Objective: To study the biotransformation of gracillin by Penicillium lilacinumACC 31890,to isolate and to identify the structures of metabolites and investigate the pharmacological activities.Methods: The conversion products were isolated and purified by silica gel column chromatography and semi-preparative reversed phase liquid chromatography.Their structures were identified by MS and NMR, and the anti-inflammatory activity of the conversion products was investigated as well.Results: Three metabolites were isolated and purified, and identified as 5R-spirost-5-ene-3-ol-O-β-D-Glucopyranoside-(1→3)-β-D-glucopyranosyl (1), trillin (2) and diosgenin (3) with the conversion rate of 1%, 1% and 45%, respectively.In vitro study showed that the three products showed certain degrees of activity to inhibit the production of NO, IL-6 and MCP-1 in LPS-primed RAW264.7 macrophages.Moreover, the anti-inflammatory activity of the bioconversion products increased along with the hydrolyzation of carbohydrate chain.Diosgenin, the final product, showed the strongest anti-inflammatory activity among the three products.Conclusion: The biotransformation of gracillin by Penicillium lilacinum has a high productivity of diosgenin.The amount of glycosyls has notable influence on the anti-inflammatory activity of steroid sapoinin.

Electrical conductivity （EC） is an important physical and chemical index in electrochemical analysis. In recent years, with the penetration and reference of transformation medicine and interdisciplinary theory and technology in the forensic field, new applications of EC in the field of forensic science have been developed. This paper reviews three aspects of the application of EC, the determination of biological tissue freshness, postmortem interval estimation and the application in forensic taphonomy, in order to provide reference for relevant scientific research and related practices.
Autopsy ; Electric Conductivity ; Forensic Pathology ; Forensic Sciences ; Humans ; Postmortem Changes