Objective To determine the material basis of the antioxidant activity of Mori Folium by examining the spec-trum-effect relationship.Methods High-performance liquid chromatography(HPLC)was utilized to establish the fingerprints of Mori Folium.The antioxidant activity of Mori Folium was assessed using the 1,1-diphenyl-2-picrylhydrazyl(DPPH)radical scavenging assay and other related indicators.The spectrum-effect relationship of antioxidation was analyzed using gray relational analysis,bivariate correlation analysis,and partial least squares regression analysis.Molecular docking techniques were employed to predict potential interaction targets.Results HPLC fingerprints for 13 batches of Mori Folium were established,and thirteen common peaks were marked,with similarities ranging from 0.932 to 0.998.Nine common peaks were identified by comparing them to reference substances.Differences in antioxidant activity were observed among the different batches of Mori Folium.Based on the analysis of the spectrum-effect relationship,chemical components such as chlorogenic acid,cryptochlorogenic acid,rutin,and iso-chlorogenic acid B were found to contribute significantly to the antioxidant activity.These components may exert their effects by binding to several antioxidant protein targets,such as XOD,NO-1,and PPAR-α.This implies that Mori Folium might exert its an-tioxidant action via multiple components and targets.Conclusions By integrating the fingerprint and antioxidant activity of Mori Folium,the contributions of individual components to its antioxidant activity were determined.This study provides an experi-mental basis for elucidating the substances responsible for the antioxidant activity of Mori Folium and for establishing quality con-trol methods.

Objective To determine the material basis of the antioxidant activity of Mori Folium by examining the spec-trum-effect relationship.Methods High-performance liquid chromatography(HPLC)was utilized to establish the fingerprints of Mori Folium.The antioxidant activity of Mori Folium was assessed using the 1,1-diphenyl-2-picrylhydrazyl(DPPH)radical scavenging assay and other related indicators.The spectrum-effect relationship of antioxidation was analyzed using gray relational analysis,bivariate correlation analysis,and partial least squares regression analysis.Molecular docking techniques were employed to predict potential interaction targets.Results HPLC fingerprints for 13 batches of Mori Folium were established,and thirteen common peaks were marked,with similarities ranging from 0.932 to 0.998.Nine common peaks were identified by comparing them to reference substances.Differences in antioxidant activity were observed among the different batches of Mori Folium.Based on the analysis of the spectrum-effect relationship,chemical components such as chlorogenic acid,cryptochlorogenic acid,rutin,and iso-chlorogenic acid B were found to contribute significantly to the antioxidant activity.These components may exert their effects by binding to several antioxidant protein targets,such as XOD,NO-1,and PPAR-α.This implies that Mori Folium might exert its an-tioxidant action via multiple components and targets.Conclusions By integrating the fingerprint and antioxidant activity of Mori Folium,the contributions of individual components to its antioxidant activity were determined.This study provides an experi-mental basis for elucidating the substances responsible for the antioxidant activity of Mori Folium and for establishing quality con-trol methods.

Abstract： Objective　To retrospectively analyze the investigation and disposal of the COVID-19 outbreak caused by the transmission of the Omicron variant in infected imported cases, and provide basis for COVID-19 outbreak management. Methods　The description epidemiological method was used to describe the COVID-19 outbreak in Sanya City from March 31 to April 15, 2022. The propagation chain was mapped and the experience gained and shortcomings identified in emergency responses were analyzed. Results　The outbreak resulted in 95 reported locally transmitted COVID-19 cases with a incubation period M(P25, P75) of 4 (3, 5) d. In the 95 cases, the proportion of cases detected through close contact screening, centralized isolation, community screening, control area screening, active treatment (examination), and key population screening were 33.68%, 22.11%, 18.95%, 12.63%, 6.32%, 4.21% and 2.11%, respectively. The epidemic spread for 6 generations, causing 5 clusters of outbreaks and 12 cases of cluster disease. The epidemic affected 12 villages/neighborhood committees, 1 bar, 1 hospital, 1 small clinic, 1 farmer's market, 1 large shopping mall and 1 restaurant in 2 districts of Sanya City. The result of gene sequencing was Omicron variant BA.1.1. Through the immediate launch of emergency plans, nucleic acid and antigen testing, controlling close contact between infected persons and close contacts, suspending indoor business sites, central urban control, and temporary suspension, COVID-19 was controlled within 16 days. Conclusions　The transmission chain of this outbreak was clear and was caused by imported cases. Strengthening the management of the pass, doing a good job in information sharing and docking, timely screening for cases, screening, pushing, controlling high-risk groups, and implementing comprehensive control measures, can effectively prevent the spread of the epidemic, providing a reference for the control of epidemic situations in relevant scenarios.