[Objectives] Taking mice with acute liver injury induced by CCl_4 as the model,the effect of arabinose + mannose( w/w = 1∶ 1) on mice with acute liver injury induced by CCl_4 was studied. [Methods]60 experimental mic...[Objectives] Taking mice with acute liver injury induced by CCl_4 as the model,the effect of arabinose + mannose( w/w = 1∶ 1) on mice with acute liver injury induced by CCl_4 was studied. [Methods]60 experimental mice were selected and then randomly divided into normal control,model group and positive group( bifendate 120 mg/kg),high-dose arabinose + mannose group( 800 mg/kg),middle-dose arabinose + mannose group( 400 mg/kg) and low-dose arabinose + mannose group( 200 mg/kg),each group had 10 mice,which were fed adaptively for 1 week. Except normal control group and model group,each treatment group was given medicine by gavage once a day and lasted for7 days according to the dosage of 20 ml/kg. After the last drug,except normal control group,the mice of other groups were injected 10 ml/kg0. 12% CC14 peanut oil through enterocoelia,thereby establishing acute liver injury model. The mice were fasted but not water for 24 h,after that,blood was sampled from mice eyes,then dissected rapidly. The activities of ALT and AST in the serum were determined,the expression levels of TNF-α,IL-1β and IL-6 from the hepatic tissues were detected by enzyme-linked immunosorbent assay( ELISA); then after HE dye,the changes of liver histopathology were observed. [Results]Compared with CCl_4 model,the activities of ALT and AST from the serum of mice from high-dose and middle dose groups decreased significantly( P < 0. 01); the contents of TNF-α,IL-1β and IL-6 from the hepatic tissues of mice decreased significantly( P < 0. 01); the pathological section showed that the liver injury of mice from the combined drug groups showed alleviating trend to varying degrees,in which the liver injury of mice from the high-dose group was the best. [Conclusions] Arabinose + mannose has an obvious protective effect on mice with acute liver injury induced by CCl_4,and its mechanism may relate to anti-inflammatory.展开更多
Lignocellulosic biomass photoreforming is a promising and alternative strategy for both sustainable H_(2) production and biomass valorization with infinite solar energy.However,harsh reaction conditions(high alkalinit...Lignocellulosic biomass photoreforming is a promising and alternative strategy for both sustainable H_(2) production and biomass valorization with infinite solar energy.However,harsh reaction conditions(high alkalinity or toxic organic solvents),with low biomass conversion and selectivity are often reported in literature.In this work,we report glucose photoreforming for coproduction of H_(2) and arabinose with improved selectivity under neutral condition using carbon quantum dots(CQDs)modified TiO_(2) composites.We show that the conventional CQDs fabricated by a facile one-step hydrothermal process could be endowed with novel color changing property,due to the particle aggregation under the regulation of incident light.The as-fabricated CQDs/TiO_(2) composites with certain colored CQDs could greatly improve glucose to arabinose conversion selectivity(-75%)together with efficient hydrogen evolution(up to 2.43 mmolh^(-1)g^(-1))in water.The arabinose is produced via the direct C1-C2 α-scissions mechanism with reactive oxygen species of·O_(2)^(-) and·OH,as evidenced by ^(13)C labeled glucose and the electron spin-resonance(ESR)studies,respectively.This work not only sheds new lights on CQDs assisted photobiorefinery for biomass valorization and H_(2) coproduction,but also opens the door for rationale design of different colored CQDs and their potential applications for solar energy utilization in the noble-metal-free system.展开更多
Arabinans are found in the pectic network of many cell walls, where, along with galactan, they are present as side chains of Rhamnogalacturonan I. Whilst arabinans have been reported to be abundant polymers in the cel...Arabinans are found in the pectic network of many cell walls, where, along with galactan, they are present as side chains of Rhamnogalacturonan I. Whilst arabinans have been reported to be abundant polymers in the cell walls of seeds from a range of plant species, their proposed role as a storage reserve has not been thoroughly investigated. In the cell walls of Arabidopsis seeds, arabinose accounts for approximately 40% of the monosaccharide composition of non- cellulosic polysaccharides of embryos. Arabinose levels decline to -15% during seedling establishment, indicating that cell wall arabinans may be mobilized during germination. Immunolocalization of arabinan in embryos, seeds, and seedlings reveals that arabinans accumulate in developing and mature embryos, but disappear during germination and seedling establishment. Experiments using 14C-arabinose show that it is readily incorporated and metabolized in growing seedlings, indicating an active catabolic pathway for this sugar. We found that depleting arabinans in seeds using a fungal arabinanase causes delayed seedling growth, lending support to the hypothesis that these polymers may help fuel early seedling growth.展开更多
基金Supported by Natural Science Foundation of China(81360685)
文摘[Objectives] Taking mice with acute liver injury induced by CCl_4 as the model,the effect of arabinose + mannose( w/w = 1∶ 1) on mice with acute liver injury induced by CCl_4 was studied. [Methods]60 experimental mice were selected and then randomly divided into normal control,model group and positive group( bifendate 120 mg/kg),high-dose arabinose + mannose group( 800 mg/kg),middle-dose arabinose + mannose group( 400 mg/kg) and low-dose arabinose + mannose group( 200 mg/kg),each group had 10 mice,which were fed adaptively for 1 week. Except normal control group and model group,each treatment group was given medicine by gavage once a day and lasted for7 days according to the dosage of 20 ml/kg. After the last drug,except normal control group,the mice of other groups were injected 10 ml/kg0. 12% CC14 peanut oil through enterocoelia,thereby establishing acute liver injury model. The mice were fasted but not water for 24 h,after that,blood was sampled from mice eyes,then dissected rapidly. The activities of ALT and AST in the serum were determined,the expression levels of TNF-α,IL-1β and IL-6 from the hepatic tissues were detected by enzyme-linked immunosorbent assay( ELISA); then after HE dye,the changes of liver histopathology were observed. [Results]Compared with CCl_4 model,the activities of ALT and AST from the serum of mice from high-dose and middle dose groups decreased significantly( P < 0. 01); the contents of TNF-α,IL-1β and IL-6 from the hepatic tissues of mice decreased significantly( P < 0. 01); the pathological section showed that the liver injury of mice from the combined drug groups showed alleviating trend to varying degrees,in which the liver injury of mice from the high-dose group was the best. [Conclusions] Arabinose + mannose has an obvious protective effect on mice with acute liver injury induced by CCl_4,and its mechanism may relate to anti-inflammatory.
基金supported by the Canada First Research Excellence Fund (CFREF)National Key R&D Program of China (2016YFA0202602).
文摘Lignocellulosic biomass photoreforming is a promising and alternative strategy for both sustainable H_(2) production and biomass valorization with infinite solar energy.However,harsh reaction conditions(high alkalinity or toxic organic solvents),with low biomass conversion and selectivity are often reported in literature.In this work,we report glucose photoreforming for coproduction of H_(2) and arabinose with improved selectivity under neutral condition using carbon quantum dots(CQDs)modified TiO_(2) composites.We show that the conventional CQDs fabricated by a facile one-step hydrothermal process could be endowed with novel color changing property,due to the particle aggregation under the regulation of incident light.The as-fabricated CQDs/TiO_(2) composites with certain colored CQDs could greatly improve glucose to arabinose conversion selectivity(-75%)together with efficient hydrogen evolution(up to 2.43 mmolh^(-1)g^(-1))in water.The arabinose is produced via the direct C1-C2 α-scissions mechanism with reactive oxygen species of·O_(2)^(-) and·OH,as evidenced by ^(13)C labeled glucose and the electron spin-resonance(ESR)studies,respectively.This work not only sheds new lights on CQDs assisted photobiorefinery for biomass valorization and H_(2) coproduction,but also opens the door for rationale design of different colored CQDs and their potential applications for solar energy utilization in the noble-metal-free system.
文摘Arabinans are found in the pectic network of many cell walls, where, along with galactan, they are present as side chains of Rhamnogalacturonan I. Whilst arabinans have been reported to be abundant polymers in the cell walls of seeds from a range of plant species, their proposed role as a storage reserve has not been thoroughly investigated. In the cell walls of Arabidopsis seeds, arabinose accounts for approximately 40% of the monosaccharide composition of non- cellulosic polysaccharides of embryos. Arabinose levels decline to -15% during seedling establishment, indicating that cell wall arabinans may be mobilized during germination. Immunolocalization of arabinan in embryos, seeds, and seedlings reveals that arabinans accumulate in developing and mature embryos, but disappear during germination and seedling establishment. Experiments using 14C-arabinose show that it is readily incorporated and metabolized in growing seedlings, indicating an active catabolic pathway for this sugar. We found that depleting arabinans in seeds using a fungal arabinanase causes delayed seedling growth, lending support to the hypothesis that these polymers may help fuel early seedling growth.
