine stimulus,inflammatory response,and regulation of kidney development.Additionally,IL32 was significantly associated with mortality in SA-AKI patients.Monocytes,macrophages,T cells,and NK cells were closely related to IL32 and were involved in the immune microenvironment in SA-AKI patients.IL32 expression increased significantly in the kidney of septic mouse.Toll-like receptor 2(TLR2)was significantly and negatively correlated with IL32.CONCLUSION:IL32 is the key gene involved in SA-AKI and is significantly associated with prognosis.TLR2 and relevant immune cells are closely related to key genes.展开更多
As a renewable carbon resource, biomass can be converted into polyols, aromatic hydrocarbons, alkanes, and other products by traditional catalytic liquefaction method, which has been widely used in production and life...As a renewable carbon resource, biomass can be converted into polyols, aromatic hydrocarbons, alkanes, and other products by traditional catalytic liquefaction method, which has been widely used in production and life. The efficient development and utilization of biomass energy will play a very positive role in solving the problems of energy and ecological environment. A way of combining the plasma electrolysis with traditional catalytic liquefaction realizes the efficient liquefaction of sawdust, which provides a new liquefaction way for traditional biomass conversion. In this experiment, the effects of solution composition, catalyst content and power supply on solution resistance and liquefaction rate are analyzed.It is found that solution composition and catalyst content have a great influence on solution resistance. The results show that the liquefaction rate is highest and the resistance is smallest when the solution resistance is 500 ?. The liquefaction rate is greatly affected by the solution temperature, and the solution temperature is determined by the output power between the two electrodes. The output power includes the heating power of the electric field and the discharge power of the plasma.We measure the electric potential field distribution in the solution and the plasma power. It is found that the output power between the two poles increases nonlinearly(from 0 to 270 W) with time. In two minutes, the electric field heating power increases from 0 to 105 W and then decreases to 70 W, while the plasma power increases from 0 to 200 W. It is well known that in the first 70 seconds of the experiment the electric field heating is dominant, and then the plasma heating turns into a main thermal source. In this paper, plasma electrolysis and traditional catalytic liquefaction are combined to achieve the efficient liquefaction of sawdust, which provides a new way for biomass liquefaction.展开更多
基金Supported by the National Natural Science Foundation of China,No.82260944the Key Research and Development Programs of Guangxi,No.2021AB09011。
文摘BACKGROUND Steroid-induced avascular necrosis of the femoral head(SANFH)involves bone metabolism imbalance and lacks effective therapies.Mesenchymal stem cells(MSCs),particularly human umbilical cord MSCs(hUCMSCs),offer promise due to their osteogenic and immunomodulatory potential.Sclerostin(SOST)inhibits bone formation,so we developed a multi-target gene silencing strategy against SOST using RNA interference.We created hUCMSCs with SOST-silenced(sh-hUCMSCs)and compared their therapeutic efficacy with unmodified hUCMSCs in SANFH mice.This study explores a novel approach to enhance osteogenesis and mitigate SANFH progression.AIM To assess the effects of sh-hUCMSCs on bone metabolism in SANFH.METHODS hUCMSCs were isolated from placental tissue and transfected with SOST-targeting short hairpin RNA plasmids.A SANFH mouse model was established through intraperitoneal injection of lipopolysaccharide(20μg/kg)followed by intramuscular methylprednisolone administration(40 mg/kg).Mice were randomized into four experimental groups(n=10/group):Sham control,SANFH(untreated),hUCMSCs-treated,and sh-hUCMSCs-treated.Micro-computed tomography was used to measure bone volume(BV),bone surface area,bone surface/BV ratio,tra-becular number,trabecular thickness,and trabecular separation.Quantification of adipocyte area by hematoxylin and eosin staining.Collagen fiber volume was assessed by Masson’s trichrome staining.Serum levels of osteopro-tegerin(OPG),receptor activator of nuclear factor kappa B(RANK),RANK ligand(RANKL),tartrate-resistant acid phosphatase,and the OPG/RANKL ratio were measured by enzyme-linked immunosorbent assay.The expression levels of alkaline phosphatase,OPG,SOST,β-catenin,peroxisome proliferator-activated receptor gamma,and CCAAT/enhancer-binding protein in bone tissue were determined by western blot analysis.RESULTS hUCMSCs and sh-hUCMSCs exhibited typical fibroblast-like morphology and high expression of MSC surface markers(CD90,CD73,CD105>98%).These cells demonstrated tri-lineage differentiation potential,confirmed by positive Alizarin Red S,Oil Red O,and Alcian Blue staining,and upregulation of lineage-specific genes.After SOST-RNA interference modification,sh-hUCMSCs showed enhanced inhibition of adipogenesis and improved bone formation in a rat model of SANFH.Histological analysis revealed reduced lipid infiltration and empty lacunae in the femoral head of the sh-hUCMSC group.Western blot showed decreased CCAAT/enhancer-binding protein and peroxisome proliferator-activated receptor gamma expression(P<0.05).Masson staining and micro-computed tomography analysis confirmed significantly increased BV,trabecular number,trabecular thickness,and reduced trabecular separation in the sh-hUCMSC group compared to unmodified MSCs and SANFH groups(P<0.05).Serum enzyme-linked immunosorbent assay showed higher OPG and lower RANK,RANKL,and tartrate-resistant acid phosphatase levels in the sh-hUCMSCs group.Western blot further confirmed upregulated alkaline phosphatase,OPG,β-catenin,and downregulated SOST expression in sh-hUCMSCs compared to controls(P<0.05).These results suggest that SOST inhibition enhances the osteogenic potential and therapeutic efficacy of hUCMSCs in SANFH.CONCLUSION sh-hUCMSCs alleviate SANFH by activating the Wnt/β-catenin signaling pathway,thereby promoting osteogenic differentiation and suppressing adipogenesis to restore bone metabolic balance.
基金supported by the Ministry of Education of Human-ities and Social Science project,China(Grant No.21YJA630121)the National Key Technology R&D Program of Ministry of Science and Technology of China(Grant No.2023YFD1500103)+2 种基金the Tsinghua Rural Studies PhD Scholarship(Grant No.202323)2023 Gradu-ate Innovation Fund Project of China University of Geosciences,Beijing(Grant No.ZD2023YC043)National Social Science Fund of China(Grants No.19ZDA096 and 20&ZD090)。
文摘Conversion of dryland to paddy fields(CDPF)is an effective way to transition from rain-fed to irrigated agricul ture,helping to mitigate the effects of climate change on agriculture and increase yields to meet growing food demand.However,the suitability of CDPF is spatio-temporally dynamic but has often been neglected in previous studies.To fill this knowledge gap,this research developed a novel method for quantifying the suitability of CDPF,based on the MaxEnt model for application in Northeast China.We explored the spatiotemporal characteristics of the suitability of CDPF under the baseline scenario(2010-2020),and future projections(2030-2090)coupled with climate change and socioeconomic development scenarios(SSP126,SSP245,and SSP585),and revealed the driving factors behind it.Based on this,we identified potential priority areas for future CDPF implementation.The results show that the suitability of CDPF projects implemented in the past ten years is relatively high.Com pared with the baseline scenario,the suitability of CDPF under the future scenarios will decline overall,with the lightest decrease in the RCP585 and the most severe decrease in the RCP245.The key drivers affecting the suitability of CDPF are elevation,slope,population count,total nitrogen,soil organic carbon content,and precip itation seasonality.The potential priority areas for the future CDPF range from 6,284.61 km^(2)to 37,006.02 km^(2).These findings demonstrate the challenges of CDPF in adapting to climate change and food security,and provide insights for food-producing regions around the world facing climate crises.
基金supported by the National Key Research and Development Program of China(Nos.2022YFB4600300 and 2022YFB4600301)the National Natural Science Foundation of China(No.52175364)+1 种基金the ND Basic Research Funds of NPU(G2022WD)the Research Fund of the State Key Laboratory of Solidification Processing(NPU),China(No.2023-QZ-04).
文摘The fabrication of Invar/MnCu functionally graded material(FGM)through directed energy deposition(DED)can satisfy the demands for precision devices in aerospace,providing lightweight properties and integrating thermal stability and vibration damping capabilities.However,basic research on Invar/MnCu FGM is still lacking,hindering its potential applications.To address this gap,this study was conducted using mixed powders and consistent process parameters to print experiments for Invar/MnCu FGM and homogeneous samples.Phases,microstructures,compositions,and thermal expansion properties were thoroughly examined.Three types of defects were detected in the Invar/MnCu FGM sample:unmelted Invar 36 powders,cracks,and pores.The mechanism of unmelted powders was deeply discussed,attributing it to material properties influencing laser absorptivity,the required time for melting powder,and effects on solidus temperature.The mechanism of cracks was also discussed,attributing it to theγ-Fe dendritic structure causing low melting point metal to form an intergranular liquid film,harmful secondary phases mismatched with the terminal alloy,and obvious tensile stresses during the DED process.Additionally,an effective strategy was proposed to reduce defects in Invar/MnCu FGM.After optimization,the specimens exhibited excellent tensile properties,with a yield strength of 262±5 MPa,an ultimate tensile strength of 316±7 MPa,and an elongation of 3%±1%.This research provides valuable references and insights for subsequent work,offering robust support for better understanding and designing other FGM.
基金supported by the National Key Research and Development Program of China(Nos.2022YFB4600300 and 2022YFB4600301)the Research Fund of the State Key Laboratory of Solidification Processing(NPU)(No.2023-QZ-04)+3 种基金the ND Basic Research Funds of NPU(No.G2022WD)the National Natural Science Foundation of China(No.52175364)the Shenzhen Science and Technology Plan Project(No.JCYJ20180508151903646)the Science and Technology Plan of Xi’an City(No.2023JH-ZCGJ-0141).
文摘The pre-alloyed TiB_(2)/AlSi10Mg composite,a new high-strength aluminum alloy developed for laser pow-der bed fusion(LPBF)technology,offers promising applications in lightweight and multi-scaled structures.However,thermal behavior during LPBF is markedly scale-dependent,leading to microstructural varia-tions that significantly affect the load-bearing capacity of multi-scaled structures.Therefore,this study systematically investigates the scale-dependent behavior of microstructure characteristics of this com-posite.Utilizing a hatching scanning strategy,it was found that the marginal zones of samples are pre-dominantly composed of coarse Al cell and Al grain structures,contrasting with the fine microstructures in the central zones.With increasing structure scale,cell and grain structures in both the marginal and central zones become more refined,with cell sizes reducing by 49%-72%(∼3.02μm→0.86-1.55μm).Particularly,the minimum-scaled structures also feature broken eutectic Si particles and nanopores.The essence is primarily due to the low heat dissipation with higher peak temperature and longer duration time at high temperatures in both the small-scale structures and marginal zones.Additionally,smaller structures correlate with reduced microhardness and tensile strength,accompanied by the“softening”of the marginal zones.The strength of the minimum-scaled structure is only half that of the standard sample.Our findings suggest a scale threshold of 2.0 mm for researching scale effect.Encouragingly,in-corporating additional contour scanning significantly counteracts the adverse influence of the scale effect.Owing to the combined influence of extended inter-layer time and laser remelting,all samples demon-strate a distinctly refined microstructure.This results in consistently high levels of microhardness and strength,with the“hardening”of the marginal zones.Eventually,the relationship between mechanical properties and microstructure sizes is established.This study provides valuable insights into the innova-tive designs and engineering applications of multi-scaled structures in LPBF using various materials.
基金financially supported by National Undergraduate Training Program for Innovation and Entrepreneurship(Nos.201810345012 and 201810345051)
文摘A graphite carbon nitride(g-C3N4)modified Bi4O5I2 composite was successfully prepared insitu via the thermal treatment of a g-C3N4/Bi OI precursor at 400°C for 3 hr.The as-prepared g-C3N4/Bi4O5I2 showed high photocatalytic performance in Methyl Orange(MO)degradation under visible light.The best sample presented a degradation rate of 0.164 min^-1,which is 3.2 and 82 times as high as that of Bi4O5I2 and g-C3N4,respectively.The g-C3N4/Bi4O5I2 was characterized by X-ray powder diffractometer(XRD),scanning electron microscopy(SEM),transmission electron microscopy(TEM),Raman,X-ray photoelectron spectroscopy(XPS),ultraviolet-visible diffuse reflectance spectra(DRS),electrochemical impedance spectroscopy(EIS)and transient photocurrent response in order to explain the enhanced photoactivity.Results indicated that the decoration with a small amount of g-C3N4 influenced the specific surface area only slightly.Nevertheless,the capability for absorbing visible light was improved measurably,which was beneficial to the MO degradation.On top of that,a strong interaction between g-C3N4 and Bi4O5I2 was detected.This interplay promoted the formation of a favorable heterojunction structure and thereby enhanced the charge separation.Thus,the g-C3N4/Bi4O5I2 composite presented greater charge separation efficiency and much better photocatalytic performance than Bi4O5I2.Additionally,g-C3N4/Bi4O5I2 also presented high stability.·O2^- and holes were verified to be the main reactive species.
文摘BACKGROUND Although previous studies have confirmed the feasibility of magnetic compression anastomosis(MCA),there is still a risk of long-term anastomotic stenosis.For traditional MCA devices,a large device is associated with great pressure,and eventually increased leakage.AIM To develop a novel MCA device to simultaneously meet the requirements of pressure and size.METHODS Traditional nummular MCA devices of all possible sizes were used to conduct ileac anastomosis in rats.The mean(±SD)circumference of the ileum was 13.34±0.12 mm.Based on short-and long-term follow-up results,we determined the appropriate pressure range and minimum size.Thereafter,we introduced a novel“fedora-type”MCA device,which entailed the use of a nummular magnet with a larger sheet metal.RESULTS With traditional MCA devices,the anastomoses experienced stenosis and even closure during the long-term follow-up when the anastomat was smaller thanΦ5 mm.However,the risk of leakage increased when it was larger thanΦ4 mm.On comparison of the different designs,it was found that the“fedora-type”MCA device should be composed of aΦ4-mm nummular magnet with aΦ6-mm sheet metal.CONCLUSION The diameter of the MCA device should be greater than 120%of the enteric diameter.The novel“fedora-type”MCA device controls the pressure and optimizes the size.
基金supported by the National Natural Science Foundation of China(Grant No.51475380)the National Key Research and Development Program of China(No.2018YFB1106302)+1 种基金the Fundamental Research Funds for the Central Universities(Grant No.3102020MS0402)the fund of the State Key Laboratory of Solidification Processing in NWPU(Grant No.SKLSP202110)。
文摘Although a variety of processing routes were developed to in-situ manipulate microstructure for fabricating high-performance Ti-6Al-4 V alloy by directed energy deposition(DED),the in-situ microstructural control ability has been limited and lead to a narrowed mechanical property control range.This work proved the microstructural correlation betweenβ-grains andα-laths resulting from the unique thermal characteristics of DED for the first time and solved such a dilemma through synchronous induction heating assisted laser deposition(SILD)technology.The results confirmed that the laser energy and inductive energy have a different effect on the solidification and solid phase transformation conditions.By adjusting the laser-induction parameters,the microstructural correlation can be tuned;theβ-grains andα-laths can be controlled relatively separately,thereby significantly enhancing the ductility of as-deposited sample(elongation from 14.2%to 20.1%).Furthermore,the mechanical properties of the tuned microstructures are even comparable to that of DED Ti-6Al-4 V with post heat treatment,which indicates that the potential of SILD to be a one-step manufacturing process to fabricate high performance components without post heat treatment.Furthermore,the tensile testing results of the tuned microstructures indicate thatα-lath size is more influential on the mechanical properties than theβ-grain size due to its stronger hindering effect on the slipping of dislocations.This work promotes the understanding of the microstructural formation mechanism in DED titanium alloy and proves that the combination of synchronous induction and laser can expand the ability to control the microstructure and properties of multi-layer deposition.
基金financially supported by the National Key Research and Development Program of China(Nos.2018YFB1106302 and 2016YFB1100104)the National Natural Science Foundation of China(No.52005411)。
文摘Laser powder bed fusion(L-PBF)of Sc/Zr-modified Al-based alloys has recently become a promising method for developing a new generation of high-performance Al alloys.To clarify the modification roles of Sc/Zr elements,an Al–4.66Mg–0.48Mn–0.72Sc–0.33Zr(wt.%)alloy was processed using L-PBF.The effect of the local solidification condition of the molten pool on the precipitation behavior of primary Al_(3)(Sc,Zr)was analyzed based on time-dependent nucleation theory.It was found that primary Al_(3)(Sc,Zr)inevitably precipitated at the fusion boundary,while its precipitation could be effectively suppressed in the inner region of the molten pool.This subsequently induced the formation of a heterogeneousα-Al matrix.After direct aging,the heredity of solidification microstructure introduced heterogeneous secondary Al_(3)(Sc,Zr)precipitates withinα-Al matrix.Owing to the inverse relationship between grain boundary strengthening and precipitation strengthening,the direct-aged sample with dual heterogeneous structures exhibited reduced mechanical heterogeneity,resulting in lowered hetero-deformation-induced hardening.The low strain-hardening capability in the direct-aged sample promoted necking instability while inducing a large Lüders elongation,which effectively improved the tensile ductility.
基金Supported by the National Natural Science Foundation of China,No.81470896
文摘AIM To explore the possible relationship between fecal microbial communities and non-anastomotic stricture(NAS) after liver transplantation(LT).METHODS A total of 30 subjects including 10 patients with NAS, 10 patients with no complications after LT, and 10 nonLT healthy individuals were enrolled. Fecal microbial communities were assessed by the 16 S r RNA gene sequencing technology.RESULTS Different from the uncomplicated and healthy groups, unbalanced fecal bacterium ratio existed in patients with NAS after LT. The results showed that NAS patients were associated with a decrease of Firmicutes and Bacteroidetes and an increase of Proteobacteria at the phylum level, with the proportion-ratio imbalance between potential pathogenic families including Enterococcaceae, Streptococcaceae, Enterobacteriaceae, Pseudomonadaceae and dominant families including Bacteroidaceae. CONCLUSION The compositional shifts of the increase of potential pathogenic bacteria as well as the decrease of dominant bacteria might contribute to the incidence of NAS.
基金the National Natural Science Foundation of China(81672520,81870484,61975172,and 82001874,used for procurement of materials and labor cost)Science and Technology Planning Project of Zhejiang(2019C03089,used for procurement of materials)Zhejiang Provincial Natural Science Foundation of China(LR17F050001,used for procurement of materials).
基金financially supported by the Fundamental Research Funds for the Central Universities (No.FRFIC-18-007)the China Postdoctoral Science Foundation(No. 2019M650487).
文摘The corrosion behaviour of 316L and Alloy 625 was investigated using cyclic polarization,electrochemical impedance spectroscopy,X-ray photoelectron spectroscopy,Auger electron spectroscopy and induced coupled plasma-optical emis sion spectrometer.The results indicated that Alloy 625 showed better corrosion resistance than 316L and the prolonging immersion time could enhance corrosion resistance of the two alloys.The passive film formed on the surface of 316L exhibited an electronic structure of p-p heterojunction,with Fe3O4 and Cr2O3 enriched in the outer and inner layers,respectively.However,Alloy 625 presented the electronic structure of n-p heterojunction dominated by the outer Fe2O3/NiFe2O4 and inner Cr2O3.This resulted in the opposite semiconductive properties of the passive films formed on the two materials.In the acid solutions,Fe and Mo suffered from selective dissolution while Cr and Ni were relatively stable.The corrosion rates were mainly dominated by the dissolution of iron.Alloy 625 presented better corrosion resistance than 316L due to the obviously lower content of Fe and the higher content of Cr and Ni in the passive film.The continuously selective dissolution of iron resulted in the increase in Cr/Fe ratio in the passive film,which was responsible for the enhancement in corrosion resistance.
基金supported by a grant from the Key R&D Project of Shaanxi Province(No.2020GXLH-Z-001)。
文摘Background:Although laparoscopic technology has achieved rapid development in the surgical field,it has not been applied to liver transplantation,primarily because of difficulties associated with laparoscopic vascular anastomosis.In this study,we introduced a new magnetic-assisted vascular anastomosis technique and explored its application in laparoscopic liver transplantation in pigs.Methods:Two sets of magnetic vascular anastomosis rings(MVARs)with different diameters were developed.One set was used for anastomosis of the suprahepatic vena cava(SHVC)and the other set was used for anastomosis of the infrahepatic vena cava(IHVC)and portal vein(PV).Six laparoscopic orthotopic liver transplantations were performed in pigs.Donor liver was obtained via open surgery.Hepatectomy was performed in the recipients through laparoscopic surgery.Anastomosis of the SHVC was performed using hand-assisted magnetic anastomosis,and the anastomosis of the IHVC and PV was performed by magnetic anastomosis with or without hand assistance.Results:Liver transplants were successfully performed in five of the six cases.Postoperative ultrasonographic examination showed that the portal inflow was smooth.However,PV bending and blood flow obstruction occurred in one case because the MVARs were attached to each other.The durations of loading of MVAR in the laparoscope group and manual assistance group for IHVC and PV were 13±5 vs.5±1 min(P<0.01)and 10±2 vs.4±1 min(P<0.05),respectively.The durations of MVAR anastomosis in the laparoscope group and manual assistance group for IHVC and PV were 5±1 vs.1±1 min(P<0.01),and 5±1 vs.1±1 min(P<0.01),respectively.The anhepatic phase was 43±4 min in the laparoscope group and 23±2 min in the manual assistance group(P<0.01).Conclusions:Our study showed that magnetic-assisted laparoscopic liver transplantation can be successfully carried out in pigs.
基金Supported by National Natural Science Foundation of China,No.82160843.
文摘BACKGROUND Hyperuricemia(HUA)is a public health concern that needs to be solved urgently.The lyophilized powder of Poecilobdella manillensis has been shown to significantly alleviate HUA;however,its underlying metabolic regulation remains unclear.AIM To explore the underlying mechanisms of Poecilobdella manillensis in HUA based on modulation of the gut microbiota and host metabolism.METHODS A mouse model of rapid HUA was established using a high-purine diet and potassium oxonate injections.The mice received oral drugs or saline.Additionally,16S rRNA sequencing and ultra-high performance liquid chromatography with quadrupole time-of-flight mass spectrometry-based untargeted metabolomics were performed to identify changes in the microbiome and host metabolome,respectively.The levels of uric acid transporters and epithelial tight junction proteins in the renal and intestinal tissues were analyzed using an enzyme-linked immunosorbent assay.RESULTS The protein extract of Poecilobdella manillensis lyophilized powder(49 mg/kg)showed an enhanced anti-trioxypurine ability than that of allopurinol(5 mg/kg)(P<0.05).A total of nine bacterial genera were identified to be closely related to the anti-trioxypurine activity of Poecilobdella manillensis powder,which included the genera of Prevotella,Delftia,Dialister,Akkermansia,Lactococcus,Escherichia_Shigella,Enterococcus,and Bacteroides.Furthermore,22 metabolites in the serum were found to be closely related to the anti-trioxypurine activity of Poecilobdella manillensis powder,which correlated to the Kyoto Encyclopedia of Genes and Genomes pathways of cysteine and methionine metabolism,sphingolipid metabolism,galactose metabolism,and phenylalanine,tyrosine,and tryptophan biosynthesis.Correlation analysis found that changes in the gut microbiota were significantly related to these metabolites.CONCLUSION The proteins in Poecilobdella manillensis powder were effective for HUA.Mechanistically,they are associated with improvements in gut microbiota dysbiosis and the regulation of sphingolipid and galactose metabolism.
基金supported by the National Key Research and Development Program of China(Nos.2022YFB4600300 and 2022YFB4600301)the National Natural Science Foundation of China(No.52175364)+3 种基金the ND Basic Research Funds(No.G2022WD)the Shenzhen Science and Technology Plan Project(No.JCYJ20180508151903646)the Key Research and Development Program of Shaanxi(No.2023-YBGY-359)the Science and Technology Plan of Xi’an City(No.21ZCZZHXJS-QCY6-0001).
文摘Columnar grain structure caused anisotropy in mechanical properties,especially in elongation,is an important concern for Ti-6Al-4 V alloy fabricated by directed energy deposition(DED).Several strategies have been proposed to reduce anisotropy by globularizing the grains,but these conventional approaches are costly and inefficient due to challenges faced during producing the columnarβ-grain structures.However,understanding the impact of columnar grain-related microstructures on the anisotropic deformation behavior is still necessary.Despite the recognition of the importance of grain boundary Widmannstättenαcolony(αWGB)as a grain-related microstructure,it has received limited attention in available literature on anisotropy in mechanical properties.This study employed in-situ induction heating during DED to controlαWGB formation,yielding three Ti-6Al-4 V samples with varyingαWGB sizes.Anisotropic deforma-tion ofαWGB and its impact on elongation in build and transverse directions were analyzed.αWGB width grew from 0.5μm to 32.4μm via diffusion-controlled growth due to reduced cooling rate.Transverse deformation led to dislocation movement and accumulation,causing early failure and worsened ductile anisotropy withinαWGB.Notably,largerαWGB size significantly exacerbated anisotropy in ductility.This work underscoresαWGB’s role in anisotropic deformation and offers insights for optimizing mechanical properties in DED-fabricated titanium alloys.
文摘Mechanosensation is an important process in biological fluid-structure interaction. To understand the biophysics underlying mechanosensation, it is essential to quantify the correlation between membrane deformation, membrane tension, external fluid shear stress, and conformation of mechanosensitive (MS) channels. Smoothed dissipative particle dynamics (SDPD) simulations of vesicle/cell in three types of flow configurations are conducted to calculate the tension in lipid membrane due to fluid shear stress from the surrounding viscous flow. In combination with a simple continuum model for an MS channel, SDPD simulation results suggest that shearing adhered vesicles/cells is more effective to induce membrane tension sufficient to stretch MS channels open than a free shear flow or a constrictive channel flow. In addition, we incorporate the bilayer-cytoskeletal interaction in a two-component model to probe the effects of a cytoskeletal network on the gating of MS channels.
基金supported by the Zhejiang Provincial Natural Science Foundation of China(LR17F050001 and LY17C090005)the National Natural Science Foundation of China(61735016 and 91632105)National Basic Research Program of China(973 Program,2013CB834701 and 2013CB834704).
文摘Rodents are popular biological models for physiological and behavioral research in neuroscience and rats are better models than mice due to their higher genome similarity to human and more accessible surgical procedures.However,rat brain is larger than mice brain and it needs powerful imaging tools to implement better penetration against the scattering of the thicker brain tissue.Three-photon fluorescence microscopy(3PFM)combined with near-infrared(NIR)excitation has great potentials for brain circuits imaging beause of its abilities of anti scattering,deep-tissue imaging,and high signal-to-noise ratio(SNR).In this work,a type of AIE lumninogen with red fuorescence was synthesized and encapsulated with Pluronic F-127 to make up form nano-particles(NPs).Bright DCDPP-2TPA NPs were employed for in trino three-photon fuorescent laser scanning microscopy of blood vessels in rats brain under 1550 nm femtosecond laser exci-tation.A fine three-dimensional(3D)reconstruction up to the deepness of 600 pm was achieved and the blood flow velocity of a selected vessel was measured in vrito as well.Our 3PFM deep brain imaging method simultaneously recorded the morphology and function of the brain blood vessels in vivo in the rat model.Using this angiography combined with the arsenal of rodent's brain disease,models can accelerate the neuroscience research and clinical diagnosis of brain disease in the future.
文摘D-Psicose,a naturally occurring rare sugar,exhibits a sweetness approximately 70%that of sucrose.It possesses high solubility,antioxidant activity,anti-inflammatory properties,and the ability to regulate cholesterol levels and enhance insulin sensitivity.However,D-psicose is relatively scarce in nature,making large-scale extraction and utilization impractical.Consequently,the development of cost-effective synthetic strategies for D-psicose is pivotal for its industrial application.In recent years,the Izumoring strategy has emerged as an efficient alternative to chemical synthesis for producing D-psicose.Nonetheless,limitations in the biotransformation of D-psicose,primarily governed by the conversion rate of D-psicose 3-epimerase(DPEase)and enzyme yield,continue to pose challenges in achieving economically viable production.Enzyme engineering and the establishment of high-level expression systems remain crucial avenues for reducing the overall biosynthesis costs.
基金supported by Beijing Natural Science Foundation(No.7222162 to Dr.Hui Liu)。
文摘BACKGROUND:The molecular mechanism of sepsis-associated acute kidney injury(SA-AKI)is unclear.We analyzed co-differentially expressed genes(co-DEGs)to elucidate the underlying mechanism and intervention targets of SA-AKI.METHODS:The microarray datasets GSE65682,GSE30718,and GSE174220 were downloaded from the Gene Expression Omnibus(GEO)database.We identified the co-DEGs and constructed a gene co-expression network to screen the hub genes.We analyzed immune correlations and disease correlations and performed functional annotation of the hub genes.We also performed single-cell and microenvironment analyses and investigated the enrichment pathways and the main transcription factors.Finally,we conducted a correlation analysis to evaluate the role of the hub genes.RESULTS:Interleukin 32(IL32)was identified as the hub gene in SA-AKI,and the main enriched signaling pathways were associated with hemopoiesis,cellular response to cytokine stimulus,inflammatory response,and regulation of kidney development.Additionally,IL32 was significantly associated with mortality in SA-AKI patients.Monocytes,macrophages,T cells,and NK cells were closely related to IL32 and were involved in the immune microenvironment in SA-AKI patients.IL32 expression increased significantly in the kidney of septic mouse.Toll-like receptor 2(TLR2)was significantly and negatively correlated with IL32.CONCLUSION:IL32 is the key gene involved in SA-AKI and is significantly associated with prognosis.TLR2 and relevant immune cells are closely related to key genes.
基金Project supported by the National Natural Science Foundation of China(Grant No.51877184)
文摘As a renewable carbon resource, biomass can be converted into polyols, aromatic hydrocarbons, alkanes, and other products by traditional catalytic liquefaction method, which has been widely used in production and life. The efficient development and utilization of biomass energy will play a very positive role in solving the problems of energy and ecological environment. A way of combining the plasma electrolysis with traditional catalytic liquefaction realizes the efficient liquefaction of sawdust, which provides a new liquefaction way for traditional biomass conversion. In this experiment, the effects of solution composition, catalyst content and power supply on solution resistance and liquefaction rate are analyzed.It is found that solution composition and catalyst content have a great influence on solution resistance. The results show that the liquefaction rate is highest and the resistance is smallest when the solution resistance is 500 ?. The liquefaction rate is greatly affected by the solution temperature, and the solution temperature is determined by the output power between the two electrodes. The output power includes the heating power of the electric field and the discharge power of the plasma.We measure the electric potential field distribution in the solution and the plasma power. It is found that the output power between the two poles increases nonlinearly(from 0 to 270 W) with time. In two minutes, the electric field heating power increases from 0 to 105 W and then decreases to 70 W, while the plasma power increases from 0 to 200 W. It is well known that in the first 70 seconds of the experiment the electric field heating is dominant, and then the plasma heating turns into a main thermal source. In this paper, plasma electrolysis and traditional catalytic liquefaction are combined to achieve the efficient liquefaction of sawdust, which provides a new way for biomass liquefaction.
