A thermodynamic analysis of the carbothermic reduction of high-phosphorus oolitic iron ore(HPOIO) was conducted by the Fact Sage thermochemical software. The effects of temperature, C/O ratio, additive types, and do...A thermodynamic analysis of the carbothermic reduction of high-phosphorus oolitic iron ore(HPOIO) was conducted by the Fact Sage thermochemical software. The effects of temperature, C/O ratio, additive types, and dosages both on the reduction of fluorapatite and the formation of liquid slag were studied. The results show that the minimum thermodynamic reduction temperature of fluorapatite by carbon decreases to about 850°C, which is mainly ascribed to the presence of SiO_2, Al_2O_3, and Fe. The reduction rate of fluorapatite increases and the amount of liquid slag decreases with the rise of C/O ratio. The reduction of fluorapatite is hindered by the addition of CaO and Na_2CO_3, thereby allowing the selective reduction of iron oxides upon controlled C/O ratio. The thermodynamic results obtain in the present work are in good agreement with the experimental results available in the literatures.展开更多
Background:Studying the potential targets and mechanisms of Epimedium for anti-diabetic testicular injury using network pharmacology,molecular docking,and cell experiments.Methods:Acquisition of major components and t...Background:Studying the potential targets and mechanisms of Epimedium for anti-diabetic testicular injury using network pharmacology,molecular docking,and cell experiments.Methods:Acquisition of major components and targets of Epimedium was based on TCMSP,TCMID,and Symmap databases and retrieval of diabetic testicular injury targets by OMIM,GeneCards,Pharmgkb,and Drugbank databases.Intersecting targets were obtained from the Venny 2.1.0 database and input SRTING data to construct a protein-protein interaction(PPI)network,and key targets were screened in Cytoscape 3.8.0 software.Then the Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses of intersecting targets were conducted through the DAVID database.Further,AutoDock software was used to verify docking between the main components and the core target proteins.In addition,a Cell Counting Kit-8(CCK-8)assay was used to determine the survival effect of quercetin,the main component of Epimedium,on TM4 sertoli-like cells exposed to palmitic acid(PA).Results:Quercetin,kaempferol and luteolin in epimedium were identified as the main components in the treatment of diabetic testicular injury.It has core target proteins including MMP9,AKT1,and TNF.The biological process mainly involves the regulation of the apoptotic signaling pathway.The key pathways of KEGG are the AGE-RAGE signaling pathway in diabetic complications,PI3K-Akt and MAPK signaling pathway.Molecular docking results showed that quercetin had the strongest binding ability to MMP9.Also,PA-challenged cells had a lower survival rate,which was alleviated by the administration of quercetin.Conclusion:Our findings suggest that Epimedium attenuates diabetes mellitus(DM)-induced testicular injury through AGE-RAGE,PI3K-Akt and MAPK signaling pathway.These insights offer a potential therapeutic strategy for managing DM-induced testicular injury,will be the basis for future clinical research.展开更多
BACKGROUND Anemia in infants and young children can have long-term effects on cognitive and physical development.In Ma'anshan City,China,there has been growing concern about the prevalence of anemia among children...BACKGROUND Anemia in infants and young children can have long-term effects on cognitive and physical development.In Ma'anshan City,China,there has been growing concern about the prevalence of anemia among children aged 6 to 36 mo.Understanding the factors influencing this condition is crucial for targeted interventions and improving overall child health in the region.AIM To analyze the anemia status and influencing factors of infants and young children aged 6 to 36 mo in Ma'anshan City,China.Providing scientific evidence for reducing the incidence of anemia and improving the health level of children in this age group.METHODS The study encompassed 37698 infants and young children,aged from 6 to 36 mo,who underwent health examinations at the Ma'anshan Maternal and Child Health Hospital from January 2018 to October 2022 were included in the study.Basic information,physical examination,and hemoglobin detection data were collected.Descriptive analysis was used to analyze the prevalence of anemia in children in the region,and univariate analysis was used to analyze the influencing factors of anemia.RESULTS The mean hemoglobin level of infants and young children aged 9 to 36 mo increased with age,and the anemia detection rate decreased with age.The anemia detection rate in rural infants aged 6,9,and 12 mo was higher than that in urban infants.Although the anemia detection rate was higher in 6-mo-old boys than girls,it was higher in 24-mo-old girls than boys.There were statistically significant differences in the anemia detection rates among 9-mo-old and 12-mo-old infants with different nutritional statuses(emaciation,overweight,obese,and normal).Moreover,there were no statistically significant differences in anemia detection rates among infants and young children with different nutritional statuses at other ages.Besides,the anemia detection rates in obese infants aged 9 and 12 mo were higher than those in normal and overweight infants,with statistically significant differences.Finally,there were no statistically signifi展开更多
General anesthesia is an unconscious state induced by anesthetics for surgery. The molecular targets and cellular mechanisms of general anesthetics in the mammalian nervous system have been investigated during past de...General anesthesia is an unconscious state induced by anesthetics for surgery. The molecular targets and cellular mechanisms of general anesthetics in the mammalian nervous system have been investigated during past decades. In recent years, K+ channels have been identified as important targets of both volatile and intra- venous anesthetics. This review covers achievements that have been made both on the regulatory effect of general anesthetics on the activity of K+ channels and their underlying mechanisms. Advances in research on the modulation of K~ channels by general anesthetics are summarized and categorized according to four large K+ channel families based on their amino-acid sequence homology. In addition, research achievements on the roles of K+ channels in general anesthesia in vivo, especially with regard to studies using mice with K+ channel knockout, are particularly emphasized.展开更多
A first-principles study has been performed to calculate the electronic and optical properties of the SbxSn1xO system.The simulations are based upon the method of generalized gradient approximations with the Perdew-Bu...A first-principles study has been performed to calculate the electronic and optical properties of the SbxSn1xO system.The simulations are based upon the method of generalized gradient approximations with the Perdew-Burke-Ernzerhof form in the framework of density functional theory.The supercell structure shows a trend from expanding to shrinking with the increasing Sb concentration.The increasing Sb concentration induces the band gap narrowing.Optical transition has shifted to the low energy range with increasing Sb concentration.Other important optical constants such as the dielectric function,reflectivity,refractive index,and electron energy loss function for Sb-doped SnO2 are discussed.The optical absorption edge of SnO2 doped with Sb also shows a redshift.展开更多
Self-healing hydrogels have attracted growing attention over the past decade due to their biomimetic structure,biocompatibility,as well as enhanced lifespan and reliability,thereby have been widely used in various bio...Self-healing hydrogels have attracted growing attention over the past decade due to their biomimetic structure,biocompatibility,as well as enhanced lifespan and reliability,thereby have been widely used in various biomedical,electrical and environmental engineering applications.This feature article has reviewed our recent progress in self-healing hydrogels derived from mussel-inspired interactions,multiple hydrogen-bonding functional groups such as 2-ureido-4[1H]-pyrimidinohe(UPy),dynamic covalent bonds(eg,Schiff base reactions and boronic ester bonds).The underlying molecular basics of these interactions,hydrogel preparation principles,and corresponding performances and applications are introduced.The underlying reversible intermolecular interaction mechanisms in these hydrogels were investigated using nanomechanical techniques such as surface forces apparatus(SFA)and atomic force microscopy(AFM),providing fundamental insights into the self-healing mechanisms of the hydrogels.The remaining challenging issues and perspectives in this rapidly developing research area are also discussed.展开更多
In this study, we characterized strain F9 and evaluated the interaction between strain F9 and hematite by scanning electron microscopy(SEM), Fourier transform infrared spectrophotometry(FTIR), zeta potential, flot...In this study, we characterized strain F9 and evaluated the interaction between strain F9 and hematite by scanning electron microscopy(SEM), Fourier transform infrared spectrophotometry(FTIR), zeta potential, flotation, and other methods. The results showed that strain F9 belongs to Serratia marcescens. This brevibacterium had CH2, CH3, and hydroxyl groups on its cell wall, which imparted a strong hydrophobic and negative charge. Adsorption of strain F9 reduced the zeta potential of the hematite surface and increased the hydrophobicity of the hematite surface, thereby generating hydrophobic hematite agglomerates. At least four groups on strain F9 interacted with the hematite surface, which contributed to chemical interactions of carboxylic groups and hydrophobic association among hydrophobic hematite particles. The possible use of strain F9 as a bio-collector for hematite flotation was proved.展开更多
Melia L. is a small genus of only 2–3 species, which is native to Indo-Malesia, India, Pakistan and southern parts of tropical Africa. Fossil records of Melia are known from the early Miocene to the Pleistocene. Here...Melia L. is a small genus of only 2–3 species, which is native to Indo-Malesia, India, Pakistan and southern parts of tropical Africa. Fossil records of Melia are known from the early Miocene to the Pleistocene. Here we describe some mummified fossil endocarps of Melia from the upper part of the Yongning Formation(late Oligocene) in Nanning Basin, South China. These well-preserved stony endocarps are 8–14 mm long and 5–9 mm wide, and have 5 locules with a single spindle seed per locule. We interpret these endocarps as the internal remains of a Melia drupe, and assign them as a new species: M. santangensis sp. nov. This is the only fossil record of anatomically preserved Melia found in China, and also the oldest fossil record of Melia so far reported globally. The fossil record confirms the presence of Melia in Asia at the late Oligocene, and provides evidence supporting the distribution and dispersal hypothesis of the Meliaceae.展开更多
基金financially supported by the National Science Fund of China(No.51134002)the Foundation of Jiangxi Educational Committee,China(No.GJJ150624)the Doctoral Scientific Research Foundation of Jiangxi University of Science and Technology,China(No.JXXJBS16004)
文摘A thermodynamic analysis of the carbothermic reduction of high-phosphorus oolitic iron ore(HPOIO) was conducted by the Fact Sage thermochemical software. The effects of temperature, C/O ratio, additive types, and dosages both on the reduction of fluorapatite and the formation of liquid slag were studied. The results show that the minimum thermodynamic reduction temperature of fluorapatite by carbon decreases to about 850°C, which is mainly ascribed to the presence of SiO_2, Al_2O_3, and Fe. The reduction rate of fluorapatite increases and the amount of liquid slag decreases with the rise of C/O ratio. The reduction of fluorapatite is hindered by the addition of CaO and Na_2CO_3, thereby allowing the selective reduction of iron oxides upon controlled C/O ratio. The thermodynamic results obtain in the present work are in good agreement with the experimental results available in the literatures.
基金supported in part by the Scientific Research Projects of Hubei Health Commission(WJ2023M119)Hubei Province Research Innovation Team Project(T2021022).
文摘Background:Studying the potential targets and mechanisms of Epimedium for anti-diabetic testicular injury using network pharmacology,molecular docking,and cell experiments.Methods:Acquisition of major components and targets of Epimedium was based on TCMSP,TCMID,and Symmap databases and retrieval of diabetic testicular injury targets by OMIM,GeneCards,Pharmgkb,and Drugbank databases.Intersecting targets were obtained from the Venny 2.1.0 database and input SRTING data to construct a protein-protein interaction(PPI)network,and key targets were screened in Cytoscape 3.8.0 software.Then the Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses of intersecting targets were conducted through the DAVID database.Further,AutoDock software was used to verify docking between the main components and the core target proteins.In addition,a Cell Counting Kit-8(CCK-8)assay was used to determine the survival effect of quercetin,the main component of Epimedium,on TM4 sertoli-like cells exposed to palmitic acid(PA).Results:Quercetin,kaempferol and luteolin in epimedium were identified as the main components in the treatment of diabetic testicular injury.It has core target proteins including MMP9,AKT1,and TNF.The biological process mainly involves the regulation of the apoptotic signaling pathway.The key pathways of KEGG are the AGE-RAGE signaling pathway in diabetic complications,PI3K-Akt and MAPK signaling pathway.Molecular docking results showed that quercetin had the strongest binding ability to MMP9.Also,PA-challenged cells had a lower survival rate,which was alleviated by the administration of quercetin.Conclusion:Our findings suggest that Epimedium attenuates diabetes mellitus(DM)-induced testicular injury through AGE-RAGE,PI3K-Akt and MAPK signaling pathway.These insights offer a potential therapeutic strategy for managing DM-induced testicular injury,will be the basis for future clinical research.
文摘BACKGROUND Anemia in infants and young children can have long-term effects on cognitive and physical development.In Ma'anshan City,China,there has been growing concern about the prevalence of anemia among children aged 6 to 36 mo.Understanding the factors influencing this condition is crucial for targeted interventions and improving overall child health in the region.AIM To analyze the anemia status and influencing factors of infants and young children aged 6 to 36 mo in Ma'anshan City,China.Providing scientific evidence for reducing the incidence of anemia and improving the health level of children in this age group.METHODS The study encompassed 37698 infants and young children,aged from 6 to 36 mo,who underwent health examinations at the Ma'anshan Maternal and Child Health Hospital from January 2018 to October 2022 were included in the study.Basic information,physical examination,and hemoglobin detection data were collected.Descriptive analysis was used to analyze the prevalence of anemia in children in the region,and univariate analysis was used to analyze the influencing factors of anemia.RESULTS The mean hemoglobin level of infants and young children aged 9 to 36 mo increased with age,and the anemia detection rate decreased with age.The anemia detection rate in rural infants aged 6,9,and 12 mo was higher than that in urban infants.Although the anemia detection rate was higher in 6-mo-old boys than girls,it was higher in 24-mo-old girls than boys.There were statistically significant differences in the anemia detection rates among 9-mo-old and 12-mo-old infants with different nutritional statuses(emaciation,overweight,obese,and normal).Moreover,there were no statistically significant differences in anemia detection rates among infants and young children with different nutritional statuses at other ages.Besides,the anemia detection rates in obese infants aged 9 and 12 mo were higher than those in normal and overweight infants,with statistically significant differences.Finally,there were no statistically signifi
基金supported by Important Projects of Natural Science in Colleges and Universities in Jiangsu Province(14KJA320002 to ZZ)the Natural Science Foundation of China(81471314and 81671090 to ZZ+6 种基金 31671212 to QYT)the Natural Science Foundation of Jiangsu Province(BK20151170 to ZZ)the Xuzhou Science and Technology Program(KC16SG251 to ZZKC16H0230to QYT)General Project of Natural Science in Colleges and Universities in Jiangsu Province(15KJD320001 to XJ)support from the Priority Academic Program Development of Jiangsu Higher Education Institutionsthe Jiangsu Provincial Special Program of Medical Science(BL2014029)
文摘General anesthesia is an unconscious state induced by anesthetics for surgery. The molecular targets and cellular mechanisms of general anesthetics in the mammalian nervous system have been investigated during past decades. In recent years, K+ channels have been identified as important targets of both volatile and intra- venous anesthetics. This review covers achievements that have been made both on the regulatory effect of general anesthetics on the activity of K+ channels and their underlying mechanisms. Advances in research on the modulation of K~ channels by general anesthetics are summarized and categorized according to four large K+ channel families based on their amino-acid sequence homology. In addition, research achievements on the roles of K+ channels in general anesthesia in vivo, especially with regard to studies using mice with K+ channel knockout, are particularly emphasized.
基金Supported by the Fundamental Research Funds for the Central Universities under Grant No. BUPT2009RC0412the National Natural Science Foundation of China under Grant Nos. 60908028 and 60971068
文摘A first-principles study has been performed to calculate the electronic and optical properties of the SbxSn1xO system.The simulations are based upon the method of generalized gradient approximations with the Perdew-Burke-Ernzerhof form in the framework of density functional theory.The supercell structure shows a trend from expanding to shrinking with the increasing Sb concentration.The increasing Sb concentration induces the band gap narrowing.Optical transition has shifted to the low energy range with increasing Sb concentration.Other important optical constants such as the dielectric function,reflectivity,refractive index,and electron energy loss function for Sb-doped SnO2 are discussed.The optical absorption edge of SnO2 doped with Sb also shows a redshift.
基金supported by the Natural Sciences and Engineering Research Council of Canada(NSERC)the Canada Research Chairs program.
文摘Self-healing hydrogels have attracted growing attention over the past decade due to their biomimetic structure,biocompatibility,as well as enhanced lifespan and reliability,thereby have been widely used in various biomedical,electrical and environmental engineering applications.This feature article has reviewed our recent progress in self-healing hydrogels derived from mussel-inspired interactions,multiple hydrogen-bonding functional groups such as 2-ureido-4[1H]-pyrimidinohe(UPy),dynamic covalent bonds(eg,Schiff base reactions and boronic ester bonds).The underlying molecular basics of these interactions,hydrogel preparation principles,and corresponding performances and applications are introduced.The underlying reversible intermolecular interaction mechanisms in these hydrogels were investigated using nanomechanical techniques such as surface forces apparatus(SFA)and atomic force microscopy(AFM),providing fundamental insights into the self-healing mechanisms of the hydrogels.The remaining challenging issues and perspectives in this rapidly developing research area are also discussed.
基金financially supported by the National Natural Science Foundation of China (No. 51074017)
文摘In this study, we characterized strain F9 and evaluated the interaction between strain F9 and hematite by scanning electron microscopy(SEM), Fourier transform infrared spectrophotometry(FTIR), zeta potential, flotation, and other methods. The results showed that strain F9 belongs to Serratia marcescens. This brevibacterium had CH2, CH3, and hydroxyl groups on its cell wall, which imparted a strong hydrophobic and negative charge. Adsorption of strain F9 reduced the zeta potential of the hematite surface and increased the hydrophobicity of the hematite surface, thereby generating hydrophobic hematite agglomerates. At least four groups on strain F9 interacted with the hematite surface, which contributed to chemical interactions of carboxylic groups and hydrophobic association among hydrophobic hematite particles. The possible use of strain F9 as a bio-collector for hematite flotation was proved.
基金The National Natural Science Foundation of China (Grant Nos. 41872015,42111530024 and 41820104002)The State Key Laboratory of Palaeobiology and Stratigraphy (Nanjing Institute of Geology and Palaeontology, CAS)(No. 193118)。
文摘Melia L. is a small genus of only 2–3 species, which is native to Indo-Malesia, India, Pakistan and southern parts of tropical Africa. Fossil records of Melia are known from the early Miocene to the Pleistocene. Here we describe some mummified fossil endocarps of Melia from the upper part of the Yongning Formation(late Oligocene) in Nanning Basin, South China. These well-preserved stony endocarps are 8–14 mm long and 5–9 mm wide, and have 5 locules with a single spindle seed per locule. We interpret these endocarps as the internal remains of a Melia drupe, and assign them as a new species: M. santangensis sp. nov. This is the only fossil record of anatomically preserved Melia found in China, and also the oldest fossil record of Melia so far reported globally. The fossil record confirms the presence of Melia in Asia at the late Oligocene, and provides evidence supporting the distribution and dispersal hypothesis of the Meliaceae.
