摘要
Objective:To investigate the gene related to β-lactam resistance and to confirm the mechanism about a synergy effect between CPZ and β-lactam antibiotics.Methods:To measure antibacterial activity,we performed a minimum inhibitory concentration(MIC) and synergy test.Transmission electron microscopy(TEM) was used in morphological analysis.To analyze gene expression,we conducted reverse transcriptase polymerase chain reaction(PCR).Results:We confirmed a synergy effect between CPZ and β-lactam antibiotics.Furthermore,we observed that CPZ affect the cell envelope of MRS A by using TEM.At the gene level,CPZ reduced the expression of resistance genes.Conclusions:Through this result,we hypothesize that a decrease of resistance factor expressions was caused by CPZ because it disrupts the activity of a sensor protein located in the cell membrane.
Objective:To investigate the gene related to β-lactam resistance and to confirm the mechanism about a synergy effect between CPZ and β-lactam antibiotics.Methods:To measure antibacterial activity,we performed a minimum inhibitory concentration(MIC) and synergy test.Transmission electron microscopy(TEM) was used in morphological analysis.To analyze gene expression,we conducted reverse transcriptase polymerase chain reaction(PCR).Results:We confirmed a synergy effect between CPZ and β-lactam antibiotics.Furthermore,we observed that CPZ affect the cell envelope of MRS A by using TEM.At the gene level,CPZ reduced the expression of resistance genes.Conclusions:Through this result,we hypothesize that a decrease of resistance factor expressions was caused by CPZ because it disrupts the activity of a sensor protein located in the cell membrane.
基金
supported by the Basic Science Research Program through the National Research Foundation of Korea(NRF)
funded by the Ministry of Education,Science and Technology(2012-0004337)
