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
2014年
5期
1349-1356
,共8页
唐晗%王晓朋%吴中波%万德慧%刘晓宇
唐晗%王曉朋%吳中波%萬德慧%劉曉宇
당함%왕효붕%오중파%만덕혜%류효우
生物胺%二胺氧化酶%微流控芯片%酶传感器%化学发光
生物胺%二胺氧化酶%微流控芯片%酶傳感器%化學髮光
생물알%이알양화매%미류공심편%매전감기%화학발광
biogenic amines%diamine oxidase%micro-fluidic chip%enzyme biosensor%chemiluminescence
目的:建立快速地有效检测食品中生物胺总量的分析方法。方法用固定化的二胺氧化酶制成酶柱作为生物传感器的识别元件,将微流控芯片与化学发光仪结合作为检测元件,以鲁米诺-铁氰化钾作为化学发光体系,通过流动分析法来检测食品中生物胺的总量。结果当腐胺、组胺、酪胺浓度分别在3~500、2~100、3~200μmol/L时,线性回归方程分别为Y=17.448X+408.93、Y=88.329X+997.13、Y=45.762X+1728.2,相关系数分别为0.9966、0.9937、0.9907,检出限分别为0.7、0.5、0.5μmol/L。另外,本研究对传感器的性能进行了评价。结果显示,在最佳条件下对含有腐胺、组胺、酪胺的溶液分别测定7次,其RSD均小于8%,精密度较好;以腐胺为底物,连续通入鲁米诺和铁氰化钾溶液7次, RSD=1.66%,表现出良好的稳定性;将固定化酶保存在磷酸盐缓冲液中,每10 d测定一次酶活,持续70 d。2个月内固定化二胺氧化酶酶活仅降低了15%,保存时间较长;将传感器用于检测猪肉、鲫鱼和葡萄酒中的生物胺总量,样品中三种胺的添加回收率均在90%~94%之间,回收率较高,适合检测总生物胺。结论此传感器的综合性能良好,适用于食品中生物胺总量的快速检测。
目的:建立快速地有效檢測食品中生物胺總量的分析方法。方法用固定化的二胺氧化酶製成酶柱作為生物傳感器的識彆元件,將微流控芯片與化學髮光儀結閤作為檢測元件,以魯米諾-鐵氰化鉀作為化學髮光體繫,通過流動分析法來檢測食品中生物胺的總量。結果噹腐胺、組胺、酪胺濃度分彆在3~500、2~100、3~200μmol/L時,線性迴歸方程分彆為Y=17.448X+408.93、Y=88.329X+997.13、Y=45.762X+1728.2,相關繫數分彆為0.9966、0.9937、0.9907,檢齣限分彆為0.7、0.5、0.5μmol/L。另外,本研究對傳感器的性能進行瞭評價。結果顯示,在最佳條件下對含有腐胺、組胺、酪胺的溶液分彆測定7次,其RSD均小于8%,精密度較好;以腐胺為底物,連續通入魯米諾和鐵氰化鉀溶液7次, RSD=1.66%,錶現齣良好的穩定性;將固定化酶保存在燐痠鹽緩遲液中,每10 d測定一次酶活,持續70 d。2箇月內固定化二胺氧化酶酶活僅降低瞭15%,保存時間較長;將傳感器用于檢測豬肉、鯽魚和葡萄酒中的生物胺總量,樣品中三種胺的添加迴收率均在90%~94%之間,迴收率較高,適閤檢測總生物胺。結論此傳感器的綜閤性能良好,適用于食品中生物胺總量的快速檢測。
목적:건립쾌속지유효검측식품중생물알총량적분석방법。방법용고정화적이알양화매제성매주작위생물전감기적식별원건,장미류공심편여화학발광의결합작위검측원건,이로미낙-철청화갑작위화학발광체계,통과류동분석법래검측식품중생물알적총량。결과당부알、조알、락알농도분별재3~500、2~100、3~200μmol/L시,선성회귀방정분별위Y=17.448X+408.93、Y=88.329X+997.13、Y=45.762X+1728.2,상관계수분별위0.9966、0.9937、0.9907,검출한분별위0.7、0.5、0.5μmol/L。령외,본연구대전감기적성능진행료평개。결과현시,재최가조건하대함유부알、조알、락알적용액분별측정7차,기RSD균소우8%,정밀도교호;이부알위저물,련속통입로미낙화철청화갑용액7차, RSD=1.66%,표현출량호적은정성;장고정화매보존재린산염완충액중,매10 d측정일차매활,지속70 d。2개월내고정화이알양화매매활부강저료15%,보존시간교장;장전감기용우검측저육、즉어화포도주중적생물알총량,양품중삼충알적첨가회수솔균재90%~94%지간,회수솔교고,괄합검측총생물알。결론차전감기적종합성능량호,괄용우식품중생물알총량적쾌속검측。
Objective To establish a method for the analysis of the biogenic amines content in foods. Methods A novel micro-fluidic chip-chemiluminescence-enzyme biosensor was designed and assembled to determine the total biogenic amines content in foods. Commercial diamine oxidase was used as biological recognition element of the sensor, the micro-fluidic chip with chemiluminescence analyzer was used as a sensing element, and luminol-ferricyanide was used in chemiluminescence system. Results When the concentration of putrescine, histamine, and tyramine were 3~500, 2~100, 3~200μmol/L, the linear regression equation were Y=17.448X+408.93, Y=88.329X+997.13, Y=45.762X+1728.2, the correlation coefficient were 0.9966, 0.9937, 0.9907, and the detection limit were 0.7, 0.5, 0.5μmol/L, respectively. In addition, this study evaluated the performance of the sensor. Under optimal conditions, putrescine, histamine, tyramine solution were measured, the RSD were between 90%~94%(n=7), the precision was good; when chosing putrescine as substrate, luminol and potassium ferricyanide was entered into chemiluminescence analyzer for seven times, the RSD=1.66%, stability was good; The immobilized enzyme was stored in phosphate buffer, measured every 10 d, lasting 70 d. The activity of immobilized diamine oxidase reduced by 15% in 2 months. Using this sensor to detect the total amount of biogenic amines in pork, fish and red wine, all three recoveries of amine were more than 89%. Conclusion This sensor has good performance, and it can be used for rapid detection of biogenic amines in foods.