Objective:Applying Traditional Chinese Medicine(TCM)network pharmacology and molecular docking technology to explore the mechanism of anti-coronary virus pneumonia(Corona Virus Disease 2019,COVID-19)of Compound Qinlan...Objective:Applying Traditional Chinese Medicine(TCM)network pharmacology and molecular docking technology to explore the mechanism of anti-coronary virus pneumonia(Corona Virus Disease 2019,COVID-19)of Compound Qinlan oral liquid.Methods:Traditional Chinese Medicines Integrated Database(TCMID),Traditional Chinese Medicine Systems Pharmacology(TCMSP),OMIM,GeneCards,String and others online databases were used for building a series of networks,and selecting the core targets and analyzing the signal pathways.Finally,Discovery Studio 2016 software was used to conduct molecular docking of the main compounds(Chinese Medicine Legal Quality Control Compound)of Compound Qinlan oral liquid with key targets ACE2,3CLpro,etc.Results:the results showed that Compound Qinlan oral liquid has specific effects in lung,heart and stomach diseases.The Compound Qinlan oral liquid compound-pneumonia target network contained 98 compounds and 184 corresponding targets,and the core targets involved INS,TP53,IL6,VEGFA,ALB and JUN.GO(GeneOntology)function enrichment analysis yielded 653 GO entries,and KEGG(KyotoEncyclopedia of Genes and Genomes)enrichment screening yielded 112 related pathways,including hypoxia inducible factor-1(HIF-1)and Toll-like receptor(TLRs)signaling pathway related to pneumonia,as well as Influenza A signaling pathway and Hepatitis B signaling pathway related to microbial infection.The results of molecular docking show that Isochlorogenic acid C,Baicalein,etc have good binding capacity with ACE2,3CLpro,AKT1 and other proteins.Conclusion:In this paper,we preliminarily explored the potential therapeutic mechanism for Compound Qinlan oral liquid to against coronavirus pneumonia(COVID-19)and predicted the active ingredients.We hope that the results will help to further study on the active ingredients and mechanism of Compound Qinlan oral liquid for anti-COVID-19.展开更多
Native species may decline quickly when confronted with an exotic species to which they are not adapted. The extent of decline may depend on the abundance of an invader and the length of time since it first arrived in...Native species may decline quickly when confronted with an exotic species to which they are not adapted. The extent of decline may depend on the abundance of an invader and the length of time since it first arrived in the community (residence time), and the interaction between these two variables. We tested these effects using data on the effects of American bullfrog Lithobates catesbeianus invasion on native frog communities in 65 permanent lentic waters on islands in the Zhoushan Archipel- ago, China. We examined variation in native frog abundance and species richness in relation to features of the American bullfrog invasion, habitat disturbance, characteristics of the water body and fish communities and the presence of red swamp crayfish. Bullfrog invaded sites had lower native frog density and species richness, higher submerged vegetation cover and greater fre- quency of repairs to the water body than did non-invaded sites. The minimum adequate general linear mixed models showed that both native frog density and species richness were negatively related to post-metamorphosis bullfrog density, and that native frog species richness was also positively related to the vegetation cover. There was no effect on either native frog density or species richness of residence time or its interaction with bullfrog density, or of the abundance of bullfrog tadpoles. The results suggested that post-metamorphosis bullfrogs had impacts on native frog communities in the islands, and that the extents of these impacts are proportional to post-metamorphosis bullfrog density展开更多
基金the Key Science and Technology Research Projects of Tibet Autonomous Region of China(XZ201801-GA-16)Special funds for guiding local scientific and technological development by the central government(2018ZYYD002).
文摘Objective:Applying Traditional Chinese Medicine(TCM)network pharmacology and molecular docking technology to explore the mechanism of anti-coronary virus pneumonia(Corona Virus Disease 2019,COVID-19)of Compound Qinlan oral liquid.Methods:Traditional Chinese Medicines Integrated Database(TCMID),Traditional Chinese Medicine Systems Pharmacology(TCMSP),OMIM,GeneCards,String and others online databases were used for building a series of networks,and selecting the core targets and analyzing the signal pathways.Finally,Discovery Studio 2016 software was used to conduct molecular docking of the main compounds(Chinese Medicine Legal Quality Control Compound)of Compound Qinlan oral liquid with key targets ACE2,3CLpro,etc.Results:the results showed that Compound Qinlan oral liquid has specific effects in lung,heart and stomach diseases.The Compound Qinlan oral liquid compound-pneumonia target network contained 98 compounds and 184 corresponding targets,and the core targets involved INS,TP53,IL6,VEGFA,ALB and JUN.GO(GeneOntology)function enrichment analysis yielded 653 GO entries,and KEGG(KyotoEncyclopedia of Genes and Genomes)enrichment screening yielded 112 related pathways,including hypoxia inducible factor-1(HIF-1)and Toll-like receptor(TLRs)signaling pathway related to pneumonia,as well as Influenza A signaling pathway and Hepatitis B signaling pathway related to microbial infection.The results of molecular docking show that Isochlorogenic acid C,Baicalein,etc have good binding capacity with ACE2,3CLpro,AKT1 and other proteins.Conclusion:In this paper,we preliminarily explored the potential therapeutic mechanism for Compound Qinlan oral liquid to against coronavirus pneumonia(COVID-19)and predicted the active ingredients.We hope that the results will help to further study on the active ingredients and mechanism of Compound Qinlan oral liquid for anti-COVID-19.
基金Acknowledgements We thank Feng XU and Yanping WANG for helping a part of field works and Richard Duncan for comments on the manuscript. This work was supported by a grant from National Science foundation (No. 30870312) and by a grant from the "973" program (No. 2007CB411600).
文摘Native species may decline quickly when confronted with an exotic species to which they are not adapted. The extent of decline may depend on the abundance of an invader and the length of time since it first arrived in the community (residence time), and the interaction between these two variables. We tested these effects using data on the effects of American bullfrog Lithobates catesbeianus invasion on native frog communities in 65 permanent lentic waters on islands in the Zhoushan Archipel- ago, China. We examined variation in native frog abundance and species richness in relation to features of the American bullfrog invasion, habitat disturbance, characteristics of the water body and fish communities and the presence of red swamp crayfish. Bullfrog invaded sites had lower native frog density and species richness, higher submerged vegetation cover and greater fre- quency of repairs to the water body than did non-invaded sites. The minimum adequate general linear mixed models showed that both native frog density and species richness were negatively related to post-metamorphosis bullfrog density, and that native frog species richness was also positively related to the vegetation cover. There was no effect on either native frog density or species richness of residence time or its interaction with bullfrog density, or of the abundance of bullfrog tadpoles. The results suggested that post-metamorphosis bullfrogs had impacts on native frog communities in the islands, and that the extents of these impacts are proportional to post-metamorphosis bullfrog density
