生物加工过程
生物加工過程
생물가공과정
CHINESE JOURNAL OF BIOPROCESS ENGINEERING
2014年
4期
60-65
,共6页
姚远%董庆利%叶维%胡孟晗
姚遠%董慶利%葉維%鬍孟晗
요원%동경리%협유%호맹함
抗菌剂%抑菌%铜绿假单胞菌%响应面法
抗菌劑%抑菌%銅綠假單胞菌%響應麵法
항균제%억균%동록가단포균%향응면법
antibacterial agert%inhibition%Pseudomonas aeruginosa%response surface methodology
以铜绿假单胞菌为研究对象,通过常量肉汤稀释法和琼脂扩散法探讨乳酸钠和茶多酚、壳聚糖复配后对铜绿假单胞菌是否有协同抑制效果。利用响应面方法对3种复合防腐剂的抑菌效果进行优化。应用 Box-Behnken试验设计,建立3种防腐剂的二次多项式回归方程模型并进行分析。结果表明:三者对铜绿假单胞菌的抑菌效果(从大到小)顺序为乳酸钠、壳聚糖、茶多酚;乳酸钠和茶多酚交互作用极显著( p<0?01),存在明显的拮抗作用;乳酸钠和壳聚糖交互作用显著( p<0?05),二者存在明显的协同作用;而茶多酚和壳聚糖之间交互作用不显著( p>0?05)。在乳酸钠62?50 mg/mL、壳聚糖3?17 mg/mL的条件下复合防腐剂对假单胞菌的抑菌圈达到最大,抑菌效果最好。
以銅綠假單胞菌為研究對象,通過常量肉湯稀釋法和瓊脂擴散法探討乳痠鈉和茶多酚、殼聚糖複配後對銅綠假單胞菌是否有協同抑製效果。利用響應麵方法對3種複閤防腐劑的抑菌效果進行優化。應用 Box-Behnken試驗設計,建立3種防腐劑的二次多項式迴歸方程模型併進行分析。結果錶明:三者對銅綠假單胞菌的抑菌效果(從大到小)順序為乳痠鈉、殼聚糖、茶多酚;乳痠鈉和茶多酚交互作用極顯著( p<0?01),存在明顯的拮抗作用;乳痠鈉和殼聚糖交互作用顯著( p<0?05),二者存在明顯的協同作用;而茶多酚和殼聚糖之間交互作用不顯著( p>0?05)。在乳痠鈉62?50 mg/mL、殼聚糖3?17 mg/mL的條件下複閤防腐劑對假單胞菌的抑菌圈達到最大,抑菌效果最好。
이동록가단포균위연구대상,통과상량육탕희석법화경지확산법탐토유산납화다다분、각취당복배후대동록가단포균시부유협동억제효과。이용향응면방법대3충복합방부제적억균효과진행우화。응용 Box-Behnken시험설계,건립3충방부제적이차다항식회귀방정모형병진행분석。결과표명:삼자대동록가단포균적억균효과(종대도소)순서위유산납、각취당、다다분;유산납화다다분교호작용겁현저( p<0?01),존재명현적길항작용;유산납화각취당교호작용현저( p<0?05),이자존재명현적협동작용;이다다분화각취당지간교호작용불현저( p>0?05)。재유산납62?50 mg/mL、각취당3?17 mg/mL적조건하복합방부제대가단포균적억균권체도최대,억균효과최호。
The coordinated inhibition effects of sodium lactate ( NaL) , tea polyphenol ( TP ) and chitosan were investigated on Pseudomonas aeruginosa by using constant broth dilution method and an agar disc diffusion assay. The response surface methodology was utilized to optimize P. aeruginosa inhibition affected by using three preservatives. The Box-Behnken design was applied for establishing and analyzing quadratic polynomial regression equation of three preservatives. Results showed that the antimicrobial effectiveness of NaL was better than that of chitosan and TP, respectively. Moreover, there was a significant interactive effect between NaL and TP ( p<0?01 ) , and the significant interactive effect also existed between NaL and chitosan(p<0?05);however, TP and chitosan were found without significant interactive effect ( p>0?05 ) . Results indicated that 62?5 mg/mL sodium lactate combined with 3?17 mg/mL chitosan was the optimum compound antibacterial agent.
