Maternal consumption of a high-fat diet has been linked to increased risks of obesity and impaired glucose metabolism in offspring.However,the precise epigenetic mechanisms governing these intergenerational effects,pa...Maternal consumption of a high-fat diet has been linked to increased risks of obesity and impaired glucose metabolism in offspring.However,the precise epigenetic mechanisms governing these intergenerational effects,particularly during the early stages of offspring development,remain poorly understood.In this study,female C57BL/6J mice were randomly assigned to either a high-fat diet or normal chow diet throughout gestation and lactation.Methylated DNA immunoprecipitation(MeDIP)coupled with microarray analysis was employed to identify differentially methylated genes in the livers of offspring at weaning age.We found that maternal high-fat diet feeding predisposes offspring to obesity and impaired glucose metabolism as early as the weaning period.DNA methylation profile analysis unveiled a significant enrichment of differentially methylated genes within the natural killer(NK)cell-mediated cytotoxicity pathway.MeDIP-PCR validated reduced methylation levels of specific genes within this pathway,including tumour necrosis factorα(TNF-α),phosphoinositide 3-kinase(PI3K),and SHC adaptor protein 1(SHC1).Consistently,the expressions of TNF-α,PI3K,and SHC1 were significantly upregulated,accompanied by elevated serum TNF-αand interleukin-6(IL-6)levels in offspring from dams fed with high-fat diet.Moreover,we assessed the expressions of genes associated with NK cell activities,uncovering a notable rise in hepatic granzyme B levels and a trend towards increased CD107a expression in offspring from dams fed a high-fat diet.In addition,methylation levels of TNF-α,PI3K,and SHC1 promoters were inversely correlated with glucose response during glucose tolerance testing.In conclusion,our findings underscore the critical role of the NK cell-mediated cytotoxicity signaling pathway in mediating DNA methylation patterns,thereby contributing to the programming effects of maternal high-fat diet consumption on offspring glucose metabolism as early as the weaning period.展开更多
In this work,a novel bifunctional zirconium dioxide@zeolitic imidazolate framework-90(ZrO_(2)@ZIF-90)nanozyme was successfully developed for the catalytic degradation and electrochemical detection of methyl parathion(...In this work,a novel bifunctional zirconium dioxide@zeolitic imidazolate framework-90(ZrO_(2)@ZIF-90)nanozyme was successfully developed for the catalytic degradation and electrochemical detection of methyl parathion(MP).The ZrO_(2)@ZIF-90 nanozyme with phosphatase hydrolysis activity can convert MP into p-nitrophenol(p-NP).The addition of ZrO_(2)riched in Lewis acid Zr(IV)sites significantly enhanced the phosphatase hydrolysis activity of ZIF-90.ZrO_(2)@ZIF-90 also displayed satisfactory electrocatalytic performance on account of the high surface area,high porosity and powerful enrichment ability of the ZIF-90 and the excellent ion transfer capacity of ZrO_(2).A ZrO_(2)@ZIF-90 nanozyme modified glassy carbon electrode(ZrO_(2)@ZIF-90/GCE)was then fabricated to analyze p-NP formed through MP degradation.Under the optimized conditions,the developed sensor displayed satisfactory analytical performance with a low limit of detection of 0.53μmol/L and two wide linear ranges(3-10 and 10-200μmol/L).ZrO_(2)@ZIF-90 nanozyme accomplished to the degradation and electrochemical detection of MP in river water and spiked fruits.This study identifies a promising new strategy for the design of bifunctional nanozymes for the detection of environmental hazards.展开更多
As a widely used food preservative,methyl paraben was experimentally evidenced with serious hormonelike adverse effects.Herein,a high performance thin-layer chromatography platformed bioluminescent bioautography and i...As a widely used food preservative,methyl paraben was experimentally evidenced with serious hormonelike adverse effects.Herein,a high performance thin-layer chromatography platformed bioluminescent bioautography and image analysis for the selective quantification and confirmation of methyl paraben was proposed and validated in vinegar and coconut juice.First,the detectability of the bioautography to the analyte on different layer materials was estimated,revealing that normal silica gel was the best choice.After that,the liquid of sample extract and working solution were separated to overcome the background noises due to co-extracted matrices.The separation result was then coupled to the optimized bioautography,enabling instant and straightforward screening of the targeted conpound.For accurate quantification,bioluninescent inhibition pattern caused by the analyte was processed by image analysis,giving useful sensitivity(LOD>16 mg/kg),precision(RSD<10.1%)and accuracy(spike-recovery rate 76.9%-112.2%).Finally,the suspected result was confirmed by determining its MS fingerprint,further strengthening the reliability of screening.展开更多
Product selectivity and reaction pathway are highly dependent on surface structure of heterogeneous catalysts.For vapor-phase hydrogenation of dimethyl oxalate(DMO),"EG route"(DMO→methyl glycolate(MG)ethyle...Product selectivity and reaction pathway are highly dependent on surface structure of heterogeneous catalysts.For vapor-phase hydrogenation of dimethyl oxalate(DMO),"EG route"(DMO→methyl glycolate(MG)ethylene glycol(EG)→ethanol(ET))and"MA route"(DMO→MG→methyl acetate(MA))were proposed over traditional Cu based catalysts and Mo-based or Fe-based catalysts,respectively.Herein,tunable yield of ET(93.7%)and MA(72.1%)were obtained through different reaction routes over WO_(x) modified Cu/SiO_(2) catalysts,and the corresponding reaction route was further proved by kinetic study and in-situ DRIFTS technology.Mechanistic studies demonstrated that H_(2) activation ability,acid density and Cu-WO_(x) interaction on the catalysts were tuned by regulating the surface W density,which resulted in the different reaction pathway and product selectivity.What's more,high yield of MA produced from DMO hydrogenation was firstly reported with the H_(2) pressure as low as 0.5 MPa.展开更多
The contents of seven different phenolic acids such as gallic acid, catechinic acid, pyrocatechol, caffeic acid, coumaric acid, ferulic acid and benzoic acid in the poplar leaves (Populus Simonii×Populus Pyramib...The contents of seven different phenolic acids such as gallic acid, catechinic acid, pyrocatechol, caffeic acid, coumaric acid, ferulic acid and benzoic acid in the poplar leaves (Populus Simonii×Populus Pyramibalis c.v and Populus deltoids) suffocated by Methyl jasmonate (MeJA) and Methyl salicylate (MeSA) were monitored for analyzing their functions in interplant communications by using high-pressure liquid chromatography (HPLC).The results showed that the contents of phenolic acids had obviously difference in leaves exposed to either MeSA or MeJA.When P.deltoides leaves exposed to MeJA or MeSA, the level of gallic acid, coumaric acid, caffeic acid, ferulic acid and benzoic acid was increased, gallic acid in leaves treated with MeJA comes to a peak at 24 h while to a peak at 12-d having leaves treated with MeSA.When P.Simonii ×P.Pyramibalis c.v leaves were exposed to MeJA or MeSA, the level of gallic acid, pyrocatechol and ferulic acid was increased; The catechinic acid and benzoic acid had a little drop; The caffeic acid and coumaric acid were undetected in both suffocated and control leaves.This changed pattern indicated that MeJA and MeSA can act as airborne signals to induce defense response of plants.展开更多
基金sponsored by National Natural Science Foundation of China(81800703)Postdoctoral Fellowship Program of China Postdoctoral Science Foundation(GZC20231088)+8 种基金Beijing Nova Program(Z201100006820117 and 20220484181)Beijing Municipal Natural Science Foundation(7184252)the Fundamental Research Funds for the Central Universitiesthe Fundamental Research Funds for the Central Universities(BMU2021MX013)Peking University Clinical Scientist Training Program(BMU2023PYJH022)Peking University Medicine Seed Fund for Interdisciplinary ResearchChina Endocrine and Metabolism Young Scientific Talent Research Project(2022-N-02-01)China Diabetes Young Scientific Talent Research ProjectBethune-Merck Diabetes Research Fund of Bethune Charitable Foundation。
文摘Maternal consumption of a high-fat diet has been linked to increased risks of obesity and impaired glucose metabolism in offspring.However,the precise epigenetic mechanisms governing these intergenerational effects,particularly during the early stages of offspring development,remain poorly understood.In this study,female C57BL/6J mice were randomly assigned to either a high-fat diet or normal chow diet throughout gestation and lactation.Methylated DNA immunoprecipitation(MeDIP)coupled with microarray analysis was employed to identify differentially methylated genes in the livers of offspring at weaning age.We found that maternal high-fat diet feeding predisposes offspring to obesity and impaired glucose metabolism as early as the weaning period.DNA methylation profile analysis unveiled a significant enrichment of differentially methylated genes within the natural killer(NK)cell-mediated cytotoxicity pathway.MeDIP-PCR validated reduced methylation levels of specific genes within this pathway,including tumour necrosis factorα(TNF-α),phosphoinositide 3-kinase(PI3K),and SHC adaptor protein 1(SHC1).Consistently,the expressions of TNF-α,PI3K,and SHC1 were significantly upregulated,accompanied by elevated serum TNF-αand interleukin-6(IL-6)levels in offspring from dams fed with high-fat diet.Moreover,we assessed the expressions of genes associated with NK cell activities,uncovering a notable rise in hepatic granzyme B levels and a trend towards increased CD107a expression in offspring from dams fed a high-fat diet.In addition,methylation levels of TNF-α,PI3K,and SHC1 promoters were inversely correlated with glucose response during glucose tolerance testing.In conclusion,our findings underscore the critical role of the NK cell-mediated cytotoxicity signaling pathway in mediating DNA methylation patterns,thereby contributing to the programming effects of maternal high-fat diet consumption on offspring glucose metabolism as early as the weaning period.
基金financially supported by the National Natural Science Foundation of China(No.31972149)Innovation Capability Improvement Project of Scientific and Technological Small and Medium-sized Enterprises in Shandong Province(No.2022TSGC2409)the Mac Diarmid Institute for Advanced Materials and Nanotechnology and the Dodd-Walls Centre for Photonic and Quantum Technologies。
文摘In this work,a novel bifunctional zirconium dioxide@zeolitic imidazolate framework-90(ZrO_(2)@ZIF-90)nanozyme was successfully developed for the catalytic degradation and electrochemical detection of methyl parathion(MP).The ZrO_(2)@ZIF-90 nanozyme with phosphatase hydrolysis activity can convert MP into p-nitrophenol(p-NP).The addition of ZrO_(2)riched in Lewis acid Zr(IV)sites significantly enhanced the phosphatase hydrolysis activity of ZIF-90.ZrO_(2)@ZIF-90 also displayed satisfactory electrocatalytic performance on account of the high surface area,high porosity and powerful enrichment ability of the ZIF-90 and the excellent ion transfer capacity of ZrO_(2).A ZrO_(2)@ZIF-90 nanozyme modified glassy carbon electrode(ZrO_(2)@ZIF-90/GCE)was then fabricated to analyze p-NP formed through MP degradation.Under the optimized conditions,the developed sensor displayed satisfactory analytical performance with a low limit of detection of 0.53μmol/L and two wide linear ranges(3-10 and 10-200μmol/L).ZrO_(2)@ZIF-90 nanozyme accomplished to the degradation and electrochemical detection of MP in river water and spiked fruits.This study identifies a promising new strategy for the design of bifunctional nanozymes for the detection of environmental hazards.
基金financially supported by National Natural Science Foundation of China (21804058)Shanxi Postdoc Reward (SXBYKY2022001)+1 种基金Shanxi Scholarship Council of China (2021068)Shanxi Agricultural University High-Level Talent Project (2021XG013)。
文摘As a widely used food preservative,methyl paraben was experimentally evidenced with serious hormonelike adverse effects.Herein,a high performance thin-layer chromatography platformed bioluminescent bioautography and image analysis for the selective quantification and confirmation of methyl paraben was proposed and validated in vinegar and coconut juice.First,the detectability of the bioautography to the analyte on different layer materials was estimated,revealing that normal silica gel was the best choice.After that,the liquid of sample extract and working solution were separated to overcome the background noises due to co-extracted matrices.The separation result was then coupled to the optimized bioautography,enabling instant and straightforward screening of the targeted conpound.For accurate quantification,bioluninescent inhibition pattern caused by the analyte was processed by image analysis,giving useful sensitivity(LOD>16 mg/kg),precision(RSD<10.1%)and accuracy(spike-recovery rate 76.9%-112.2%).Finally,the suspected result was confirmed by determining its MS fingerprint,further strengthening the reliability of screening.
基金supported by National Natural Science Foundation of China (No.22102147 and 22002151)State Key Laboratory of Chemical Engineering (No.SKL-ChE-22A02)+2 种基金Zhejiang Provincial Natural Science Foundation of China under Grant No.LQ21B030009the Strategic Priority Research Program of the Chinese Academy of Sciences (No.XDA29050300)Qinchuang Yuan high-level innovation and entrepreneurship talents implementing project (No.QCYRCXM-2022-177)。
文摘Product selectivity and reaction pathway are highly dependent on surface structure of heterogeneous catalysts.For vapor-phase hydrogenation of dimethyl oxalate(DMO),"EG route"(DMO→methyl glycolate(MG)ethylene glycol(EG)→ethanol(ET))and"MA route"(DMO→MG→methyl acetate(MA))were proposed over traditional Cu based catalysts and Mo-based or Fe-based catalysts,respectively.Herein,tunable yield of ET(93.7%)and MA(72.1%)were obtained through different reaction routes over WO_(x) modified Cu/SiO_(2) catalysts,and the corresponding reaction route was further proved by kinetic study and in-situ DRIFTS technology.Mechanistic studies demonstrated that H_(2) activation ability,acid density and Cu-WO_(x) interaction on the catalysts were tuned by regulating the surface W density,which resulted in the different reaction pathway and product selectivity.What's more,high yield of MA produced from DMO hydrogenation was firstly reported with the H_(2) pressure as low as 0.5 MPa.
基金This research is supported by National Natural Science Foundation of China (No.30170764)
文摘The contents of seven different phenolic acids such as gallic acid, catechinic acid, pyrocatechol, caffeic acid, coumaric acid, ferulic acid and benzoic acid in the poplar leaves (Populus Simonii×Populus Pyramibalis c.v and Populus deltoids) suffocated by Methyl jasmonate (MeJA) and Methyl salicylate (MeSA) were monitored for analyzing their functions in interplant communications by using high-pressure liquid chromatography (HPLC).The results showed that the contents of phenolic acids had obviously difference in leaves exposed to either MeSA or MeJA.When P.deltoides leaves exposed to MeJA or MeSA, the level of gallic acid, coumaric acid, caffeic acid, ferulic acid and benzoic acid was increased, gallic acid in leaves treated with MeJA comes to a peak at 24 h while to a peak at 12-d having leaves treated with MeSA.When P.Simonii ×P.Pyramibalis c.v leaves were exposed to MeJA or MeSA, the level of gallic acid, pyrocatechol and ferulic acid was increased; The catechinic acid and benzoic acid had a little drop; The caffeic acid and coumaric acid were undetected in both suffocated and control leaves.This changed pattern indicated that MeJA and MeSA can act as airborne signals to induce defense response of plants.
