为了探究过瘤胃蛋氨酸(Rumen-protected methionine,RPM)对泌乳高峰期奶牛生产性能和全肠道消化率的影响,试验选取16头处于泌乳高峰期,体重、生理状况相似的健康荷斯坦奶牛,随机分为2组。对照组每日饲喂基础TMR日粮,RPM组每头牛在基础...为了探究过瘤胃蛋氨酸(Rumen-protected methionine,RPM)对泌乳高峰期奶牛生产性能和全肠道消化率的影响,试验选取16头处于泌乳高峰期,体重、生理状况相似的健康荷斯坦奶牛,随机分为2组。对照组每日饲喂基础TMR日粮,RPM组每头牛在基础日粮的基础上,每日单独补饲15 g RPM。结果表明:(1)泌乳高峰期奶牛日粮中添加RPM不影响体重、体况评分和干物质采食量(DMI)(P>0.05);(2)添加RPM对奶牛的产奶量和乳成分影响不显著(P>0.05);(3)添加RPM有降低瘤胃丁酸含量的趋势(P=0.069);(4)添加RPM不影响奶牛的表观消化率(P>0.05);(5)RPM显著提高了奶牛血浆尿素氮和二氧化碳水平(P<0.05);(6)RPM对血液中蛋氨酸的含量没有影响,脯氨酸浓度显著降低(P<0.05),具有降低血浆精氨酸和天冬氨酸含量的趋势(0.05<P<0.10)。总体而言,泌乳高峰期奶牛补饲RPM可能通过提高蛋氨酸吸收率、氨基酸代谢和机体蛋白合成改善泌乳高峰期奶牛健康状况。展开更多
The yam Dioscorea alata L.is widely cultivated globally.Purple-fleshed varieties of this important crop have enhanced market value due to their high anthocyanin contents,but how anthocyanin biosynthesis in D.alata tub...The yam Dioscorea alata L.is widely cultivated globally.Purple-fleshed varieties of this important crop have enhanced market value due to their high anthocyanin contents,but how anthocyanin biosynthesis in D.alata tubers is regulated remains poorly understood.In this study,we identified and functionally validated key transcription factors that regulate anthocyanin biosynthesis based on a comparative transcriptome and metabolome analysis of three D.alata cultivars with different colored tubers(dark purple,light purple,and white).The anthocyanin glycoside cyanidin-3-O-(2′′-O-glucosyl)glucoside was abundant during early tuber development,and we determined that its accumulation is regulated in opposite manners by two R2R3-MYB transcription factors:DaMYB75 and DaMYB56.Yeast two-hybrid and bimolecular fluorescence complementation assays in Nicotiana benthamiana and co-expression assays in D.alata demonstrated that DaMYB75 promotes anthocyanin biosynthesis by specifically activating the promoter of the late anthocyanin biosynthesis gene DaANS and enhancing its expression through an interaction with DabHLH72.By contrast,DaMYB56 is a negative regulator of anthocyanin biosynthesis that binds to the DaANS promoter together with DabHLH72.Furthermore,the methylation levels of the DaMYB75 promoter were significantly lower in purple tubers than in white tubers.These findings shed light on the regulation of anthocyanin biosynthesis by MYBs and provide the basis for genetically improving anthocyanin content in D.alata.展开更多
Craniofacial development relies on the migration of cranial neural crest cells(CNCCs)to the first and second pharyngeal arches,followed by their differentiation into various cell types during embryogenesis.Although th...Craniofacial development relies on the migration of cranial neural crest cells(CNCCs)to the first and second pharyngeal arches,followed by their differentiation into various cell types during embryogenesis.Although the CNCC migration has been well-studied,the role of the niche in relation to CNCC remains unclear.Variants in FOXI3 have been implicated in craniofacial microsomia(CFM),yet the molecular mechanisms remain unexplored.FOXI3 is expressed in the ectoderm and auricle epidermis,but not in CNCCs or cartilage.Deletion of Foxi3 in the mouse CNCCs did not disrupt mandible and auricular development,further confirming that FOXI3 does not directly regulate CNCCs.However,Foxi3 deficiency in the ectoderm reduced the production of chondrogenesis-related cytokines derived from ectodermal cells,such as TGF-β1.This impairment affected CNCC proliferation through cell communication,subsequently altering the development of the mandible and auricle.These results emphasize the critical role of FOXI3 in establishing the microenvironment supporting CNCC function.Furthermore,FOXI3 directly regulates target genes associated with translation,thereby orchestrating cytokine production in epidermal cells.The validation using auricle sample from a CFM patient carrying FOXI3 mutation further supports our findings.These insights highlight the function of FOXI3 in creating the niche necessary for CNCC development and provide a basis for understanding the molecular mechanisms driving CFM pathogenesis.展开更多
The mammalian cochlea relies on outer and inner hair cells(OHCs/IHCs)for sound amplification and signal transmission.Rab3-interacting molecular binding protein 2(RIMBP2),expressed in receptor cells and neurons at syna...The mammalian cochlea relies on outer and inner hair cells(OHCs/IHCs)for sound amplification and signal transmission.Rab3-interacting molecular binding protein 2(RIMBP2),expressed in receptor cells and neurons at synaptic active zones,remains poorly characterized in hearing.We therefore generated a Rimbp2 knockout(KO)mouse model(Rimbp^(2-/-)),which exhibited severe hearing loss with elevated thresholds,prolonged latencies,and reduced amplitudes in auditory brainstem response Wave I.OHC loss via apoptosis was correlated with threshold elevation.In IHCs,patch-clamp recordings revealed reduced exocytosis,including a diminished readily-releasable pool,impaired sustained release,and blocked fast endocytosis.Immunostaining showed unchanged ribbon synapse numbers but positional shifts in the basal pole of KO IHCs.These findings demonstrated RIMBP2’s essential role in OHC survival and its broader regulatory functions in IHC synaptic transmission than previously recognized.展开更多
Electrocatalytic glucose oxidation to high-value chemicals provides a sustainable route for biomass valorization.NiCo-based catalysts have emerged as promising candidates for glucose oxidation reaction owing to the in...Electrocatalytic glucose oxidation to high-value chemicals provides a sustainable route for biomass valorization.NiCo-based catalysts have emerged as promising candidates for glucose oxidation reaction owing to the intrinsic activity of Ni and Co catalytic centers.However,the dynamic evolution and atomic-scale synergy between these centers remain elusive.Herein,we fabricated NiCo_(2)O_(4)nanosheets supported on nickel foam,where Ni preferentially occupies tetrahedral sites to regulate the electronic configuration of octahedral Co.Experimental and theoretical results demonstrate that the incorporation of tetrahedral Ni induces low-to-intermediate spin transition in octahedral Co,thereby optimizing eg orbital occupancy and stabilizing active sites.This spin-state engineering establishes Ni-Co synergistic catalytic centers for the selective oxidation of glucose to formate(FA).At higher potential(≥1.4 V vs.RHE),octahedral Co undergoes reconstruction into excessive active CoOOH and CoO_(2)species,resulting in glucose overoxidation to CO_(2)and intensified competitive oxygen evolution.In contrast,at lower potentials(<1.4 V vs.RHE),tetrahedral Ni facilitates electron delocalization across the Ni–O–Co lattice,thereby stabilizing octahedral Co for glucose adsorption and oxidation.Subsequently,a coupled electrocatalytic system was constructed,achieving 80.7%FA yield with 91.3%Faradaic efficiency(FE)at NiCo_(2)O_(4)anode and H2 evolution rate of 696μmol h^(−1)with 99.9%FE at Pt cathode for 2 h under 1.35 V vs.RHE.This work provides a deep insight into spin-state regulation of the catalytic center,offering valuable guidance for rational catalyst design.展开更多
Background:Jianpi Huazhi Wan(JPHZW)is the hospital preparation of Nantong Hospital of Traditional Chinese Medicine.The clinical effect of JPHZW on gastrointestinal diseases is remarkable,but its mechanism of action is...Background:Jianpi Huazhi Wan(JPHZW)is the hospital preparation of Nantong Hospital of Traditional Chinese Medicine.The clinical effect of JPHZW on gastrointestinal diseases is remarkable,but its mechanism of action is not clear.This study aimed to investigate the therapeutic effects of JPHZW and explore its mechanism of action through colonic transcriptomics and gut microbiota analysis.Methods:An ulcerative colitis(UC)mice model was established to evaluate the therapeutic effect of JPHZW.The expression levels of specific inflammatory factors in colon tissue were determined by ELISA.Colonic transcriptome sequencing was performed to identify candidate targets.The effects of JPHZW on gut microbiota were analyzed using 16S rRNA sequencing.Finally,relevant signaling pathways were verified via Western blotting to elucidate the mechanism of action of JPHZW.Results:JPHZW significantly improved the DAI Score and reduced the expression levels of pro-inflammatory factors,such as MCP-1,IL-17A,and IFN-γ,while increasing the expression levels of anti-inflammatory factors,such as IL-4,EGF,and GM-CSF in UC mice.Colonic transcriptome sequencing revealed that the Peroxisome PPAR-γ/NF-κB signaling pathway was closely associated with JPHZW’s anti-UC effect.Furthermore,WB analysis demonstrated that JPHZW treatment significantly inhibited the upregulation the expression of NF-κB and significantly upregulated the expression of PPAR-γ.In addition,16S rRNA sequencing analysis indicated that the relative abundance of beneficial bacteria was improved.Conclusion:These findings demonstrate that JPHZW alleviates DSS-induced ulcerative colitis in mice by regulating the PPAR-γ/NF-κB signaling pathway to suppress inflammatory factors,while simultaneously improving gut microbiota composition by increasing the relative abundance of beneficial bacteria.展开更多
In this study,the dynamic characteristics of microscale floating bubbles near the vertical wall are studied.This occurrence is common in industrial and natural phenomena.Although many studies have been conducted on mi...In this study,the dynamic characteristics of microscale floating bubbles near the vertical wall are studied.This occurrence is common in industrial and natural phenomena.Although many studies have been conducted on microscale bubbles,few studies investigate floating bubbles with very small Reynolds number(Re)near the wall,which is the main research goal of this study.Therefore,this study establishes a model for the ascent of small-scale bubbles near a vertical wall using the interFoam solver in OpenFOAM.This study investigates the influences of diverse viscosity parameters,varying distances from the wall,and different gas flow rates on the terminal velocity,deformation,and motion trajectory of bubbles.The results reveal that as liquid viscosity increases,the Re of bubbles gradually decreases and reaches a minimum of 0.012,which is similar to the Re of micrometer-sized bubbles in water.The characteristics of the wall-induced force in the longitudinal direction are closely related to the changes in liquid viscosity.Under low-viscosity conditions,the induced lift is the principal form of action,whereas under high-viscosity conditions,it is primarily manifested as induced drag.展开更多
The focus of this paper is on distributed average tracking(DAT)in the context of external disturbances,utilizing an event-triggered control mechanism.First,an event-triggered anti-disturbance DAT(ETAD-DAT)algorithm is...The focus of this paper is on distributed average tracking(DAT)in the context of external disturbances,utilizing an event-triggered control mechanism.First,an event-triggered anti-disturbance DAT(ETAD-DAT)algorithm is proposed to reduce communication load in networked control systems by redesigning existing anti-disturbance DAT algorithms and disturbance observers.Furthermore,a fully distributed event-triggering condition is employed to schedule event times for each agent.Simulation results demonstrate that the proposed ETAD-DAT algorithm is able to achieve accurate average tracking of multiple time-varying reference signals despite the presence of external disturbances,while the communication efficiency can be improved obviously.展开更多
Micro/nanoplastics(M/NPs)have become pervasive environmental pollutants,posing significant risks to human health through various exposure routes,including ingestion,inhalation,and direct contact.This review systematic...Micro/nanoplastics(M/NPs)have become pervasive environmental pollutants,posing significant risks to human health through various exposure routes,including ingestion,inhalation,and direct contact.This review systematically examined the potential impacts of M/NPs on ocular health,focusing on exposure pathways,toxicological mechanisms,and resultant damage to the eye.Ocular exposure to M/NPs can occur via direct contact and oral ingestion,with the latter potentially leading to the penetration of particles through ocular biological barriers into ocular tissues.The review highlighted that M/NPs can induce adverse effects on the ocular surface,elevate intraocular pressure,and cause abnormalities in the vitreous and retina.Mechanistically,oxidative stress and inflammation are central to M/NP-induced ocular damage,with smaller particles often exhibiting greater toxicity.Overall,this review underscored the potential risks of M/NPs to ocular health and emphasized the need for further research to elucidate exposure mechanisms,toxicological pathways,and mitigation strategies.展开更多
Objective:To explore the molecular mechanism of Zixinyin oral liquid(ZOL)in the treatment of insomnia.Methods:The compounds and action targets of four herbal medicines in ZOL were collected via Traditional Chinese Med...Objective:To explore the molecular mechanism of Zixinyin oral liquid(ZOL)in the treatment of insomnia.Methods:The compounds and action targets of four herbal medicines in ZOL were collected via Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform.Genes corresponding to the targets were queried from the UniProt database.Genecards database was searched to screen the related targets of insomnia.A Gene Ontologyfunction enrichment analysis and a Kyoto Encyclopedia of Genes and Genomespathway enrichment analysis were performed by Database for Annotation,Visualization and Integrated Discovery.AutoDock software was used for molecular docking to verify the results of network analysis.Results:A total of 47 effective compounds and 187 potential targets of ZOL were screened out from the four drugs.A total of 2592 disease targets were screened out from the genecards database,and there were 1576 genes whose relevance score≥0.5.46 genes were obtained by taking the intersection of 187 potential targets of ZOL and 1,576 targets of insomnia.A total of 3,405 entries were obtained from Gene Ontologyfunctional enrichment(P<0.05).A total of 195 signaling pathways were obtained through a Kyoto Encyclopedia of Genes and Genomespathway analysis(P<0.05).Tumor necrosis factor,interleukin 17and hypoxia inducible factor-1signaling pathways were closely related to insomnia.The results of molecular docking show that all the core compounds of ZOL had a certain degree of affinity with gamma-aminobutyric acid receptor subunit alpha-1(GABRA1)and tumor necrosis factor-α(TNF-α).Paeoniflorgenone shows the highest affinity with GABRA1,and beta-sitosterol shows the highest affinity withTNF-α.ZOLmay have a therapeutic effect on insomnia through its action on targets such as GABRA1 and TNF-α,meanwhile regulating many signaling pathways.展开更多
文摘为了探究过瘤胃蛋氨酸(Rumen-protected methionine,RPM)对泌乳高峰期奶牛生产性能和全肠道消化率的影响,试验选取16头处于泌乳高峰期,体重、生理状况相似的健康荷斯坦奶牛,随机分为2组。对照组每日饲喂基础TMR日粮,RPM组每头牛在基础日粮的基础上,每日单独补饲15 g RPM。结果表明:(1)泌乳高峰期奶牛日粮中添加RPM不影响体重、体况评分和干物质采食量(DMI)(P>0.05);(2)添加RPM对奶牛的产奶量和乳成分影响不显著(P>0.05);(3)添加RPM有降低瘤胃丁酸含量的趋势(P=0.069);(4)添加RPM不影响奶牛的表观消化率(P>0.05);(5)RPM显著提高了奶牛血浆尿素氮和二氧化碳水平(P<0.05);(6)RPM对血液中蛋氨酸的含量没有影响,脯氨酸浓度显著降低(P<0.05),具有降低血浆精氨酸和天冬氨酸含量的趋势(0.05<P<0.10)。总体而言,泌乳高峰期奶牛补饲RPM可能通过提高蛋氨酸吸收率、氨基酸代谢和机体蛋白合成改善泌乳高峰期奶牛健康状况。
基金supported by the National Natural Science Foundation of China(32460767)Jiangxi Provincial Key Research and Development Program(20232BBF60007)Jiangxi Provincial Natural Science Foundation(20224BAB205024).
文摘The yam Dioscorea alata L.is widely cultivated globally.Purple-fleshed varieties of this important crop have enhanced market value due to their high anthocyanin contents,but how anthocyanin biosynthesis in D.alata tubers is regulated remains poorly understood.In this study,we identified and functionally validated key transcription factors that regulate anthocyanin biosynthesis based on a comparative transcriptome and metabolome analysis of three D.alata cultivars with different colored tubers(dark purple,light purple,and white).The anthocyanin glycoside cyanidin-3-O-(2′′-O-glucosyl)glucoside was abundant during early tuber development,and we determined that its accumulation is regulated in opposite manners by two R2R3-MYB transcription factors:DaMYB75 and DaMYB56.Yeast two-hybrid and bimolecular fluorescence complementation assays in Nicotiana benthamiana and co-expression assays in D.alata demonstrated that DaMYB75 promotes anthocyanin biosynthesis by specifically activating the promoter of the late anthocyanin biosynthesis gene DaANS and enhancing its expression through an interaction with DabHLH72.By contrast,DaMYB56 is a negative regulator of anthocyanin biosynthesis that binds to the DaANS promoter together with DabHLH72.Furthermore,the methylation levels of the DaMYB75 promoter were significantly lower in purple tubers than in white tubers.These findings shed light on the regulation of anthocyanin biosynthesis by MYBs and provide the basis for genetically improving anthocyanin content in D.alata.
基金supported by the National Natural Science Foundation of China(No.82271889,82572117,82371173,and 82172105)the National Key Research and Development Program of China(No.2021YFC2701000)Shanghai Natural Science Foundation(23ZR1409400,24ZR1409400)。
文摘Craniofacial development relies on the migration of cranial neural crest cells(CNCCs)to the first and second pharyngeal arches,followed by their differentiation into various cell types during embryogenesis.Although the CNCC migration has been well-studied,the role of the niche in relation to CNCC remains unclear.Variants in FOXI3 have been implicated in craniofacial microsomia(CFM),yet the molecular mechanisms remain unexplored.FOXI3 is expressed in the ectoderm and auricle epidermis,but not in CNCCs or cartilage.Deletion of Foxi3 in the mouse CNCCs did not disrupt mandible and auricular development,further confirming that FOXI3 does not directly regulate CNCCs.However,Foxi3 deficiency in the ectoderm reduced the production of chondrogenesis-related cytokines derived from ectodermal cells,such as TGF-β1.This impairment affected CNCC proliferation through cell communication,subsequently altering the development of the mandible and auricle.These results emphasize the critical role of FOXI3 in establishing the microenvironment supporting CNCC function.Furthermore,FOXI3 directly regulates target genes associated with translation,thereby orchestrating cytokine production in epidermal cells.The validation using auricle sample from a CFM patient carrying FOXI3 mutation further supports our findings.These insights highlight the function of FOXI3 in creating the niche necessary for CNCC development and provide a basis for understanding the molecular mechanisms driving CFM pathogenesis.
基金supported by grants from the National Key R&D Program of China(2021YFA1101300,2021YFA1101800,2020YFA0112503,and 2024YFC2511103)the National Natural Science Foundation of China(82330033,82030029,82401375,81970882,92149304,and 81970883)+7 种基金the Natural Science Foundation of Jiangsu Province(BK20232007)the Science and Technology Department of Sichuan Province(2021YFS0371)Shenzhen Fundamental Research Program(JCYJ20210324125608022)the Open Project Fund of Guangdong Academy of Medical Sciences(YKY-KF202201)Beijing Natural Science Foundation(Z200019)the Jiangsu Provincial Scientific Research Center of Applied Mathematics(BK20233002)the China Postdoctoral Science Foundation(2023TQ0056,2023M730575,and GZC20230435)Jiangsu Funding Program for Excellent Postdoctoral Talent(2023ZB822).
文摘The mammalian cochlea relies on outer and inner hair cells(OHCs/IHCs)for sound amplification and signal transmission.Rab3-interacting molecular binding protein 2(RIMBP2),expressed in receptor cells and neurons at synaptic active zones,remains poorly characterized in hearing.We therefore generated a Rimbp2 knockout(KO)mouse model(Rimbp^(2-/-)),which exhibited severe hearing loss with elevated thresholds,prolonged latencies,and reduced amplitudes in auditory brainstem response Wave I.OHC loss via apoptosis was correlated with threshold elevation.In IHCs,patch-clamp recordings revealed reduced exocytosis,including a diminished readily-releasable pool,impaired sustained release,and blocked fast endocytosis.Immunostaining showed unchanged ribbon synapse numbers but positional shifts in the basal pole of KO IHCs.These findings demonstrated RIMBP2’s essential role in OHC survival and its broader regulatory functions in IHC synaptic transmission than previously recognized.
基金financially supported by the National Natural Science Foundation of China (22472199)Chinese Universities Scientific Fund (15055009)Central University Guided Funds for Building World-Class Universities (Disciplines) and Advancing Characteristic Development
文摘Electrocatalytic glucose oxidation to high-value chemicals provides a sustainable route for biomass valorization.NiCo-based catalysts have emerged as promising candidates for glucose oxidation reaction owing to the intrinsic activity of Ni and Co catalytic centers.However,the dynamic evolution and atomic-scale synergy between these centers remain elusive.Herein,we fabricated NiCo_(2)O_(4)nanosheets supported on nickel foam,where Ni preferentially occupies tetrahedral sites to regulate the electronic configuration of octahedral Co.Experimental and theoretical results demonstrate that the incorporation of tetrahedral Ni induces low-to-intermediate spin transition in octahedral Co,thereby optimizing eg orbital occupancy and stabilizing active sites.This spin-state engineering establishes Ni-Co synergistic catalytic centers for the selective oxidation of glucose to formate(FA).At higher potential(≥1.4 V vs.RHE),octahedral Co undergoes reconstruction into excessive active CoOOH and CoO_(2)species,resulting in glucose overoxidation to CO_(2)and intensified competitive oxygen evolution.In contrast,at lower potentials(<1.4 V vs.RHE),tetrahedral Ni facilitates electron delocalization across the Ni–O–Co lattice,thereby stabilizing octahedral Co for glucose adsorption and oxidation.Subsequently,a coupled electrocatalytic system was constructed,achieving 80.7%FA yield with 91.3%Faradaic efficiency(FE)at NiCo_(2)O_(4)anode and H2 evolution rate of 696μmol h^(−1)with 99.9%FE at Pt cathode for 2 h under 1.35 V vs.RHE.This work provides a deep insight into spin-state regulation of the catalytic center,offering valuable guidance for rational catalyst design.
基金financially supported by the Science and Technology Project of Nantong City(Grant No.JC2021097)the Key Project Fund for Clinical Medicine Special Program of Nantong University(Grant No.2024JZ043)Jiangsu Provincial Administration for Market Regulation Science and Technology Program Project(Grant No.KJ2026104).
文摘Background:Jianpi Huazhi Wan(JPHZW)is the hospital preparation of Nantong Hospital of Traditional Chinese Medicine.The clinical effect of JPHZW on gastrointestinal diseases is remarkable,but its mechanism of action is not clear.This study aimed to investigate the therapeutic effects of JPHZW and explore its mechanism of action through colonic transcriptomics and gut microbiota analysis.Methods:An ulcerative colitis(UC)mice model was established to evaluate the therapeutic effect of JPHZW.The expression levels of specific inflammatory factors in colon tissue were determined by ELISA.Colonic transcriptome sequencing was performed to identify candidate targets.The effects of JPHZW on gut microbiota were analyzed using 16S rRNA sequencing.Finally,relevant signaling pathways were verified via Western blotting to elucidate the mechanism of action of JPHZW.Results:JPHZW significantly improved the DAI Score and reduced the expression levels of pro-inflammatory factors,such as MCP-1,IL-17A,and IFN-γ,while increasing the expression levels of anti-inflammatory factors,such as IL-4,EGF,and GM-CSF in UC mice.Colonic transcriptome sequencing revealed that the Peroxisome PPAR-γ/NF-κB signaling pathway was closely associated with JPHZW’s anti-UC effect.Furthermore,WB analysis demonstrated that JPHZW treatment significantly inhibited the upregulation the expression of NF-κB and significantly upregulated the expression of PPAR-γ.In addition,16S rRNA sequencing analysis indicated that the relative abundance of beneficial bacteria was improved.Conclusion:These findings demonstrate that JPHZW alleviates DSS-induced ulcerative colitis in mice by regulating the PPAR-γ/NF-κB signaling pathway to suppress inflammatory factors,while simultaneously improving gut microbiota composition by increasing the relative abundance of beneficial bacteria.
基金Supported by the National Natural Science Foundation of China(Grant No.52271319)the Jiangsu Funding Program for Excellent Postdoctoral Talent,and the Postdoctoral Fellowship Program of China Postdoctoral Science Foundation(Grant No.GZC20240618)the Natural Science Foundation of Jiangsu Province of China(BK20231525).
文摘In this study,the dynamic characteristics of microscale floating bubbles near the vertical wall are studied.This occurrence is common in industrial and natural phenomena.Although many studies have been conducted on microscale bubbles,few studies investigate floating bubbles with very small Reynolds number(Re)near the wall,which is the main research goal of this study.Therefore,this study establishes a model for the ascent of small-scale bubbles near a vertical wall using the interFoam solver in OpenFOAM.This study investigates the influences of diverse viscosity parameters,varying distances from the wall,and different gas flow rates on the terminal velocity,deformation,and motion trajectory of bubbles.The results reveal that as liquid viscosity increases,the Re of bubbles gradually decreases and reaches a minimum of 0.012,which is similar to the Re of micrometer-sized bubbles in water.The characteristics of the wall-induced force in the longitudinal direction are closely related to the changes in liquid viscosity.Under low-viscosity conditions,the induced lift is the principal form of action,whereas under high-viscosity conditions,it is primarily manifested as induced drag.
基金part supported by the National Natural Science Foundation(62203034,62273126,62203035)the Ling-Yan Research and Development Project of Zhejiang Province of China(2023C03185)。
文摘The focus of this paper is on distributed average tracking(DAT)in the context of external disturbances,utilizing an event-triggered control mechanism.First,an event-triggered anti-disturbance DAT(ETAD-DAT)algorithm is proposed to reduce communication load in networked control systems by redesigning existing anti-disturbance DAT algorithms and disturbance observers.Furthermore,a fully distributed event-triggering condition is employed to schedule event times for each agent.Simulation results demonstrate that the proposed ETAD-DAT algorithm is able to achieve accurate average tracking of multiple time-varying reference signals despite the presence of external disturbances,while the communication efficiency can be improved obviously.
基金Supported by the Guangdong Provincial Natural Science Foundation(No.2114050001527).
文摘Micro/nanoplastics(M/NPs)have become pervasive environmental pollutants,posing significant risks to human health through various exposure routes,including ingestion,inhalation,and direct contact.This review systematically examined the potential impacts of M/NPs on ocular health,focusing on exposure pathways,toxicological mechanisms,and resultant damage to the eye.Ocular exposure to M/NPs can occur via direct contact and oral ingestion,with the latter potentially leading to the penetration of particles through ocular biological barriers into ocular tissues.The review highlighted that M/NPs can induce adverse effects on the ocular surface,elevate intraocular pressure,and cause abnormalities in the vitreous and retina.Mechanistically,oxidative stress and inflammation are central to M/NP-induced ocular damage,with smaller particles often exhibiting greater toxicity.Overall,this review underscored the potential risks of M/NPs to ocular health and emphasized the need for further research to elucidate exposure mechanisms,toxicological pathways,and mitigation strategies.
基金This work was supported by the Hubei Science and Technology Program(No.2020CFB231)Youth Talent Project of Health Commission of Hubei Province(No.ZY2021Q026)Hubei University of Science and Technology Doctoral Startup Fund Project(No.BK202029).
文摘Objective:To explore the molecular mechanism of Zixinyin oral liquid(ZOL)in the treatment of insomnia.Methods:The compounds and action targets of four herbal medicines in ZOL were collected via Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform.Genes corresponding to the targets were queried from the UniProt database.Genecards database was searched to screen the related targets of insomnia.A Gene Ontologyfunction enrichment analysis and a Kyoto Encyclopedia of Genes and Genomespathway enrichment analysis were performed by Database for Annotation,Visualization and Integrated Discovery.AutoDock software was used for molecular docking to verify the results of network analysis.Results:A total of 47 effective compounds and 187 potential targets of ZOL were screened out from the four drugs.A total of 2592 disease targets were screened out from the genecards database,and there were 1576 genes whose relevance score≥0.5.46 genes were obtained by taking the intersection of 187 potential targets of ZOL and 1,576 targets of insomnia.A total of 3,405 entries were obtained from Gene Ontologyfunctional enrichment(P<0.05).A total of 195 signaling pathways were obtained through a Kyoto Encyclopedia of Genes and Genomespathway analysis(P<0.05).Tumor necrosis factor,interleukin 17and hypoxia inducible factor-1signaling pathways were closely related to insomnia.The results of molecular docking show that all the core compounds of ZOL had a certain degree of affinity with gamma-aminobutyric acid receptor subunit alpha-1(GABRA1)and tumor necrosis factor-α(TNF-α).Paeoniflorgenone shows the highest affinity with GABRA1,and beta-sitosterol shows the highest affinity withTNF-α.ZOLmay have a therapeutic effect on insomnia through its action on targets such as GABRA1 and TNF-α,meanwhile regulating many signaling pathways.
