[Objectives]To study the effects of different application methods and application rates of biological nano-selenium on the quality of passion fruit.[Methods]In this experiment,passion fruit Tainong 1 was sprayed with ...[Objectives]To study the effects of different application methods and application rates of biological nano-selenium on the quality of passion fruit.[Methods]In this experiment,passion fruit Tainong 1 was sprayed with biological nano-selenium.The concentration of spraying refers to the recommended application rate of biological nano-selenium manufacturers.Three treatments with different concentrations were carried out:3,4.5 and 6 L/ha biological nano-selenium was sprayed on 100%root,(50%root+50%leaf surface)and 100%leaf surface of passion fruit,respectively.[Results]From the aspects of economic cost and rational utilization of resources,spraying 3 L/ha selenium fertilizer on the leaves of passion fruit played the best role in improving the quality of passion fruit.[Conclusions]To study the selenium-rich production technology of agricultural products and improve the quality of agricultural products is of great significance for improving human health and producing high-quality agricultural products.展开更多
[Objectives] This study was carried out to explore the selenium-enriching effect of different crops, and provide certain references for production of selenium-enriched agricultural products. [Methods] Four kinds of cr...[Objectives] This study was carried out to explore the selenium-enriching effect of different crops, and provide certain references for production of selenium-enriched agricultural products. [Methods] Four kinds of crops (tomato, leaf mustard, peanut, and carrot) were exogenous selenium fertilizer treated, to explore the selenium-enriching effects on these crops. [Results] Exogenous application of microbial nano-selenium can significantly increase the selenium content of the crops, of which the effects on big tomato (Weiyanuo) were the best. After spraying, the selenium content increased by 1.39 times, and at the same time the sugar content of tomato was also increased. [Conclusions] This study is expected to provide references for increase of the selenium content of agricultural products.展开更多
AIM:To investigate the effect of nano-selenium loaded with different concentrations of lycium barbarum polysaccharide(LBP-Se NPs)on the proliferation of human lens epithelial cells(HLECs)from UV irradiation.METHODS:LB...AIM:To investigate the effect of nano-selenium loaded with different concentrations of lycium barbarum polysaccharide(LBP-Se NPs)on the proliferation of human lens epithelial cells(HLECs)from UV irradiation.METHODS:LBP-Se NPs were prepared and their particle size was detected.HLECs(SRA01/04)were irradiated with UVB for different time(0,10,20,30,40,50,60 min)to construct a damaged model,the survival rate of cells was determined by methylthiazol tetrazolium(MTT)assay.The 4’,6-Diamidine-2’-phenylindole dihydrochloride(DAPI)staining was used to observe the status of cell nucleus and drug entering cytoplasm through cell membrane in SRA01/04 cells after adding LBP-SENPS loaded with coumarin fluorescence agent 24 h under fluorescence microscope.SRA01/04 normal and UVB-damaged cells were treated with different amounts of LBP-Se NPs at different concentrations,cells proliferation were observed.RESULTS:The particle size of LBP-Se NPs was stable in the range of 150-200 nm.The survival rate changes with time after UVB irradiation were statistically significant.The 10 min of UVB exposure as the time was chosen to construct the cell damage model.With DAPI staining,LBPSe NPs were observed to enter the cytoplasm through the cell membrane under fluorescence inverted microscope.Cytotoxicity of SRA01/04 at different concentrations of LBPSe NPs were measured.Cell survival rate was statistically different compared with the control group.The higher the loading concentration of LBP in nano-Se drugs was,the higher the cell proliferation rate was(P<0.05).The lower the concentration of LBP-Se NPs,the higher the cell proliferation rate,showing a negative growth trend(P<0.05).The group with the highest average cell proliferation rate was 0.5μmol/L 2.0 mg/m L LBP-Se NPs(128.80%).When the 2.0 mg/m L LBP-Se NPs group was selected for cell photography,the cell density was higher at 0.5μmol/L.With the increase of concentration,SRA01/04 cells appeared more cytoplasm dehydration,cell shrinkage and apoptotic bodies,and cell density decreased.CONCLUSION:LBP-Se NPs has moderate particle size and good stability.LBP-Se NPs can protect HLECs(SRA01/04)from UVB-induced damage,and the cell proliferation rate is further increased with increasing the amount of loaded LBP and decreasing nano-selenium concentration.展开更多
Cypermethrin (Cym) is a synthetic class II pyrethroid that is widely used and has a big risk to health. Cypermethrin produces oxidative stress and enhances inflammatory damage of liver. The present study was designed ...Cypermethrin (Cym) is a synthetic class II pyrethroid that is widely used and has a big risk to health. Cypermethrin produces oxidative stress and enhances inflammatory damage of liver. The present study was designed to investigate the ameliorating effects of NSe against Cym-induced hepatotoxicity in rats. For this purpose, twenty four male rats were divided into three groups. Group (I) was gavaged with Cym (control group), group (II) gavaged daily with Cym (1 mg/kg body weight), and group (III) gavaged with Cym + NSe (2.5 mg kg body weight/day, three times a week) for 21 days. Cypermethrin increased serum liver enzymes, oxidative stress and inflammatory markers. Administration of NSe significantly reduced the increased serum liver enzymes and inflammatory parameters and restored the antioxidant capacity in liver. Our results suggest that Nse exhibits promising hepato-protective effects against Cym-induced oxidative damage and inflammation.展开更多
This study aims to investigate the role of metal regulatory transcription factor 1(MTF1)-mediated metal response in cadmium(Cd)-induced cerebellar injury,and to evaluate the antagonistic effects of nanoselenium(Nano-S...This study aims to investigate the role of metal regulatory transcription factor 1(MTF1)-mediated metal response in cadmium(Cd)-induced cerebellar injury,and to evaluate the antagonistic effects of nanoselenium(Nano-Se)against Cd toxicity.A total of 80 chicks(1 d old,male,Hy-Line Variety White)were randomly allocated to 4 treatment groups for 3 months:the control group(fed with a basic diet,n=20),the Nano-Se group(basic diet with 1 mg/kg nano-Se 1 mg/kg Nano-Se in basic diet,n=20),the NanoSe+Cd group(basic diet with 1 mg/kg Nano-Se and 140 mg/kg Cd Cl_(2),n=20)and the Cd group(basic diet with 140 mg/kg Cd Cl_(2),n=20).The results of the experiment showed that the Purkinje cells were significantly decreased with their degradation and indistinct nucleoli after Cd exposure.Moreover,exposure to Cd caused a significant accumulation of Cd and cupper.However,the contents of Se,iron,and zinc were decreased,thereby disturbing the metal homeostasis in the cerebellum.The Cd exposure also resulted in high levels of malondialdehyde(MDA)and down regulation of selenoprotein transcriptome.Furthermore,the expressions of MTF1,metallothionein 1(MT1),MT2,zinc transporter 3(ZNT3),ZNT5,ZNT10,zrt,irt-like protein 8(ZIP8),ZIP10,transferrin(TF),ferroportin 1(FPN1),ATPase copper transporting beta(ATP7B),and copper uptake protein 1(CTR1)were inhibited by Cd exposure.However,all these changes were significantly alleviated by the supplementation of Nano-Se.This study proved that Cd could disorder metal homeostasis and induce oxidative stress,whereas Nano-Se could relieve all these negative effects caused by Cd via activating the MTF1-mediated metal response in the cerebellum of chicken.展开更多
Nano-selenium(Se)has attracted growing attention due to its high bioavailability,low toxicity and its possible applications in the prevention of oxidative damage in animal tissues.Recent research works have conveyed t...Nano-selenium(Se)has attracted growing attention due to its high bioavailability,low toxicity and its possible applications in the prevention of oxidative damage in animal tissues.Recent research works have conveyed that the use of nano-seleniumas food additive could have positive effects on the nutrition of aquatic animals.In this study,the intestinal bacterial communities associated with low and high concentrations of nano-selenium in the diet of Chinese tongue sole were characterized,through 16S rRNA V3–V4 sequencing.Samples were derived from fish fed with diet containing different nano-selenium level,0 mg/kg for the control group,1.6 mg/kg for low dose group,and 2.4 mg/kg for high dose group The intestinal microbial community structure showed a low overall diversity,among which the vibro genus occupied the most important position with more than 90%relative abundance in all three group.Significant differences in specie diversity occurred between the nanoselenium treated(both low dose[IL]and high dose[LH])groups and the control group(IC).Acinetobacter,Arthrobacter,and Streptophytes were the top three enriched genera after the treatment with nano-selenium compared to IC.Meantime,the weight gain rate of the LH group was 9%higher than control.The results revealed the effect of nano-selenium on microbial community structure of gut and growth performance of C.semilaevis,Future research exploring the interaction mechanism between micronutrients and the microbial communities would increase our understanding of the fish nutrition.展开更多
基金Guangxi Science and Technology Plan Project(Gui Ke AA17202037,Gui Ke AD19245169,Gui Ke AD18281072)Yulin Science and Technology Project(Yu Shi Ke Neng 20194301,2019CXPT00A4).
文摘[Objectives]To study the effects of different application methods and application rates of biological nano-selenium on the quality of passion fruit.[Methods]In this experiment,passion fruit Tainong 1 was sprayed with biological nano-selenium.The concentration of spraying refers to the recommended application rate of biological nano-selenium manufacturers.Three treatments with different concentrations were carried out:3,4.5 and 6 L/ha biological nano-selenium was sprayed on 100%root,(50%root+50%leaf surface)and 100%leaf surface of passion fruit,respectively.[Results]From the aspects of economic cost and rational utilization of resources,spraying 3 L/ha selenium fertilizer on the leaves of passion fruit played the best role in improving the quality of passion fruit.[Conclusions]To study the selenium-rich production technology of agricultural products and improve the quality of agricultural products is of great significance for improving human health and producing high-quality agricultural products.
基金Supported by Program of Local Specialty Crop Varieties and Protective Cultivation Technique in Foshan City(Agricultural Technology Extension Project of Foshan City in 2017-2018)Characteristic Vegetable Innovation Team of Modern Agricultural Industrial Technology System of Guangdong Province(2016LM1015)
文摘[Objectives] This study was carried out to explore the selenium-enriching effect of different crops, and provide certain references for production of selenium-enriched agricultural products. [Methods] Four kinds of crops (tomato, leaf mustard, peanut, and carrot) were exogenous selenium fertilizer treated, to explore the selenium-enriching effects on these crops. [Results] Exogenous application of microbial nano-selenium can significantly increase the selenium content of the crops, of which the effects on big tomato (Weiyanuo) were the best. After spraying, the selenium content increased by 1.39 times, and at the same time the sugar content of tomato was also increased. [Conclusions] This study is expected to provide references for increase of the selenium content of agricultural products.
基金Supported by the National Natural Science Foundation of China(No.81970806)Medical Scientific Research Foundation of Guangdong Province of China(No.A2019098)。
文摘AIM:To investigate the effect of nano-selenium loaded with different concentrations of lycium barbarum polysaccharide(LBP-Se NPs)on the proliferation of human lens epithelial cells(HLECs)from UV irradiation.METHODS:LBP-Se NPs were prepared and their particle size was detected.HLECs(SRA01/04)were irradiated with UVB for different time(0,10,20,30,40,50,60 min)to construct a damaged model,the survival rate of cells was determined by methylthiazol tetrazolium(MTT)assay.The 4’,6-Diamidine-2’-phenylindole dihydrochloride(DAPI)staining was used to observe the status of cell nucleus and drug entering cytoplasm through cell membrane in SRA01/04 cells after adding LBP-SENPS loaded with coumarin fluorescence agent 24 h under fluorescence microscope.SRA01/04 normal and UVB-damaged cells were treated with different amounts of LBP-Se NPs at different concentrations,cells proliferation were observed.RESULTS:The particle size of LBP-Se NPs was stable in the range of 150-200 nm.The survival rate changes with time after UVB irradiation were statistically significant.The 10 min of UVB exposure as the time was chosen to construct the cell damage model.With DAPI staining,LBPSe NPs were observed to enter the cytoplasm through the cell membrane under fluorescence inverted microscope.Cytotoxicity of SRA01/04 at different concentrations of LBPSe NPs were measured.Cell survival rate was statistically different compared with the control group.The higher the loading concentration of LBP in nano-Se drugs was,the higher the cell proliferation rate was(P<0.05).The lower the concentration of LBP-Se NPs,the higher the cell proliferation rate,showing a negative growth trend(P<0.05).The group with the highest average cell proliferation rate was 0.5μmol/L 2.0 mg/m L LBP-Se NPs(128.80%).When the 2.0 mg/m L LBP-Se NPs group was selected for cell photography,the cell density was higher at 0.5μmol/L.With the increase of concentration,SRA01/04 cells appeared more cytoplasm dehydration,cell shrinkage and apoptotic bodies,and cell density decreased.CONCLUSION:LBP-Se NPs has moderate particle size and good stability.LBP-Se NPs can protect HLECs(SRA01/04)from UVB-induced damage,and the cell proliferation rate is further increased with increasing the amount of loaded LBP and decreasing nano-selenium concentration.
文摘Cypermethrin (Cym) is a synthetic class II pyrethroid that is widely used and has a big risk to health. Cypermethrin produces oxidative stress and enhances inflammatory damage of liver. The present study was designed to investigate the ameliorating effects of NSe against Cym-induced hepatotoxicity in rats. For this purpose, twenty four male rats were divided into three groups. Group (I) was gavaged with Cym (control group), group (II) gavaged daily with Cym (1 mg/kg body weight), and group (III) gavaged with Cym + NSe (2.5 mg kg body weight/day, three times a week) for 21 days. Cypermethrin increased serum liver enzymes, oxidative stress and inflammatory markers. Administration of NSe significantly reduced the increased serum liver enzymes and inflammatory parameters and restored the antioxidant capacity in liver. Our results suggest that Nse exhibits promising hepato-protective effects against Cym-induced oxidative damage and inflammation.
基金National Natural Science Foundation of China(No.32172932 and No.32102739)Key Program of Natural Science Foundation of Heilongjiang Province of China(No.ZD2021C003)+5 种基金High-level Talent Scientific Research Start-up Foundation of Wanxi University(No.WGKQ2022031)China Agricultural Research System of MOF and MARA(No.CARS35)Distinguished Professor of Longjiang Scholars Support Project(No.T201908)Outstanding Talents of Henan Agricultural University(Grant No.30500997)Project funded by China Postdoctoral Science Foundation(2021M690925)Heilongjiang Touyan Innovation Team Program。
文摘This study aims to investigate the role of metal regulatory transcription factor 1(MTF1)-mediated metal response in cadmium(Cd)-induced cerebellar injury,and to evaluate the antagonistic effects of nanoselenium(Nano-Se)against Cd toxicity.A total of 80 chicks(1 d old,male,Hy-Line Variety White)were randomly allocated to 4 treatment groups for 3 months:the control group(fed with a basic diet,n=20),the Nano-Se group(basic diet with 1 mg/kg nano-Se 1 mg/kg Nano-Se in basic diet,n=20),the NanoSe+Cd group(basic diet with 1 mg/kg Nano-Se and 140 mg/kg Cd Cl_(2),n=20)and the Cd group(basic diet with 140 mg/kg Cd Cl_(2),n=20).The results of the experiment showed that the Purkinje cells were significantly decreased with their degradation and indistinct nucleoli after Cd exposure.Moreover,exposure to Cd caused a significant accumulation of Cd and cupper.However,the contents of Se,iron,and zinc were decreased,thereby disturbing the metal homeostasis in the cerebellum.The Cd exposure also resulted in high levels of malondialdehyde(MDA)and down regulation of selenoprotein transcriptome.Furthermore,the expressions of MTF1,metallothionein 1(MT1),MT2,zinc transporter 3(ZNT3),ZNT5,ZNT10,zrt,irt-like protein 8(ZIP8),ZIP10,transferrin(TF),ferroportin 1(FPN1),ATPase copper transporting beta(ATP7B),and copper uptake protein 1(CTR1)were inhibited by Cd exposure.However,all these changes were significantly alleviated by the supplementation of Nano-Se.This study proved that Cd could disorder metal homeostasis and induce oxidative stress,whereas Nano-Se could relieve all these negative effects caused by Cd via activating the MTF1-mediated metal response in the cerebellum of chicken.
基金the Tianjin Natural Science Foundation(17JCQNJC15000)the Transformation project of Tianjin Agricultural Achievements(201604090,201703050)+2 种基金Major Special Projects of Breeding Science and Technology in Tianjin(17zxzync00010)the Special funding for modern agricultural industrial technology system(CARS-47-Z01)the Modern industrial technology system in Tianjin ITTFRS2017011.
文摘Nano-selenium(Se)has attracted growing attention due to its high bioavailability,low toxicity and its possible applications in the prevention of oxidative damage in animal tissues.Recent research works have conveyed that the use of nano-seleniumas food additive could have positive effects on the nutrition of aquatic animals.In this study,the intestinal bacterial communities associated with low and high concentrations of nano-selenium in the diet of Chinese tongue sole were characterized,through 16S rRNA V3–V4 sequencing.Samples were derived from fish fed with diet containing different nano-selenium level,0 mg/kg for the control group,1.6 mg/kg for low dose group,and 2.4 mg/kg for high dose group The intestinal microbial community structure showed a low overall diversity,among which the vibro genus occupied the most important position with more than 90%relative abundance in all three group.Significant differences in specie diversity occurred between the nanoselenium treated(both low dose[IL]and high dose[LH])groups and the control group(IC).Acinetobacter,Arthrobacter,and Streptophytes were the top three enriched genera after the treatment with nano-selenium compared to IC.Meantime,the weight gain rate of the LH group was 9%higher than control.The results revealed the effect of nano-selenium on microbial community structure of gut and growth performance of C.semilaevis,Future research exploring the interaction mechanism between micronutrients and the microbial communities would increase our understanding of the fish nutrition.
