食品安全质量检测学报
食品安全質量檢測學報
식품안전질량검측학보
FOOD SAFETY AND QUALITY DETECTION TECHNOLOGY
2015年
6期
2022-2028
,共7页
李越山%徐艳阳%李楠%孙永薇%史爱莹
李越山%徐豔暘%李楠%孫永薇%史愛瑩
리월산%서염양%리남%손영미%사애형
黑豆酯酶%大孔树脂%吸附法%纯化%正交实验
黑豆酯酶%大孔樹脂%吸附法%純化%正交實驗
흑두지매%대공수지%흡부법%순화%정교실험
black soybean esterase%macro-porous resin%adsorption method%purification%orthogonal test
目的:对采用大孔树脂法纯化黑豆酯酶的工艺进行优化,确定其最佳工艺条件。方法首先通过静态吸附和洗脱试验,以黑豆酯酶的吸附率和洗脱率为指标,筛选最佳树脂。然后进行动态吸附和洗脱试验,研究上样稀释倍数、洗脱剂体积分数和洗脱剂体积3因素对洗脱率的影响。最后以黑豆酯酶得率和比活力为指标,用L16(43)正交实验进行优化。结果通过筛选发现, D301R树脂吸附率和洗脱率都较高。动态吸附和洗脱实验中获得最佳工艺条件为:上样稀释倍数为40倍,洗脱剂体积分数为60%,洗脱剂用量为20 mL。在此条件下黑豆酯酶得率为(89.39±1.65)%,黑豆酯酶比活力(6.585±0.090) U/mg。结论与粗酶的纯度相比,优化后的大孔树脂法纯化黑豆酶工艺的提纯倍数达到6.143倍,为黑豆酯酶的提纯和有机磷农药残留的检测提供了科学依据。
目的:對採用大孔樹脂法純化黑豆酯酶的工藝進行優化,確定其最佳工藝條件。方法首先通過靜態吸附和洗脫試驗,以黑豆酯酶的吸附率和洗脫率為指標,篩選最佳樹脂。然後進行動態吸附和洗脫試驗,研究上樣稀釋倍數、洗脫劑體積分數和洗脫劑體積3因素對洗脫率的影響。最後以黑豆酯酶得率和比活力為指標,用L16(43)正交實驗進行優化。結果通過篩選髮現, D301R樹脂吸附率和洗脫率都較高。動態吸附和洗脫實驗中穫得最佳工藝條件為:上樣稀釋倍數為40倍,洗脫劑體積分數為60%,洗脫劑用量為20 mL。在此條件下黑豆酯酶得率為(89.39±1.65)%,黑豆酯酶比活力(6.585±0.090) U/mg。結論與粗酶的純度相比,優化後的大孔樹脂法純化黑豆酶工藝的提純倍數達到6.143倍,為黑豆酯酶的提純和有機燐農藥殘留的檢測提供瞭科學依據。
목적:대채용대공수지법순화흑두지매적공예진행우화,학정기최가공예조건。방법수선통과정태흡부화세탈시험,이흑두지매적흡부솔화세탈솔위지표,사선최가수지。연후진행동태흡부화세탈시험,연구상양희석배수、세탈제체적분수화세탈제체적3인소대세탈솔적영향。최후이흑두지매득솔화비활력위지표,용L16(43)정교실험진행우화。결과통과사선발현, D301R수지흡부솔화세탈솔도교고。동태흡부화세탈실험중획득최가공예조건위:상양희석배수위40배,세탈제체적분수위60%,세탈제용량위20 mL。재차조건하흑두지매득솔위(89.39±1.65)%,흑두지매비활력(6.585±0.090) U/mg。결론여조매적순도상비,우화후적대공수지법순화흑두매공예적제순배수체도6.143배,위흑두지매적제순화유궤린농약잔류적검측제공료과학의거。
Objective To optimize the purification process of black soybean esterase by macro-porous absorbent resin adsorption. Methods Firstly, the best resin was chosen by the static adsorption and desorption experiments. Then effects of sample dilution multiple, eluent volume fraction and eluent volume on desorption rate were determined by dynamic adsorption and desorption experiments. Finally, orthogonal experiments of L16 (43) were used to optimize the purification process and yield and specific activities of black bean esterase were tested. Results The D301R resin had higher adsorption and desorption rates than others, and the optimum purification process conditions were as follows: the sample dilution volume was 40 times, eluent volume fraction was 60% and eluent volume was 20 mL. Under these conditions, the yield of black beans esterase by macro-porous resin was (89.39±1.65)%, and the specific activity of black beans esterase was (6.585±0.090) U/mg. Conclusion The yield of black soybean esterase purified with optimized macro-porous absorbent resin was increased by 6.143 times compared with crude black bean esterase. The result is useful to purify and determine the residues of organophosphorus pesticides for black soybean esterase.
