Background:Pinelliae Rhizoma(Banxia)is a valuable traditional Chinese medicine,and its quality issues are related to the safety and effectiveness of the medicine.Several pharmacological experiments have shown that Pin...Background:Pinelliae Rhizoma(Banxia)is a valuable traditional Chinese medicine,and its quality issues are related to the safety and effectiveness of the medicine.Several pharmacological experiments have shown that Pinelliae Rhizoma has anti-inflammatory activity,but the specific chemical components remain unclear.Methods:In the present study,network pharmacology was used to analyze the potential active ingredients and molecular mechanisms of Pinelliae Rhizoma’s anti-inflammatory activity.A new approach to simultaneously determine eight components using high performance liquid chromatography-photo-diode array was developed to evaluate the quality of Pinelliae Rhizoma and different processed Pinelliae Rhizoma products.Results:Twelve active ingredients were identified from Pinelliae Rhizoma,andβ-sitosterol may have a greater effect than the other active ingredients.Gene Ontology and Kyoto Encyclopedia of Genes and Genomes enrichment analyses revealed the main pathways associated with Pinelliae Rhizoma’s mechanism for treating inflammation.Additionally,theβ-sitosterol content in different processed Pinelliae Rhizoma products decreased significantly,and the level of five nucleosides in Pinelliae Rhizoma was significantly higher than that of the processed Pinelliae Rhizoma products.The 6-gingerol content was detected in eight Pinelliae Rhizoma Praeparatum cum Zingibere et Alumine batches with different origins,and liquiritin and liquiritigenin levels were detected in eight batches of Pinelliae Rhizoma Praeparatum with different origins.Conclusion:Pinelliae Rhizoma quality was affected by different regions and different processing methods,and this research provides a reference for Pinelliae Rhizoma quality evaluation.展开更多
Contagious pathogens like COVID-19 transmitted via respiratory droplets spread effortlessly in the passenger compartments of transport,significantly jeopardizing passengers’safety when taking public transportation.To...Contagious pathogens like COVID-19 transmitted via respiratory droplets spread effortlessly in the passenger compartments of transport,significantly jeopardizing passengers’safety when taking public transportation.To date,studies on the fundamental theories of airborne droplet transmission and the engineering application of decontamination techniques are insufficient for the prevention and control of pathogens transmitting in the compartments of passenger transport.It is essential to systematically investigate the control approaches to restrain pathogens from transmitting in passenger compartments.Herein,a theoretical framework for calculating the transmission of pathogens in a complex compartment environment was proposed,and experimental platforms that satisfy the Biosafety Level-2 Laboratory safety level for compartment environment simulations were built based on a set of real train cabins.On these bases,numerical investigations on the motion of pathogen-laden droplets were conducted,and decontamination techniques were examined experimentally.Thereby,control measures on the pathogen transmission and pathogen decontamination schemes were proposed.Moreover,highly efficient decontamination devices were developed,and coping strategies for epidemic emergencies were devised.The outcomes provide theoretical and technical support for developing the next generation of transportation and the prevention and control measures cooperatively considering regular and pandemic times.展开更多
Objective:Pseudostellaria heterophylla has been paid more attention in recent years,mainly as a medicine food homology plant.The content determination of P.heterophylla is not specified in the Chinese Pharmacopoeia(ve...Objective:Pseudostellaria heterophylla has been paid more attention in recent years,mainly as a medicine food homology plant.The content determination of P.heterophylla is not specified in the Chinese Pharmacopoeia(version 2020).The environmental conditions in different production areas could exert an influence on the quality of P.heterophylla.The purpose of this study is to discriminate P.heterophylla collected from different geographical origins of China.Methods:In this study,the content of polysaccharide in 28 batches of P.heterophylla was determined using phenol–sulfuric acid.HPLC fingerprints were established under optimised HPLC-PDA methods.Subsequently,the similarity analysis(SA)and the quantification of heterophyllin B were analyzed.The metabolites of P.heterophylla were identified and evaluated using UHPLC-Q Exactive HF orbitrap MS system.Principal component analysis(PCA),partial least squares discriminant analysis(PLS-DA),hierarchical cluster analysis(HCA)and orthogonal PLS-DA(OPLS-DA)were performed based on all peak areas.Results:The polysaccharide content in Guizhou and Jiangsu was higher than that of other production areas,which varied significant from different origins.While the content of heterophyllin B in Anhui and Jiangsu was high.The correlation coefficients of HPLC fingerprints for 28 batches samples ranged from 0.877 to 0.990,and the characteristic map can be used to identify and evaluate the quality of P.heterophylla.The samples from Fujian,Guizhou,Jiangsu provinces can be relatively separated using multivariate statistical analysis including PCA,PLS-DA,HCA,OPLS-DA,indicating that their metabolic compositions were significantly different.Ultimately,a total of 15 metabolites which were filtrated by a VIPvalue>1 and a P-value<0.05 associated with the separation of different origins were identified.Conclusion:HPLC fingerprint was established to evaluate the quality and authenticity of P.heterophylla.The present work showed that the difference of geographic distributions had an influence on the internal chemical compositions.A sensitive and rapid untargeted metabolomics approach by UHPLC-Q Exactive HF orbitrap MS was utilized to evaluate P.heterophylla from different origins in China for the first time.Overall,this study provides insights to metabolomics of P.heterophylla and supplies important reference values for the development of functional foods.展开更多
基金supported by Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine(No.ZYYCXTD-D 202005)Tianjin Science and Technology Planning Project(No.19YFZCSY00170)the Key Project at Central Government Level(No.2060302).
文摘Background:Pinelliae Rhizoma(Banxia)is a valuable traditional Chinese medicine,and its quality issues are related to the safety and effectiveness of the medicine.Several pharmacological experiments have shown that Pinelliae Rhizoma has anti-inflammatory activity,but the specific chemical components remain unclear.Methods:In the present study,network pharmacology was used to analyze the potential active ingredients and molecular mechanisms of Pinelliae Rhizoma’s anti-inflammatory activity.A new approach to simultaneously determine eight components using high performance liquid chromatography-photo-diode array was developed to evaluate the quality of Pinelliae Rhizoma and different processed Pinelliae Rhizoma products.Results:Twelve active ingredients were identified from Pinelliae Rhizoma,andβ-sitosterol may have a greater effect than the other active ingredients.Gene Ontology and Kyoto Encyclopedia of Genes and Genomes enrichment analyses revealed the main pathways associated with Pinelliae Rhizoma’s mechanism for treating inflammation.Additionally,theβ-sitosterol content in different processed Pinelliae Rhizoma products decreased significantly,and the level of five nucleosides in Pinelliae Rhizoma was significantly higher than that of the processed Pinelliae Rhizoma products.The 6-gingerol content was detected in eight Pinelliae Rhizoma Praeparatum cum Zingibere et Alumine batches with different origins,and liquiritin and liquiritigenin levels were detected in eight batches of Pinelliae Rhizoma Praeparatum with different origins.Conclusion:Pinelliae Rhizoma quality was affected by different regions and different processing methods,and this research provides a reference for Pinelliae Rhizoma quality evaluation.
基金This work is supported by the consulting research project of the major project of China National Railway Group Co.,Ltd.(No.K2020J003)the Chinese Academy of Engineering(No.2020-XY-79)。
文摘Contagious pathogens like COVID-19 transmitted via respiratory droplets spread effortlessly in the passenger compartments of transport,significantly jeopardizing passengers’safety when taking public transportation.To date,studies on the fundamental theories of airborne droplet transmission and the engineering application of decontamination techniques are insufficient for the prevention and control of pathogens transmitting in the compartments of passenger transport.It is essential to systematically investigate the control approaches to restrain pathogens from transmitting in passenger compartments.Herein,a theoretical framework for calculating the transmission of pathogens in a complex compartment environment was proposed,and experimental platforms that satisfy the Biosafety Level-2 Laboratory safety level for compartment environment simulations were built based on a set of real train cabins.On these bases,numerical investigations on the motion of pathogen-laden droplets were conducted,and decontamination techniques were examined experimentally.Thereby,control measures on the pathogen transmission and pathogen decontamination schemes were proposed.Moreover,highly efficient decontamination devices were developed,and coping strategies for epidemic emergencies were devised.The outcomes provide theoretical and technical support for developing the next generation of transportation and the prevention and control measures cooperatively considering regular and pandemic times.
基金supported by the National Key R&D Program of China(No.2019YFC1710604)the National Key Research and Development Program(No.2020YFA0907903)+2 种基金the key Project at Central Government Level(No.2060302)Tianjin Science and Technology Plan Project(No.19YFZCSY00170)the National Natural Science Foundation of China(No.81872956)。
文摘Objective:Pseudostellaria heterophylla has been paid more attention in recent years,mainly as a medicine food homology plant.The content determination of P.heterophylla is not specified in the Chinese Pharmacopoeia(version 2020).The environmental conditions in different production areas could exert an influence on the quality of P.heterophylla.The purpose of this study is to discriminate P.heterophylla collected from different geographical origins of China.Methods:In this study,the content of polysaccharide in 28 batches of P.heterophylla was determined using phenol–sulfuric acid.HPLC fingerprints were established under optimised HPLC-PDA methods.Subsequently,the similarity analysis(SA)and the quantification of heterophyllin B were analyzed.The metabolites of P.heterophylla were identified and evaluated using UHPLC-Q Exactive HF orbitrap MS system.Principal component analysis(PCA),partial least squares discriminant analysis(PLS-DA),hierarchical cluster analysis(HCA)and orthogonal PLS-DA(OPLS-DA)were performed based on all peak areas.Results:The polysaccharide content in Guizhou and Jiangsu was higher than that of other production areas,which varied significant from different origins.While the content of heterophyllin B in Anhui and Jiangsu was high.The correlation coefficients of HPLC fingerprints for 28 batches samples ranged from 0.877 to 0.990,and the characteristic map can be used to identify and evaluate the quality of P.heterophylla.The samples from Fujian,Guizhou,Jiangsu provinces can be relatively separated using multivariate statistical analysis including PCA,PLS-DA,HCA,OPLS-DA,indicating that their metabolic compositions were significantly different.Ultimately,a total of 15 metabolites which were filtrated by a VIPvalue>1 and a P-value<0.05 associated with the separation of different origins were identified.Conclusion:HPLC fingerprint was established to evaluate the quality and authenticity of P.heterophylla.The present work showed that the difference of geographic distributions had an influence on the internal chemical compositions.A sensitive and rapid untargeted metabolomics approach by UHPLC-Q Exactive HF orbitrap MS was utilized to evaluate P.heterophylla from different origins in China for the first time.Overall,this study provides insights to metabolomics of P.heterophylla and supplies important reference values for the development of functional foods.
