BACKGROUND: Microglia function as the immune surveyors of the brain under normal physiologica conditions. However, microglia become activated in response to brain injuries and immunological OBJECTIVE: To explore the...BACKGROUND: Microglia function as the immune surveyors of the brain under normal physiologica conditions. However, microglia become activated in response to brain injuries and immunological OBJECTIVE: To explore the influence of scorpion venom (SV) heat-resistant protein on frontal cortex and hippocampal microglia cells in a mice model of Parkinson's disease. DESIGN, TIME AND SETTING: Randomized, controlled, cellular immunity study. The experiment was performed at the Physiology Department Laboratory in Dalian Medical University between June 2005 and July 2008. MATERIALS: Ninety-six healthy, C57B1/6 mice; 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) from Sigma, USA; SV heat-resistant protein (Experimental Base Institute in Dalian Medical University). The mice were randomly divided into four groups (n = 24): normal control, negative control, model, and SV heat-resistant protein. METHODS: Mice in the model and SV heat-resistant protein groups were subcutaneously injected with MPTP (20 mg/kg) to model Parkinson's disease, while the normal control and negative control groups were injected with physiological saline in the neck for 8 successive days. In addition, mice in the model and normal control groups were intraperitoneally injected with physiological saline 2 hours following administration, while SV heat-resistant protein and negative control groups were injected SV heat-resistant protein (0.01 mg/kg). MAIN OUTCOME MEASURES: lmmunoreactivity of microglia cells in MPTP-treated mice. RESULTS: Compared with normal control mice, MPTP-treated mice displayed increased OX-42 expression in the brain. However, in the SV heat-resistant protein-treated mice, OX-42 expression was decreased, compared to the model group. In the model mouse group, the number of OX-42-positive microglia was increased in the frontal cortex, caudatum, and hippocampal hilus, compared to the normal control mice (P 〈 0.01). However, in the SV heat-resistant protein-treated mice, the number of OX-42-positive microglia significantly decreased in the frontal cortex, caudatum, and hippocampal hilus, compared to the model group (P 〈 0.01). CONCLUSION: SV heat-resistant protein inhibited MPTP-induced microglial activation in the mouse frontal cortex and hippocampus, resulting in reduced microglial activation in the brain.展开更多
Energy management is facing new challenges due to the increasing supply and demand uncertainties,which is caused by the integration of variable generation resources,inaccurate load forecasts and non-linear efficiency ...Energy management is facing new challenges due to the increasing supply and demand uncertainties,which is caused by the integration of variable generation resources,inaccurate load forecasts and non-linear efficiency curves.To meet these challenges,a robust optimization method incorporating piecewise linear thermal and electrical efficiency curve is proposed to accommodate the uncertainties of cooling,thermal and electrical load,as well as photovoltaic(PV)output power.Case study results demonstrate that the robust optimization model performs better than the deterministic optimization model in terms of the expected operation cost.The fluctuation of net electrical load has greater effect on the dispatching results of the combined cooling,heating and power(CCHP)microgrid than the fluctuation of the cooling and thermal load.The day-ahead schedule is greatly affected by the uncertainty budget of the load demand.The economy of the optimal decision could be achieved by adjusting different uncertainty budget levels according to control the conservatism of the model.展开更多
The effects of amphiphilic O/W emulsions,stabilized by the alkyl polyglycoside(APG)or cholesterol-grafted sodium alginate(CSAD)/APG systems,on lambda-cyhalothrin adsorption/desorption mechanisms on natural soil minera...The effects of amphiphilic O/W emulsions,stabilized by the alkyl polyglycoside(APG)or cholesterol-grafted sodium alginate(CSAD)/APG systems,on lambda-cyhalothrin adsorption/desorption mechanisms on natural soil minerals(i.e.,illite and kaolinite)were investigated.Sorption and desorption of lambda-cyhalothrin onto soil minerals was studied via batch equilibration to give insight into the adsorption equilibrium,kinetics,and thermodynamics of lambda-cyhalothrin adsorption onto minerals.The results indicate the following:(i)The adsorption processes for the APG system and CSAD/APG system include:rapid adsorption,slow adsorption,and adsorption equilibrium.The adsorption kinetics of pesticide on illite and kaolinite are in accordance with the Ho and McKay model,and the adsorption isotherm conforms to the Freundlich model.In addition,the adsorption processes of pesticide for the two systems on minerals were spontaneous and feasible(ΔG^0<0),endothermic(ΔH^0>0),and mainly involved chemical bonding(ΔH^0>60).(ii)The equilibrium adsorption percentages of the pesticide on illite for the APG system and CSAD/APG system were 42.4%and 64.8%,and the corresponding equilibrium adsorption percentages on kaolinite were 40.8%and 61.8%,respectively.Moreover,the pesticide adsorption rate K_(2-CSAD/APG)was faster than K_(2-APG),and its adsorption capacity K_(f-CSAD/APG )was greater than K_(f-APG).Meanwhile,the pesticide desorption K_(fd)in the CSAD/APG system was smaller than that in the APG system.As a result,this eco-friendly O/W emulsion based on amphiphilic sodium alginate derivatives might provide a green pesticide formulation,since it could reduce the amount of lambda-cyhalothrin entering aquatic systems to threaten non-target fish and invertebrate species.展开更多
基金National Natural Science Foundation of China, No.30770737
文摘BACKGROUND: Microglia function as the immune surveyors of the brain under normal physiologica conditions. However, microglia become activated in response to brain injuries and immunological OBJECTIVE: To explore the influence of scorpion venom (SV) heat-resistant protein on frontal cortex and hippocampal microglia cells in a mice model of Parkinson's disease. DESIGN, TIME AND SETTING: Randomized, controlled, cellular immunity study. The experiment was performed at the Physiology Department Laboratory in Dalian Medical University between June 2005 and July 2008. MATERIALS: Ninety-six healthy, C57B1/6 mice; 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) from Sigma, USA; SV heat-resistant protein (Experimental Base Institute in Dalian Medical University). The mice were randomly divided into four groups (n = 24): normal control, negative control, model, and SV heat-resistant protein. METHODS: Mice in the model and SV heat-resistant protein groups were subcutaneously injected with MPTP (20 mg/kg) to model Parkinson's disease, while the normal control and negative control groups were injected with physiological saline in the neck for 8 successive days. In addition, mice in the model and normal control groups were intraperitoneally injected with physiological saline 2 hours following administration, while SV heat-resistant protein and negative control groups were injected SV heat-resistant protein (0.01 mg/kg). MAIN OUTCOME MEASURES: lmmunoreactivity of microglia cells in MPTP-treated mice. RESULTS: Compared with normal control mice, MPTP-treated mice displayed increased OX-42 expression in the brain. However, in the SV heat-resistant protein-treated mice, OX-42 expression was decreased, compared to the model group. In the model mouse group, the number of OX-42-positive microglia was increased in the frontal cortex, caudatum, and hippocampal hilus, compared to the normal control mice (P 〈 0.01). However, in the SV heat-resistant protein-treated mice, the number of OX-42-positive microglia significantly decreased in the frontal cortex, caudatum, and hippocampal hilus, compared to the model group (P 〈 0.01). CONCLUSION: SV heat-resistant protein inhibited MPTP-induced microglial activation in the mouse frontal cortex and hippocampus, resulting in reduced microglial activation in the brain.
基金supported by the National Science Foundation of China (No.51277027)the National Science and Technology Support Program of China (No.2015BAA01B01)the State Grid Corporation of China (SGTYHT/14-JS-188)
文摘Energy management is facing new challenges due to the increasing supply and demand uncertainties,which is caused by the integration of variable generation resources,inaccurate load forecasts and non-linear efficiency curves.To meet these challenges,a robust optimization method incorporating piecewise linear thermal and electrical efficiency curve is proposed to accommodate the uncertainties of cooling,thermal and electrical load,as well as photovoltaic(PV)output power.Case study results demonstrate that the robust optimization model performs better than the deterministic optimization model in terms of the expected operation cost.The fluctuation of net electrical load has greater effect on the dispatching results of the combined cooling,heating and power(CCHP)microgrid than the fluctuation of the cooling and thermal load.The day-ahead schedule is greatly affected by the uncertainty budget of the load demand.The economy of the optimal decision could be achieved by adjusting different uncertainty budget levels according to control the conservatism of the model.
基金supported by the Key Projects in the Hainan provincial Science & Technology Program (Nos. ZDYF2018061, ZDYF2018107)the National Natural Science Foundation of China (Nos. 21566009, 21706045)+1 种基金the Natural Science Foundation of Hainan Province (No. 217021)the Key Laboratory of Water Environment Pollution Treatment & Resource of Hainan Province
文摘The effects of amphiphilic O/W emulsions,stabilized by the alkyl polyglycoside(APG)or cholesterol-grafted sodium alginate(CSAD)/APG systems,on lambda-cyhalothrin adsorption/desorption mechanisms on natural soil minerals(i.e.,illite and kaolinite)were investigated.Sorption and desorption of lambda-cyhalothrin onto soil minerals was studied via batch equilibration to give insight into the adsorption equilibrium,kinetics,and thermodynamics of lambda-cyhalothrin adsorption onto minerals.The results indicate the following:(i)The adsorption processes for the APG system and CSAD/APG system include:rapid adsorption,slow adsorption,and adsorption equilibrium.The adsorption kinetics of pesticide on illite and kaolinite are in accordance with the Ho and McKay model,and the adsorption isotherm conforms to the Freundlich model.In addition,the adsorption processes of pesticide for the two systems on minerals were spontaneous and feasible(ΔG^0<0),endothermic(ΔH^0>0),and mainly involved chemical bonding(ΔH^0>60).(ii)The equilibrium adsorption percentages of the pesticide on illite for the APG system and CSAD/APG system were 42.4%and 64.8%,and the corresponding equilibrium adsorption percentages on kaolinite were 40.8%and 61.8%,respectively.Moreover,the pesticide adsorption rate K_(2-CSAD/APG)was faster than K_(2-APG),and its adsorption capacity K_(f-CSAD/APG )was greater than K_(f-APG).Meanwhile,the pesticide desorption K_(fd)in the CSAD/APG system was smaller than that in the APG system.As a result,this eco-friendly O/W emulsion based on amphiphilic sodium alginate derivatives might provide a green pesticide formulation,since it could reduce the amount of lambda-cyhalothrin entering aquatic systems to threaten non-target fish and invertebrate species.
