化学研究与应用
化學研究與應用
화학연구여응용
CHEMICAL RESEARCH AND APPLICATION
2013年
7期
999-1005
,共7页
王桃云%邱业先%汪金莲%杨磊%薛凯%王罗玲
王桃雲%邱業先%汪金蓮%楊磊%薛凱%王囉玲
왕도운%구업선%왕금련%양뢰%설개%왕라령
银杏叶多酚%响应面法%提取工艺%超声波提取%土壤脲酶活性%抑制率
銀杏葉多酚%響應麵法%提取工藝%超聲波提取%土壤脲酶活性%抑製率
은행협다분%향응면법%제취공예%초성파제취%토양뇨매활성%억제솔
polyphenols from the leaves of ginkgo biloba%response surface methodology%extraction process%ultrasonic-assisted ex-traction%soil urease activity%inhibitory rate
利用响应面分析法对超声波辅助提取银杏叶多酚的工艺进行优化研究。在单因素试验的基础上,选取甲醇体积分数、超声波功率、超声温度、超声时间作为考察因素,应用Box-Behnken中心组合设计,以银杏叶多酚得率为响应值,进行响应面分析。另外对银杏叶多酚抑制脲酶活性进行了研究。结果表明,超声波辅助提取银杏叶多酚的最优提取条件为:甲醇体积分数67%、超声波功率350W、超声温度61℃、超声时间30min。在此工艺条件下,银杏叶多酚的得率为6.34%。当银杏叶多酚含量为46.11 mg· mL-1时,银杏叶多酚对土壤脲酶活性的抑制率可达50%。因此,银杏叶多酚是一种较好的土壤脲酶抑制剂,可以用于提高尿素的利用率。
利用響應麵分析法對超聲波輔助提取銀杏葉多酚的工藝進行優化研究。在單因素試驗的基礎上,選取甲醇體積分數、超聲波功率、超聲溫度、超聲時間作為攷察因素,應用Box-Behnken中心組閤設計,以銀杏葉多酚得率為響應值,進行響應麵分析。另外對銀杏葉多酚抑製脲酶活性進行瞭研究。結果錶明,超聲波輔助提取銀杏葉多酚的最優提取條件為:甲醇體積分數67%、超聲波功率350W、超聲溫度61℃、超聲時間30min。在此工藝條件下,銀杏葉多酚的得率為6.34%。噹銀杏葉多酚含量為46.11 mg· mL-1時,銀杏葉多酚對土壤脲酶活性的抑製率可達50%。因此,銀杏葉多酚是一種較好的土壤脲酶抑製劑,可以用于提高尿素的利用率。
이용향응면분석법대초성파보조제취은행협다분적공예진행우화연구。재단인소시험적기출상,선취갑순체적분수、초성파공솔、초성온도、초성시간작위고찰인소,응용Box-Behnken중심조합설계,이은행협다분득솔위향응치,진행향응면분석。령외대은행협다분억제뇨매활성진행료연구。결과표명,초성파보조제취은행협다분적최우제취조건위:갑순체적분수67%、초성파공솔350W、초성온도61℃、초성시간30min。재차공예조건하,은행협다분적득솔위6.34%。당은행협다분함량위46.11 mg· mL-1시,은행협다분대토양뇨매활성적억제솔가체50%。인차,은행협다분시일충교호적토양뇨매억제제,가이용우제고뇨소적이용솔。
To optimize the ultrasonic-assisted extraction process of polyphenols from the leaves of ginkgo biloba ( PLGB) ,the single factor trials and response surface methodology(RSM)were employed.A central composite rotatable design(CCRD)with four inde-pendent variables:methanol concentration;ultrasonic power;extraction temperature and extraction time were used to study the yield of PLGB.Except these ,the inhibitory rate on soil urease activity of PLGB was also studied.Results demonstrated that the optimal conditions for the PLGB extraction were found to be methanol concentration of 67%v/v,extraction temperature of 61 °C,and re-fluxed at 350W for 30 minute,in which 63.4 mg PLGB g-1 was obtained.Results also showed that the inhibitory rate on soil urease activity reach 50%when the concentration of PLGB was 46.11 mg· mL-1 .Thus the PLGB would be a good potential urease inhibitor to increase the utilization ratio of urea.
