BACKGROUND Plantamajoside(PMS)has shown potential in mitigating cell damage caused by high glucose(HG)levels.Despite this,the precise therapeutic effects of PMS on type 2 diabetes mellitus(T2DM)and the underlying regu...BACKGROUND Plantamajoside(PMS)has shown potential in mitigating cell damage caused by high glucose(HG)levels.Despite this,the precise therapeutic effects of PMS on type 2 diabetes mellitus(T2DM)and the underlying regulatory mechanisms require further exploration.AIM To investigate PMS therapeutic effects on T2DM in mice and elucidate its mechanisms of action through in vivo and in vitro experiments.METHODS An in vitro damage model of MIN6 cells was established using HG and palmitic acid(PA).PMS's protective effect on cell damage was assessed.Next,transcriptomics was employed to examine how PMS treatment affects gene expression of MIN6 cells.Furthermore,the effect of PMS on protein processing in endoplasmic reticulum and apoptosis pathways was validated.A T2DM mouse model was used to validate the therapeutic effects and mechanisms of PMS in vivo.RESULTS PMS intervention ameliorated cell injury in HG+PA-induced MIN6 cell damage.Transcriptomic analysis revealed that protein processing in the endoplasmic reticulum and apoptosis pathways were enriched in cells treated with PMS,with significant downregulation of the gene Dnajc1.Further validation indicated that PMS significantly inhibited the expression of apoptosis-related factors(Bax,CytC)and endoplasmic reticulum stress(ERS)-related factors[ATF6,XBP1,Ddit3(CHOP),GRP78],while promoting the expression of Bcl-2 and Dnajc1.Additionally,the inhibitory effects of PMS on ERS and apoptosis were abolished upon Dnajc1 silencing.Furthermore,in vivo experiments demonstrated that PMS intervention effectively improved pancreatic damage,suppressed the expression of apoptosis-related factors(Bax,CytC),and ERS-related factors[ATF6,XBP1,Ddit3(CHOP),GRP78],while promoting the expression of Bcl-2 and Dnajc1 in a T2DM model mice.CONCLUSION PMS intervention could alleviate pancreatic tissue damage effectively.The mechanism of action involves Dnajc1 activation,which subsequently inhibits apoptosis and ERS,ameliorating damage to pancreaticβ-cells.展开更多
Nicotiana tabacum(2n=4x=48),an economically important non-food crop and a model plant for genetic studies,faces challenges in efficient genotyping of novel germplasm.To address this,we developed the Ta-LD-SC,a 20K SNP...Nicotiana tabacum(2n=4x=48),an economically important non-food crop and a model plant for genetic studies,faces challenges in efficient genotyping of novel germplasm.To address this,we developed the Ta-LD-SC,a 20K SNP Affymetrix Axiom array,based on resequencing data from 150 tobacco accessions.A total of 20,213 unique SNPs were carefully selected,achieving coverage of over 90%of the tobacco genome(Nitab4.5 and NtaSR1)with a uniform probe distribution,limiting density to no more than 5 SNPs per 200 kb.The array underwent extensive validation using 866 tobacco accessions(NP panel)and 288 F2 individuals from a cross between K326 and Oxford 26(GP panel).Performance metrics demonstrated its robustness,with high SNP call rates(93.6%-99.8%),a low technical error rate(<1%),and a superior PolyHighResolution SNP rate(79.79%)compared to other crop SNP arrays.Population structure analysis of the NP panel revealed two major introductions of foreign germplasm that have significantly influenced the genetic diversity of Chinese tobacco resources.Using the array,a genome-wide association study(GWAS)identified 62 genes linked to eight agronomic traits,and a high-density genetic map encompassing 4553 SNPs across 6606.08 cM was constructed.The Ta-LD-SC array provides a valuable tool for rapid,high-quality genotyping offering supporting marker annotations that may benefit genetic research and breeding of tobacco.展开更多
The quality of rebar welds directly impacts the overall service performance of highway infrastructure.However,current assessments of weld appearance quality primarily rely on traditional inspection methods such as man...The quality of rebar welds directly impacts the overall service performance of highway infrastructure.However,current assessments of weld appearance quality primarily rely on traditional inspection methods such as manual visual inspection,which suffer from significant limitations in accuracy,reliability,and efficiency.Given the increasing demand for safety performance inspections of highway infrastructure in China,traditional methods struggle to meet modern rapid inspection requirements.Therefore,this study proposes the design of a portable,non-destructive inspection device for rebar weld appearance,utilizing visible light vision and line-structured light 3D scanning technology.The device is equipped with an STM32 master control chip to manage encoder reading,scanning laser control,ring fill light,industrial camera synchronization,image acquisition,and serial port command transmission.Additionally,a weld image processing and detection software system was developed to receive,store,and identify weld defects.A field inspection prototype was created and subjected to various defect weld detection experiments in a laboratory setting.Experimental results demonstrate that the device can accurately measure weld parameters by acquiring multimodal images,fulfilling defect detection requirements.The device features high detection accuracy,portability,and user-friendliness,making it significant for the objective inspection and evaluation of rebar weld appearance and welding quality.展开更多
Odor pollution in landfill area has attracted more social attention in China. It is very important to control the generation of odor pollutants in situ. Analyzing odorous materials production form buried waste, simula...Odor pollution in landfill area has attracted more social attention in China. It is very important to control the generation of odor pollutants in situ. Analyzing odorous materials production form buried waste, simulated columns of different volatile solid (VS) content and different buried period waste were designed. Gas compounds produced from the columns were collected and analyzed by comprehensive two-dimensional gas chromatography (GC × GC) method. It has remarkable relationship between VS content and concentrations of odorous material. When VS content more than 40%, the total amount of odorous compounds increases remarkably. It can be inferred that reduced VS content of original waste may effective decreasing odorous materials production in landfill area. The old rubbish produced more odorous compounds than that of fresh one in simulated columns.展开更多
Neuronal cell death is a common outcome of multiple pathophysiological processes and a key factor in neurological dysfunction after subarachnoid hemorrhage.Neuronal ferroptosis in particular plays an important role in...Neuronal cell death is a common outcome of multiple pathophysiological processes and a key factor in neurological dysfunction after subarachnoid hemorrhage.Neuronal ferroptosis in particular plays an important role in early brain injury.Bromodomain-containing protein 4,a member of the bromo and extraterminal domain family of proteins,participated in multiple cell death pathways,but the mechanisms by which it regulates ferroptosis remain unclear.The primary aim of this study was to investigate how bromodomain-containing protein 4 affects neuronal ferroptosis following subarachnoid hemorrhage in vivo and in vitro.Our findings revealed that endogenous bromodomain-containing protein 4 co-localized with neurons,and its expression was decreased 48 hours after subarachnoid hemorrhage of the cerebral cortex in vivo.In addition,ferroptosis-related pathways were activated in vivo and in vitro after subarachnoid hemorrhage.Targeted inhibition of bromodomain-containing protein 4 in neurons increased lipid peroxidation and intracellular ferrous iron accumulation via ferritinophagy and ultimately led to neuronal ferroptosis.Using cleavage under targets and tagmentation analysis,we found that bromodomain-containing protein 4 enrichment in the Raf-1 promoter region decreased following oxyhemoglobin stimulation in vitro.Furthermore,treating bromodomain-containing protein 4-knockdown HT-22 cell lines with GW5074,a Raf-1 inhibitor,exacerbated neuronal ferroptosis by suppressing the Raf-1/ERK1/2 signaling pathway.Moreover,targeted inhibition of neuronal bromodomain-containing protein 4 exacerbated early and long-term neurological function deficits after subarachnoid hemorrhage.Our findings suggest that bromodomain-containing protein 4 may have neuroprotective effects after subarachnoid hemorrhage,and that inhibiting ferroptosis could help treat subarachnoid hemorrhage.展开更多
The friction pull plug welding(FPPW)of the 2219-T87 tungsten inert gas(TIG)welded joint was investigated,and the microstructures,precipitate evolution,mechanical properties,and fracture morphologies of this joint were...The friction pull plug welding(FPPW)of the 2219-T87 tungsten inert gas(TIG)welded joint was investigated,and the microstructures,precipitate evolution,mechanical properties,and fracture morphologies of this joint were analyzed and discussed.In this study,defectfree joints were obtained using a rotational speed of 7000 r/min,an axial feeding displacement of 12 mm,and an axial force of 20-22 kN.The results indicated that within these welding parameters,metallurgical bonding between the plug and plate is achieved by the formation of recrystallized grains.The microstructural features of the FPPW joint can be divided into different regions,including the heat-affected zone(HAZ),thermomechanically affected zone(TMAZ),recrystallization zone(RZ),heat-affected zone in the TIG weld(TIG-HAZ),and the thermomechanically affected zone in the TIG weld(TIG-TMAZ).In the TIG-TMAZ,the grains were highly deformed and elongated due to the shear and the extrusion that produces the plug during the FPPW process.The main reason for the softening in the TMAZ is determined to be the dissolution ofθ’and coarsening ofθprecipitate particles.In a tensile test,the FPPW joint welded with an axial force of 22 kN showed the highest ultimate tensile strength of 237 MPa.The locations of cracks and factures in the TIG-TMAZ were identified.The fracture morphology of the tensile sample showed good plasticity and toughness of the joints.展开更多
This paper explores how dissolution and precipitation reactions are coupled in batch reactor experimental systems at elevated temperatures. This is the fifth paper in our series of ‘‘Coupled Alkali Feldspar Dissolut...This paper explores how dissolution and precipitation reactions are coupled in batch reactor experimental systems at elevated temperatures. This is the fifth paper in our series of ‘‘Coupled Alkali Feldspar Dissolution and Secondary Mineral Precipitation in Batch Systems.'' In the previous four papers we presented batch experiments of alkali-feldspar hydrolysis and explored the coupling of dissolution and precipitation reactions(Fu et al. in Chem Geol91:955–964, 2009; Zhu and Lu in Geochim Cosmochim Acta 73:3171–3200, 2009; Zhu et al.in Geochim Cosmochim Acta 74:3963–3983, 2010; Lu et al. in Appl Geochem30:75–90, 2013). Here, we present the results of additionalK-rich feldspar hydrolysis experiments at 150 °C. Our solution chemistry measurements have constrained feldspar dissolution rates, and our high resolution transmission electron microscopy work has identified boehmite precipitation. Reaction path modeling of K-feldspar dissolution and boehmite precipitation simulated the coupled reactions, but only with forced changes of boehmite rate law in the middle of experimental duration. The results which are reported in this article lend further support to our hypothesis that slow secondary mineral precipitation explains part of the wellknown apparent discrepancy between lab measured and field estimated feldspar dissolution rates(Zhu et al. in Water–rock interaction, 2004).展开更多
Mismanagement of the composting process can result in emissions of CH4,N2O,and NH3,which have caused severe environmental problems.This study was aimed at determining whether CH4,N2O,and NH3 emissions from composting ...Mismanagement of the composting process can result in emissions of CH4,N2O,and NH3,which have caused severe environmental problems.This study was aimed at determining whether CH4,N2O,and NH3 emissions from composting are affected by bulking agents during rapid composting of pig manure from the Chinese Ganqinfen system.Three bulking agents,corn stalks,spent mushroom compost,and sawdust,were used in composting with pig manure in 60 L reactors with forced aeration for more than a month.Gas emissions were measured continuously,and detailed gas emission patterns were obtained.Concentrations of NH3 and N2O from the composting pig manure mixed with corn stalks or sawdust were higher than those from the spent mushroom compost treatment,especially the sawdust treatment,which had the highest total nitrogen loss among the three runs.Most of the nitrogen was lost in the form of NH3,which accounts for 11.16% to 35.69% of the initial nitrogen.One-way analysis of variance for NH3emission showed no significant differences between the corn stalk and sawdust treatments,but a significant difference was noted between the spent mushroom compost and sawdust treatments.The introduction of sawdust reduced CH4emission more than the corn stalks and spent mushroom compost.However,there were no significant differences among the three runs for total carbon loss.All treatments were matured after 30 d.展开更多
In the present study, the weld formation and mechanical properties of the AA-5A06 friction pull plug welded(FPPW) joints were improved by controlling the axial force history. Several defect-free FPPW joints were made ...In the present study, the weld formation and mechanical properties of the AA-5A06 friction pull plug welded(FPPW) joints were improved by controlling the axial force history. Several defect-free FPPW joints were made successfully by using the welding parameters of 15–20 k N/s axial loading rate, 20–30 k N axial welding force and 6–7 mm axial feeding displacement. The results indicated that using higher axial loading rate and axial welding force produced more stable heat generation and shorter frictional heating time between the frictional interface. In this case, the plastic flow of the materials around the hole could be further improved since the axial feeding displacement of the plug was increased. The maximum ultimate tensile strength(UTS) and elongation of the FPPW 5A06 joints were 314 MPa and 4.8%, respectively. The thermal mechanically affect zone(TMAZ) had the lowest hardness value throughout the joint and was found as the fracture location to all the tensile samples. The softening of TMAZ was mainly caused by the weakening of the cold work hardening and the coarsening of grains.展开更多
Fluorescent probes have been widely employed in biological imaging and sensing.However,it is always a challenge to design probes with high sensitivity.In this work,based on rhodamine skeleton,we developed a general st...Fluorescent probes have been widely employed in biological imaging and sensing.However,it is always a challenge to design probes with high sensitivity.In this work,based on rhodamine skeleton,we developed a general strategy to construct sensitivity-enhanced fluorescent probe with the help of theoretical calculation for the first time.As a proof of concept,we synthesized a series of HOCl probes.Experiment results showed that with the C-9 of pyronin moiety of rhodamine stabilized by an electron donor group,probe DQF-S exhibited an importantly enhanced sensitivity(LOD:0.2 nmol/L)towards HOCl together with fast response time(<10 s).Moreover,due to the breaking symmetrical electron distribution by another electron donor group,the novel rhodamine probe DQF-S displayed a far red to near-infrared emission(>650 nm)and large Stokes shift.Bioimaging studies indicated that DQF-S can not only effectively detect basal HOCl in various types of cells,but also be successfully applied to image tumor tissue in vivo.These results demonstrate the potential of our design as a useful strategy to develop excellent fluorescent probes for bioimaging.展开更多
Several 2D nanosheets of porphyrin MOFs with various transition-metal clusters as metal nodes were prepared via a simple solvothermal method to apply in the photocatalytic hydrogen evolution,in which the hydrogen prod...Several 2D nanosheets of porphyrin MOFs with various transition-metal clusters as metal nodes were prepared via a simple solvothermal method to apply in the photocatalytic hydrogen evolution,in which the hydrogen production rate of the optimal NS-Cu was as high as 15.39 mmol g^(-1)h^(-1).A series of experimental technologies especially cyclic voltammetry(CV)and Mott-Schottky(M-S)had been adopted to investigate the charge-transfer property of photo-generated electron-hole pairs,it was found that the uniformly dispersed Cu-clusters nodes in the original 2D MOFs played a key role in the electron transfer process,that was,the photo-generated electron transferred from excited state eosin-Y to the Cu-clusters nodes for the efficient hydrogen evolution.The excellent photocatalytic performance could be attributed to the reversible oxidation-–reduction process of Cu^(Ⅱ)/Cu^(Ⅰ),which had excellent electron-receiving and electron-outputting capabilities.Our results provided a novel avenue to adapt the uniformly dispersed metal nodes in the original MOFs as cost-effective noble-metal-free cocatalysts with very high atomutilization efficiency to improve the photocatalytic hydrogen evolution performance in dye-sensitized system.展开更多
BACKGROUND Serum small extracellular vesicles(sEVs)and their small RNA(sRNA)cargoes could be promising biomarkers for the diagnosis of liver injury.However,the dynamic changes in serum sEVs and their sRNA components d...BACKGROUND Serum small extracellular vesicles(sEVs)and their small RNA(sRNA)cargoes could be promising biomarkers for the diagnosis of liver injury.However,the dynamic changes in serum sEVs and their sRNA components during liver injury have not been well characterized.Given that hepatic macrophages can quickly clear intravenously injected sEVs,the effect of liver injury-related serum sEVs on hepatic macrophages deserves to be explored.AIM To identify the characteristics of serum sEVs and the sRNAs during liver injury and explore their effects on hepatic macrophages.METHODS To identify serum sEV biomarkers for liver injury,we established a CCL4-induced mouse liver injury model in C57BL/6 mice to simulate acute liver injury(ALI),chronic liver injury(CLI)and recovery.Serum sEVs were obtained and characterized by transmission electron microscopy and nanoparticle tracking analysis.Serum sEV sRNAs were profiled by sRNA sequencing.Differentially expressed microRNAs(miRNAs)were compared to mouse liver-enriched miRNAs and previously reported circulating miRNAs related to human liver diseases.The biological significance was evaluated by Ingenuity Pathway Analysis of altered sEV miRNAs and conditioned cultures of ALI serum sEVs with primary hepatic macrophages.RESULTS We found that both ALI and CLI changed the concentration and morphology of serum sEVs.The proportion of serum sEV miRNAs increased upon liver injury,with the liver as the primary contributor.The altered serum sEV miRNAs based on mouse studies were consistent with human liver disease-related circulating miRNAs.We established serum sEV miRNA signatures for ALI and CLI and a panel of miRNAs(miR-122-5p,miR-192-5p,and miR-22-3p)as a common marker for liver injury.The differential serum sEV miRNAs in ALI contributed mainly to liver steatosis and inflammation,while those in CLI contributed primarily to hepatocellular carcinoma and hyperplasia.ALI serum sEVs decreased both CD86 and CD206 expression in monocyte-derived macrophages but increased CD206 expression in resident macrophages in vitro.CONCLUSION Serum sEVs acquired different concentrations,sizes,morphologies and sRNA contents upon liver injury and could change the phenotype of liver macrophages.Serum sEVs therefore have good diagnostic and therapeutic potential for liver injury.展开更多
A series of novel bis(trifluoroethyl)phosphonomethyl ether derivatives of acyclovir was synthesized and their in vitro anti-HBV activity was evaluated in HepG2 2.2.15 cells. In contrast to acyclovir, most of the des...A series of novel bis(trifluoroethyl)phosphonomethyl ether derivatives of acyclovir was synthesized and their in vitro anti-HBV activity was evaluated in HepG2 2.2.15 cells. In contrast to acyclovir, most of the described phosphonates emerged as potent inhibitors of HBV replication. Especially, the most active compound 11 with IC50 value of 2.92 μmol/L was 33 times more potent than acyclovir with ICso value of 100 μmol/L.展开更多
Objective:This study aimed to lay the foundation for the research on Panax notoginseng saponins(PNS)in pH-sensitive in situ gel and the development and improvement of related preparations.Methods:We used Carbopol■940...Objective:This study aimed to lay the foundation for the research on Panax notoginseng saponins(PNS)in pH-sensitive in situ gel and the development and improvement of related preparations.Methods:We used Carbopol■940,a commonly used pH-sensitive polymer,and the thickener hydroxypropyl methylcellulose(HPMC E4M)as an ophthalmic gel matrix to prepare an ophthalmic in situ gel of PNS.In addition,formula optimization was performed by assessing gelling capability with the results of in vitro release studies.In vitro(corneal permeation,rheological,and stability)and in vivo(ocular irritation and preliminary pharmacokinetics in the vitreous)studies were also performed.Results:The results demonstrated that the in situ gelling systems containing PNS showed a sustained release of the drug,making it an ideal ocular delivery system for improving posterior ocular bioavailability.Conclusions:This study lays the foundation for the research of PNS contained in an in situ pH-triggered gel as well as the development and improvement of related preparations.It concurrently traditional Chinese medicine with a contemporary in situ gelling approach to provide new directions for the treatment of posterior ocular diseases such as diabetic retinopathy.展开更多
Metabolomics is a newly developed discipline following genomics,transcriptomics,and proteomics.It is based on the theory of systems biology,supported by modern spectroscopy analysis technology and is analyzed by the e...Metabolomics is a newly developed discipline following genomics,transcriptomics,and proteomics.It is based on the theory of systems biology,supported by modern spectroscopy analysis technology and is analyzed by the external stimulation of organisms.By analyzing the overall changes of metabolites with low molecular weight in organism after being stimulated by the outside world,we can understand the physiological and pathological state of organism,and finally clarify the essence of biological changes of organism.In recent years,metabolomics has developed rapidly.It has been widely used in early toxicity screening of lead compounds,preclinical toxicity of drugs and toxicity evaluation of clinical drugs.The in-depth interpretation of metabolomics results is also developing.This article reviewed the progress of metabolomics technology and its application in the study of toxicity evaluation of traditional Chinese medicine.展开更多
It is a challenge to make thorough but efficient experimental designs for the coupled mineral dissolution and precipitation studies in a multi-mineral system, because it is difficult to speculate the best experimental...It is a challenge to make thorough but efficient experimental designs for the coupled mineral dissolution and precipitation studies in a multi-mineral system, because it is difficult to speculate the best experimental duration, optimal sampling schedule, effects of different experimental conditions, and how to maximize the experimental outputs prior to the actual experiments. Geochemical modeling is an efficient and effective tool to assist the experimental design by virtually running all scenarios of interest for the studied system and predicting the experimental outcomes. Here we demonstrated an example of geochemical modeling assisted experimental design of coupled labradorite dissolution and calcite and clayey mineral precipitation using multiple isotope tracers. In this study, labradorite(plagioclase) was chosen as the reactant because it is both a major component and one of the most reactive minerals in basalt. Following our isotope doping studies of single minerals in the last ten years, initial solutions in the simulations were doped withmultiple isotopes(e.g., Ca and Si). Geochemical modeling results show that the use of isotope tracers gives us orders of magnitude more sensitivity than the conventional method based on concentrations and allows us to decouple dissolution and precipitation reactions at near-equilibrium condition. The simulations suggest that the precise unidirectional dissolution rates can inform us which rate laws plagioclase dissolution has followed. Calcite precipitation occurred at near-equilibrium and the multiple isotope tracer experiments would provide near-equilibrium precipitation rates, which was a challenge for the conventional concentration-based experiments. In addition, whether the precipitation of clayey phases is the rate-limiting step in some multi-mineral systems will be revealed. Overall, the modeling results of multimineral reaction kinetics will improve the understanding of the coupled dissolution–precipitation in the multi-mineral systems and the quality of geochemical modeling prediction of CO_(2) removal and storage efficacy in the basalt systems.展开更多
Choriogenesis is the last step of insect oogenesis,a process by which the chorion polypeptides are produced by the follicular cells and deposited on the surface of oocytes in order to provide a highly specialized prot...Choriogenesis is the last step of insect oogenesis,a process by which the chorion polypeptides are produced by the follicular cells and deposited on the surface of oocytes in order to provide a highly specialized protective barrier to the embryo.The essential features of chorion genes have yet to be clearly understood in the diamondback moth,Plutella xylostella,a worldwide Lepidoptera pest attacking cruciferous crops and wild plants.In this study,complete sequences for 15 putative chorion genes were identified,and grouped into A and B classes.Phylogenetic analysis revealed that both classes were highly conserved and within each,branches are also species-specific.Chorion genes from each class were located in pairs on scaffolds of the P.xylostella genome,some of which shared the common promoter regulatory region.All chorion genes were highly specifically expressed in the P.xylostella adult females,mostly in the ovary with full yolk,which is a crucial period to build the shells of the eggs.RNAi-based knockdown of chorion-1,which is located on the Px_scaffold 6 alone,although had no effect on yolk deposition,resulted in smaller eggs and sharply reduced hatchability.Additionally,inhibition of PxCho-1 expression caused a less dense arrangement of the columnar layers,reduced exochorion roughness and shorter microvilli.Our study provides the foundation for exploring molecular mechanisms of female reproduction in P.xylostella,and for making use of chorion genes as the potential genetic-based molecular target to better control this economically important pest.展开更多
Fluorescent probes based on rhodamine skeleton are extensively used in biological imaging.However,the construction of ratiometric fluorescent probes based on the rhodamine skeleton without introducing additional fluor...Fluorescent probes based on rhodamine skeleton are extensively used in biological imaging.However,the construction of ratiometric fluorescent probes based on the rhodamine skeleton without introducing additional fluorophores is still challenging.Herein,we propose an effective method to construct a rhodamine-based ratiometric fluorescent probe through the regulation of electron cloud density.A ratiometric fluorescent probe RDQF-RB-NTR was successfully constructed for the detection of nitroreductase(NTR).RDQF-RB-NTR exhibits good sensitivity,high selectivity,and ratiometric response to NTR.Cell imaging experiments showed that RDQF-RB-NTR can rapidly and accurately detect the fluctuation of NTR in cells and difference of NTR levels between normal cells and cancer cells.In addition,RDQF-RB-NTR was successfully applied to the imaging of NTR in liver tissue slices,and we found that the level of NTR was upregulated in liver cirrhosis.展开更多
基金Yuansong Wang National Famous Traditional Chinese Medicine Expert Heritage Studio,No.4(2022).
文摘BACKGROUND Plantamajoside(PMS)has shown potential in mitigating cell damage caused by high glucose(HG)levels.Despite this,the precise therapeutic effects of PMS on type 2 diabetes mellitus(T2DM)and the underlying regulatory mechanisms require further exploration.AIM To investigate PMS therapeutic effects on T2DM in mice and elucidate its mechanisms of action through in vivo and in vitro experiments.METHODS An in vitro damage model of MIN6 cells was established using HG and palmitic acid(PA).PMS's protective effect on cell damage was assessed.Next,transcriptomics was employed to examine how PMS treatment affects gene expression of MIN6 cells.Furthermore,the effect of PMS on protein processing in endoplasmic reticulum and apoptosis pathways was validated.A T2DM mouse model was used to validate the therapeutic effects and mechanisms of PMS in vivo.RESULTS PMS intervention ameliorated cell injury in HG+PA-induced MIN6 cell damage.Transcriptomic analysis revealed that protein processing in the endoplasmic reticulum and apoptosis pathways were enriched in cells treated with PMS,with significant downregulation of the gene Dnajc1.Further validation indicated that PMS significantly inhibited the expression of apoptosis-related factors(Bax,CytC)and endoplasmic reticulum stress(ERS)-related factors[ATF6,XBP1,Ddit3(CHOP),GRP78],while promoting the expression of Bcl-2 and Dnajc1.Additionally,the inhibitory effects of PMS on ERS and apoptosis were abolished upon Dnajc1 silencing.Furthermore,in vivo experiments demonstrated that PMS intervention effectively improved pancreatic damage,suppressed the expression of apoptosis-related factors(Bax,CytC),and ERS-related factors[ATF6,XBP1,Ddit3(CHOP),GRP78],while promoting the expression of Bcl-2 and Dnajc1 in a T2DM model mice.CONCLUSION PMS intervention could alleviate pancreatic tissue damage effectively.The mechanism of action involves Dnajc1 activation,which subsequently inhibits apoptosis and ERS,ameliorating damage to pancreaticβ-cells.
基金supported by the Guizhou Provincial Basic Research Program(Natural Science)[(2024)648]the Program of China National Tobacco Corporation(110202101032(JY-09),110202201003(JY-03))the Program of Guizhou Branch of China National Tobacco Corporation(2023XM02,2021XM05,2022XM05,2024XM01).
文摘Nicotiana tabacum(2n=4x=48),an economically important non-food crop and a model plant for genetic studies,faces challenges in efficient genotyping of novel germplasm.To address this,we developed the Ta-LD-SC,a 20K SNP Affymetrix Axiom array,based on resequencing data from 150 tobacco accessions.A total of 20,213 unique SNPs were carefully selected,achieving coverage of over 90%of the tobacco genome(Nitab4.5 and NtaSR1)with a uniform probe distribution,limiting density to no more than 5 SNPs per 200 kb.The array underwent extensive validation using 866 tobacco accessions(NP panel)and 288 F2 individuals from a cross between K326 and Oxford 26(GP panel).Performance metrics demonstrated its robustness,with high SNP call rates(93.6%-99.8%),a low technical error rate(<1%),and a superior PolyHighResolution SNP rate(79.79%)compared to other crop SNP arrays.Population structure analysis of the NP panel revealed two major introductions of foreign germplasm that have significantly influenced the genetic diversity of Chinese tobacco resources.Using the array,a genome-wide association study(GWAS)identified 62 genes linked to eight agronomic traits,and a high-density genetic map encompassing 4553 SNPs across 6606.08 cM was constructed.The Ta-LD-SC array provides a valuable tool for rapid,high-quality genotyping offering supporting marker annotations that may benefit genetic research and breeding of tobacco.
基金Supported by the Central Public-Interest Scientific Institution Basal Research Fund(2023-9062)the Transport Power Pilot Project(2021-C334)。
文摘The quality of rebar welds directly impacts the overall service performance of highway infrastructure.However,current assessments of weld appearance quality primarily rely on traditional inspection methods such as manual visual inspection,which suffer from significant limitations in accuracy,reliability,and efficiency.Given the increasing demand for safety performance inspections of highway infrastructure in China,traditional methods struggle to meet modern rapid inspection requirements.Therefore,this study proposes the design of a portable,non-destructive inspection device for rebar weld appearance,utilizing visible light vision and line-structured light 3D scanning technology.The device is equipped with an STM32 master control chip to manage encoder reading,scanning laser control,ring fill light,industrial camera synchronization,image acquisition,and serial port command transmission.Additionally,a weld image processing and detection software system was developed to receive,store,and identify weld defects.A field inspection prototype was created and subjected to various defect weld detection experiments in a laboratory setting.Experimental results demonstrate that the device can accurately measure weld parameters by acquiring multimodal images,fulfilling defect detection requirements.The device features high detection accuracy,portability,and user-friendliness,making it significant for the objective inspection and evaluation of rebar weld appearance and welding quality.
文摘Odor pollution in landfill area has attracted more social attention in China. It is very important to control the generation of odor pollutants in situ. Analyzing odorous materials production form buried waste, simulated columns of different volatile solid (VS) content and different buried period waste were designed. Gas compounds produced from the columns were collected and analyzed by comprehensive two-dimensional gas chromatography (GC × GC) method. It has remarkable relationship between VS content and concentrations of odorous material. When VS content more than 40%, the total amount of odorous compounds increases remarkably. It can be inferred that reduced VS content of original waste may effective decreasing odorous materials production in landfill area. The old rubbish produced more odorous compounds than that of fresh one in simulated columns.
基金supported by the National Natural Science Foundation of China,Nos.82371310(to YJ),82271306(to JP)the Sichuan Science and Technology Support Program,Nos.2023YFH0069(to JP),2023NSFSC0028(to YJ),2023NSFSC1559(to YJ),2022YFS0615(to JP),2022NSFSC1421(to JP)+1 种基金Scientific Research Project of Sichuan Provincial Health Commission,No.23LCYJ040(to YJ)Youth Foundation of Southwestern Medical University and Southwest Medical University Project,Nos.2020ZRQNA038(to JP),2021ZKZD013(to JP),2021LZXNYD-P01(to YJ),2023QN014(to JP).
文摘Neuronal cell death is a common outcome of multiple pathophysiological processes and a key factor in neurological dysfunction after subarachnoid hemorrhage.Neuronal ferroptosis in particular plays an important role in early brain injury.Bromodomain-containing protein 4,a member of the bromo and extraterminal domain family of proteins,participated in multiple cell death pathways,but the mechanisms by which it regulates ferroptosis remain unclear.The primary aim of this study was to investigate how bromodomain-containing protein 4 affects neuronal ferroptosis following subarachnoid hemorrhage in vivo and in vitro.Our findings revealed that endogenous bromodomain-containing protein 4 co-localized with neurons,and its expression was decreased 48 hours after subarachnoid hemorrhage of the cerebral cortex in vivo.In addition,ferroptosis-related pathways were activated in vivo and in vitro after subarachnoid hemorrhage.Targeted inhibition of bromodomain-containing protein 4 in neurons increased lipid peroxidation and intracellular ferrous iron accumulation via ferritinophagy and ultimately led to neuronal ferroptosis.Using cleavage under targets and tagmentation analysis,we found that bromodomain-containing protein 4 enrichment in the Raf-1 promoter region decreased following oxyhemoglobin stimulation in vitro.Furthermore,treating bromodomain-containing protein 4-knockdown HT-22 cell lines with GW5074,a Raf-1 inhibitor,exacerbated neuronal ferroptosis by suppressing the Raf-1/ERK1/2 signaling pathway.Moreover,targeted inhibition of neuronal bromodomain-containing protein 4 exacerbated early and long-term neurological function deficits after subarachnoid hemorrhage.Our findings suggest that bromodomain-containing protein 4 may have neuroprotective effects after subarachnoid hemorrhage,and that inhibiting ferroptosis could help treat subarachnoid hemorrhage.
基金financially supported by the National Natural Science Foundation of China(Nos.51875401 and 52075376).
文摘The friction pull plug welding(FPPW)of the 2219-T87 tungsten inert gas(TIG)welded joint was investigated,and the microstructures,precipitate evolution,mechanical properties,and fracture morphologies of this joint were analyzed and discussed.In this study,defectfree joints were obtained using a rotational speed of 7000 r/min,an axial feeding displacement of 12 mm,and an axial force of 20-22 kN.The results indicated that within these welding parameters,metallurgical bonding between the plug and plate is achieved by the formation of recrystallized grains.The microstructural features of the FPPW joint can be divided into different regions,including the heat-affected zone(HAZ),thermomechanically affected zone(TMAZ),recrystallization zone(RZ),heat-affected zone in the TIG weld(TIG-HAZ),and the thermomechanically affected zone in the TIG weld(TIG-TMAZ).In the TIG-TMAZ,the grains were highly deformed and elongated due to the shear and the extrusion that produces the plug during the FPPW process.The main reason for the softening in the TMAZ is determined to be the dissolution ofθ’and coarsening ofθprecipitate particles.In a tensile test,the FPPW joint welded with an axial force of 22 kN showed the highest ultimate tensile strength of 237 MPa.The locations of cracks and factures in the TIG-TMAZ were identified.The fracture morphology of the tensile sample showed good plasticity and toughness of the joints.
基金grant from the State Key Laboratory of Ore Deposits at the Institute of Geochemistry, Chinese Academy of Sciences
文摘This paper explores how dissolution and precipitation reactions are coupled in batch reactor experimental systems at elevated temperatures. This is the fifth paper in our series of ‘‘Coupled Alkali Feldspar Dissolution and Secondary Mineral Precipitation in Batch Systems.'' In the previous four papers we presented batch experiments of alkali-feldspar hydrolysis and explored the coupling of dissolution and precipitation reactions(Fu et al. in Chem Geol91:955–964, 2009; Zhu and Lu in Geochim Cosmochim Acta 73:3171–3200, 2009; Zhu et al.in Geochim Cosmochim Acta 74:3963–3983, 2010; Lu et al. in Appl Geochem30:75–90, 2013). Here, we present the results of additionalK-rich feldspar hydrolysis experiments at 150 °C. Our solution chemistry measurements have constrained feldspar dissolution rates, and our high resolution transmission electron microscopy work has identified boehmite precipitation. Reaction path modeling of K-feldspar dissolution and boehmite precipitation simulated the coupled reactions, but only with forced changes of boehmite rate law in the middle of experimental duration. The results which are reported in this article lend further support to our hypothesis that slow secondary mineral precipitation explains part of the wellknown apparent discrepancy between lab measured and field estimated feldspar dissolution rates(Zhu et al. in Water–rock interaction, 2004).
基金supported by the National Natural Science Foundation of China(Nos.41275161 and 41075110)the National Science&Technology Pillar Program(Nos.2012BAD14B01 and 2012BAD14B03)+1 种基金the Sino-German Cooperation Project of Recycling of Organic Residues from Agricultural and Municipal Residues in China(No.BMBF FKZ 0330847)the Chinese Universities Scientific Fund
文摘Mismanagement of the composting process can result in emissions of CH4,N2O,and NH3,which have caused severe environmental problems.This study was aimed at determining whether CH4,N2O,and NH3 emissions from composting are affected by bulking agents during rapid composting of pig manure from the Chinese Ganqinfen system.Three bulking agents,corn stalks,spent mushroom compost,and sawdust,were used in composting with pig manure in 60 L reactors with forced aeration for more than a month.Gas emissions were measured continuously,and detailed gas emission patterns were obtained.Concentrations of NH3 and N2O from the composting pig manure mixed with corn stalks or sawdust were higher than those from the spent mushroom compost treatment,especially the sawdust treatment,which had the highest total nitrogen loss among the three runs.Most of the nitrogen was lost in the form of NH3,which accounts for 11.16% to 35.69% of the initial nitrogen.One-way analysis of variance for NH3emission showed no significant differences between the corn stalk and sawdust treatments,but a significant difference was noted between the spent mushroom compost and sawdust treatments.The introduction of sawdust reduced CH4emission more than the corn stalks and spent mushroom compost.However,there were no significant differences among the three runs for total carbon loss.All treatments were matured after 30 d.
基金the Science and Technology Program of Tianjin(Granted No.18ZXCLGX00060)the National Natural Science Foundation of China(Granted No.51875401)。
文摘In the present study, the weld formation and mechanical properties of the AA-5A06 friction pull plug welded(FPPW) joints were improved by controlling the axial force history. Several defect-free FPPW joints were made successfully by using the welding parameters of 15–20 k N/s axial loading rate, 20–30 k N axial welding force and 6–7 mm axial feeding displacement. The results indicated that using higher axial loading rate and axial welding force produced more stable heat generation and shorter frictional heating time between the frictional interface. In this case, the plastic flow of the materials around the hole could be further improved since the axial feeding displacement of the plug was increased. The maximum ultimate tensile strength(UTS) and elongation of the FPPW 5A06 joints were 314 MPa and 4.8%, respectively. The thermal mechanically affect zone(TMAZ) had the lowest hardness value throughout the joint and was found as the fracture location to all the tensile samples. The softening of TMAZ was mainly caused by the weakening of the cold work hardening and the coarsening of grains.
基金the National Natural Science Foundation of China(Nos.21877029,21735001)the National Key R&D Program of China(No.2019YFA0210103)+1 种基金the National Postdoctoral Program for Innovative Talents(No.BX20190110)the China Postdoctoral Science Foundation(No.2019M662758)。
文摘Fluorescent probes have been widely employed in biological imaging and sensing.However,it is always a challenge to design probes with high sensitivity.In this work,based on rhodamine skeleton,we developed a general strategy to construct sensitivity-enhanced fluorescent probe with the help of theoretical calculation for the first time.As a proof of concept,we synthesized a series of HOCl probes.Experiment results showed that with the C-9 of pyronin moiety of rhodamine stabilized by an electron donor group,probe DQF-S exhibited an importantly enhanced sensitivity(LOD:0.2 nmol/L)towards HOCl together with fast response time(<10 s).Moreover,due to the breaking symmetrical electron distribution by another electron donor group,the novel rhodamine probe DQF-S displayed a far red to near-infrared emission(>650 nm)and large Stokes shift.Bioimaging studies indicated that DQF-S can not only effectively detect basal HOCl in various types of cells,but also be successfully applied to image tumor tissue in vivo.These results demonstrate the potential of our design as a useful strategy to develop excellent fluorescent probes for bioimaging.
基金the National Natural Science Foundation of China(Nos.21502012,22001026)the Youth Project of Science and Technology Research Program of Chongqing Education Commission of China(Nos.KJQN201900838,KJQN201800836,KJQN201900842)+1 种基金the Chongqing Science and Technology Commission(Nos.cstc2018jcyj AX0531,cstc2017jcyj AX0404,cstc2020jcyjmsxm X0830)Student Science and Technology Innovation Fund Project of Chongqing Technology and Business University(No.20328)。
文摘Several 2D nanosheets of porphyrin MOFs with various transition-metal clusters as metal nodes were prepared via a simple solvothermal method to apply in the photocatalytic hydrogen evolution,in which the hydrogen production rate of the optimal NS-Cu was as high as 15.39 mmol g^(-1)h^(-1).A series of experimental technologies especially cyclic voltammetry(CV)and Mott-Schottky(M-S)had been adopted to investigate the charge-transfer property of photo-generated electron-hole pairs,it was found that the uniformly dispersed Cu-clusters nodes in the original 2D MOFs played a key role in the electron transfer process,that was,the photo-generated electron transferred from excited state eosin-Y to the Cu-clusters nodes for the efficient hydrogen evolution.The excellent photocatalytic performance could be attributed to the reversible oxidation-–reduction process of Cu^(Ⅱ)/Cu^(Ⅰ),which had excellent electron-receiving and electron-outputting capabilities.Our results provided a novel avenue to adapt the uniformly dispersed metal nodes in the original MOFs as cost-effective noble-metal-free cocatalysts with very high atomutilization efficiency to improve the photocatalytic hydrogen evolution performance in dye-sensitized system.
文摘BACKGROUND Serum small extracellular vesicles(sEVs)and their small RNA(sRNA)cargoes could be promising biomarkers for the diagnosis of liver injury.However,the dynamic changes in serum sEVs and their sRNA components during liver injury have not been well characterized.Given that hepatic macrophages can quickly clear intravenously injected sEVs,the effect of liver injury-related serum sEVs on hepatic macrophages deserves to be explored.AIM To identify the characteristics of serum sEVs and the sRNAs during liver injury and explore their effects on hepatic macrophages.METHODS To identify serum sEV biomarkers for liver injury,we established a CCL4-induced mouse liver injury model in C57BL/6 mice to simulate acute liver injury(ALI),chronic liver injury(CLI)and recovery.Serum sEVs were obtained and characterized by transmission electron microscopy and nanoparticle tracking analysis.Serum sEV sRNAs were profiled by sRNA sequencing.Differentially expressed microRNAs(miRNAs)were compared to mouse liver-enriched miRNAs and previously reported circulating miRNAs related to human liver diseases.The biological significance was evaluated by Ingenuity Pathway Analysis of altered sEV miRNAs and conditioned cultures of ALI serum sEVs with primary hepatic macrophages.RESULTS We found that both ALI and CLI changed the concentration and morphology of serum sEVs.The proportion of serum sEV miRNAs increased upon liver injury,with the liver as the primary contributor.The altered serum sEV miRNAs based on mouse studies were consistent with human liver disease-related circulating miRNAs.We established serum sEV miRNA signatures for ALI and CLI and a panel of miRNAs(miR-122-5p,miR-192-5p,and miR-22-3p)as a common marker for liver injury.The differential serum sEV miRNAs in ALI contributed mainly to liver steatosis and inflammation,while those in CLI contributed primarily to hepatocellular carcinoma and hyperplasia.ALI serum sEVs decreased both CD86 and CD206 expression in monocyte-derived macrophages but increased CD206 expression in resident macrophages in vitro.CONCLUSION Serum sEVs acquired different concentrations,sizes,morphologies and sRNA contents upon liver injury and could change the phenotype of liver macrophages.Serum sEVs therefore have good diagnostic and therapeutic potential for liver injury.
文摘A series of novel bis(trifluoroethyl)phosphonomethyl ether derivatives of acyclovir was synthesized and their in vitro anti-HBV activity was evaluated in HepG2 2.2.15 cells. In contrast to acyclovir, most of the described phosphonates emerged as potent inhibitors of HBV replication. Especially, the most active compound 11 with IC50 value of 2.92 μmol/L was 33 times more potent than acyclovir with ICso value of 100 μmol/L.
文摘Objective:This study aimed to lay the foundation for the research on Panax notoginseng saponins(PNS)in pH-sensitive in situ gel and the development and improvement of related preparations.Methods:We used Carbopol■940,a commonly used pH-sensitive polymer,and the thickener hydroxypropyl methylcellulose(HPMC E4M)as an ophthalmic gel matrix to prepare an ophthalmic in situ gel of PNS.In addition,formula optimization was performed by assessing gelling capability with the results of in vitro release studies.In vitro(corneal permeation,rheological,and stability)and in vivo(ocular irritation and preliminary pharmacokinetics in the vitreous)studies were also performed.Results:The results demonstrated that the in situ gelling systems containing PNS showed a sustained release of the drug,making it an ideal ocular delivery system for improving posterior ocular bioavailability.Conclusions:This study lays the foundation for the research of PNS contained in an in situ pH-triggered gel as well as the development and improvement of related preparations.It concurrently traditional Chinese medicine with a contemporary in situ gelling approach to provide new directions for the treatment of posterior ocular diseases such as diabetic retinopathy.
文摘Metabolomics is a newly developed discipline following genomics,transcriptomics,and proteomics.It is based on the theory of systems biology,supported by modern spectroscopy analysis technology and is analyzed by the external stimulation of organisms.By analyzing the overall changes of metabolites with low molecular weight in organism after being stimulated by the outside world,we can understand the physiological and pathological state of organism,and finally clarify the essence of biological changes of organism.In recent years,metabolomics has developed rapidly.It has been widely used in early toxicity screening of lead compounds,preclinical toxicity of drugs and toxicity evaluation of clinical drugs.The in-depth interpretation of metabolomics results is also developing.This article reviewed the progress of metabolomics technology and its application in the study of toxicity evaluation of traditional Chinese medicine.
基金partially supported by U.S. National Science Foundation grants EAR-2221907partly sponsored by agencies of the United States Government。
文摘It is a challenge to make thorough but efficient experimental designs for the coupled mineral dissolution and precipitation studies in a multi-mineral system, because it is difficult to speculate the best experimental duration, optimal sampling schedule, effects of different experimental conditions, and how to maximize the experimental outputs prior to the actual experiments. Geochemical modeling is an efficient and effective tool to assist the experimental design by virtually running all scenarios of interest for the studied system and predicting the experimental outcomes. Here we demonstrated an example of geochemical modeling assisted experimental design of coupled labradorite dissolution and calcite and clayey mineral precipitation using multiple isotope tracers. In this study, labradorite(plagioclase) was chosen as the reactant because it is both a major component and one of the most reactive minerals in basalt. Following our isotope doping studies of single minerals in the last ten years, initial solutions in the simulations were doped withmultiple isotopes(e.g., Ca and Si). Geochemical modeling results show that the use of isotope tracers gives us orders of magnitude more sensitivity than the conventional method based on concentrations and allows us to decouple dissolution and precipitation reactions at near-equilibrium condition. The simulations suggest that the precise unidirectional dissolution rates can inform us which rate laws plagioclase dissolution has followed. Calcite precipitation occurred at near-equilibrium and the multiple isotope tracer experiments would provide near-equilibrium precipitation rates, which was a challenge for the conventional concentration-based experiments. In addition, whether the precipitation of clayey phases is the rate-limiting step in some multi-mineral systems will be revealed. Overall, the modeling results of multimineral reaction kinetics will improve the understanding of the coupled dissolution–precipitation in the multi-mineral systems and the quality of geochemical modeling prediction of CO_(2) removal and storage efficacy in the basalt systems.
基金funded by the National Natural Science Foundation of China(32172404)the Natural Science Foundation of Fujian Province,China(2019J01666)+1 种基金the Fujian Agriculture and Forestry University Fund for Distinguished Young Scholars,China(xjq201903)the"111"Program-Innovation Center for Ecologically Based Pest Management of Subtropical Crops,Fujian Agriculture and Fo restry University,China。
文摘Choriogenesis is the last step of insect oogenesis,a process by which the chorion polypeptides are produced by the follicular cells and deposited on the surface of oocytes in order to provide a highly specialized protective barrier to the embryo.The essential features of chorion genes have yet to be clearly understood in the diamondback moth,Plutella xylostella,a worldwide Lepidoptera pest attacking cruciferous crops and wild plants.In this study,complete sequences for 15 putative chorion genes were identified,and grouped into A and B classes.Phylogenetic analysis revealed that both classes were highly conserved and within each,branches are also species-specific.Chorion genes from each class were located in pairs on scaffolds of the P.xylostella genome,some of which shared the common promoter regulatory region.All chorion genes were highly specifically expressed in the P.xylostella adult females,mostly in the ovary with full yolk,which is a crucial period to build the shells of the eggs.RNAi-based knockdown of chorion-1,which is located on the Px_scaffold 6 alone,although had no effect on yolk deposition,resulted in smaller eggs and sharply reduced hatchability.Additionally,inhibition of PxCho-1 expression caused a less dense arrangement of the columnar layers,reduced exochorion roughness and shorter microvilli.Our study provides the foundation for exploring molecular mechanisms of female reproduction in P.xylostella,and for making use of chorion genes as the potential genetic-based molecular target to better control this economically important pest.
基金supported by the National Natural Science Foundation of China(Project:22074036 and 22004033).
文摘Fluorescent probes based on rhodamine skeleton are extensively used in biological imaging.However,the construction of ratiometric fluorescent probes based on the rhodamine skeleton without introducing additional fluorophores is still challenging.Herein,we propose an effective method to construct a rhodamine-based ratiometric fluorescent probe through the regulation of electron cloud density.A ratiometric fluorescent probe RDQF-RB-NTR was successfully constructed for the detection of nitroreductase(NTR).RDQF-RB-NTR exhibits good sensitivity,high selectivity,and ratiometric response to NTR.Cell imaging experiments showed that RDQF-RB-NTR can rapidly and accurately detect the fluctuation of NTR in cells and difference of NTR levels between normal cells and cancer cells.In addition,RDQF-RB-NTR was successfully applied to the imaging of NTR in liver tissue slices,and we found that the level of NTR was upregulated in liver cirrhosis.
