Global gene expression of berberine against Yersiniapestis in vitro
- VernacularTitle:黄连素作用鼠疫耶尔森菌的体外表达谱
- Author:
Jing-ling, ZHANG
;
Qun-hua, BAI
;
Yan, JIA
;
Xing-bi, DAI
;
Hong, XIAO
;
Ying-xiong, WANG
;
Rui-fu, YANG
;
Jing-fu, QIU
- Publication Type:Journal Article
- Keywords:
Yersinia pestis;
Berberine;
Mierechip analytical procedure;
Molecular mechanisms of action
- From:Chinese Journal of Endemiology
2008;27(6):606-608
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the antibacterial molecular mechanism of Traditional Chinese Medicine Coptis rhizome against Yersinia pestis(Y.pestis).Methods The method based on whole genome DNA micrnarray of Y.pestis was used.The minimal inhibition concentration(MIC)of berberine to Y.pestis was determined with liquid dilution method.Then gene expression profile of Y.pestis was performed after exposed to berberine at the concentration of 10×MIC for 30 minutes.Total RNA extracted and purified from Y.pestis and reverse-transcribed to cDNA,then labeled by Cy-dye.Finally,the labeled probes were hybridized to the microarray and the results were obtained by a laser scanner and analyzed by the SAM software.Results The gene expression profile data revealed that the response of Y.pestis to berberine was a global phenomenon.A total of 360 genes changed significantly.Among them,333 genes were up-regulated,27 down-regulated.These differentially expressed genes were further classified into 24 different functional categories based on the genomie annotation of Y.pestis CO92,in which the number of mainly related genes were 83,75 and 48,including cell envelop,unkown,transport/binding proteins functions.The 40 genes related to the metabolism were upregulated,which was a remarkable change.Conclusion Our results have revealed the general gene expression changes of Y.pestis in response to berberine and demonstrated the antibacterial molecular mechanism of the Coptis rhizome.The major mechanism of Y.pestis in response to berberine is the upregulation of genes related to the metabolism.
