食品研究与开发
食品研究與開髮
식품연구여개발
Food Research and Development
2015年
21期
29-32
,共4页
大豆分离蛋白%超声改性处理%MTGase%凝胶强度
大豆分離蛋白%超聲改性處理%MTGase%凝膠彊度
대두분리단백%초성개성처리%MTGase%응효강도
soybean protein isolate%ultrasonic modification%MTGase%gel strength
以大豆分离蛋白为原料,采用超声波物理改性处理手段与利用MTGase进行诱导制备凝胶、采用单因素与正交试验设计的方法优化凝胶过程,并对比改性与未改性大豆分离蛋白凝胶强度的差别.试验结果表明:经MTGase诱导未通过经超声处理的SPI样品,诱导时间3 h、诱导温度50℃、pH7.0、MTGase添加量30 U/g,所得大豆分离蛋白的凝胶强为154.32 g;经时间20 min、功率200 W的超声波处理后SPI,诱导时间3 h、诱导温度50℃、pH7.0、MTGase添加量30 U/g、所得凝胶的凝胶强度为165.84 g;经超声改性处理的SPI其凝胶强度明显高于未改性的SPI凝胶强度.
以大豆分離蛋白為原料,採用超聲波物理改性處理手段與利用MTGase進行誘導製備凝膠、採用單因素與正交試驗設計的方法優化凝膠過程,併對比改性與未改性大豆分離蛋白凝膠彊度的差彆.試驗結果錶明:經MTGase誘導未通過經超聲處理的SPI樣品,誘導時間3 h、誘導溫度50℃、pH7.0、MTGase添加量30 U/g,所得大豆分離蛋白的凝膠彊為154.32 g;經時間20 min、功率200 W的超聲波處理後SPI,誘導時間3 h、誘導溫度50℃、pH7.0、MTGase添加量30 U/g、所得凝膠的凝膠彊度為165.84 g;經超聲改性處理的SPI其凝膠彊度明顯高于未改性的SPI凝膠彊度.
이대두분리단백위원료,채용초성파물리개성처리수단여이용MTGase진행유도제비응효、채용단인소여정교시험설계적방법우화응효과정,병대비개성여미개성대두분리단백응효강도적차별.시험결과표명:경MTGase유도미통과경초성처리적SPI양품,유도시간3 h、유도온도50℃、pH7.0、MTGase첨가량30 U/g,소득대두분리단백적응효강위154.32 g;경시간20 min、공솔200 W적초성파처리후SPI,유도시간3 h、유도온도50℃、pH7.0、MTGase첨가량30 U/g、소득응효적응효강도위165.84 g;경초성개성처리적SPI기응효강도명현고우미개성적SPI응효강도.
Soy protein isolated as the raw material, modified by ultrasonic physical processing method, then induced by MTGase prepared a gel. In order to obtain the optimal formula , single factor experiment and orthogonal experiment were used,and also compared unmodified with modified soy protein isolate in gel strength. The results showed that:unmodified SPI samples induced by MTGase, induction time 3 h, induction temperature 50℃, pH7.0, MTGase amount 30 U/g, SPI gel strength was 154.32 g;By the time after 20 min, power 200 W ultrasonic processing SPI, induction time 3 h, induction temperature 50 ℃, pH7.0, MTGase 30 U/g, the gel strength of the SPI was 165.84 g. The gel strength of modified SPI By ultrasound was significantly higher than that of the unmodified SPI gel strength.
