中国粮油学报
中國糧油學報
중국량유학보
JOURNAL OF THE CHINESE CEREALS AND OILS ASSOCIATION
2010年
2期
35-39
,共5页
大豆蛋白%热处理11S%7S%分级
大豆蛋白%熱處理11S%7S%分級
대두단백%열처리11S%7S%분급
soy protein%thermal treatment%11 S%7 S%fractionation
对大豆粕进行不同热处理(湿热、干热和压热),研究热处理对大豆蛋白分级分离的影响.研究表明未热处理低温豆粕11S与7S分级不完全,高温豆粕蛋白质得率虽不及低温豆粕的1/2,但高温豆粕中11S与7S级分更易于分离.湿热处理对7S级分纯度影响较大,特别是90℃时7S级分纯度仅为(23.5±0.71)%、得率仅为未加热低温豆粕的1/14.干热处理(特别是70℃时)所得11S和7S级分纯度较高且蛋白质得率损失少.压热处理蛋白质得率大大降低.各级分的脂含量分析表明:高温豆粕IM和7S级分脂含量明显高于未加热低温豆粕.未加热低温豆粕的脂类主要集中于11S和IM级分,湿热处理使脂类向7S级分富集,70℃干热处理IM级分的脂含量最高.结果表明:70℃干热处理2 h的低温豆粕对大豆蛋白的分级分离效果较好.
對大豆粕進行不同熱處理(濕熱、榦熱和壓熱),研究熱處理對大豆蛋白分級分離的影響.研究錶明未熱處理低溫豆粕11S與7S分級不完全,高溫豆粕蛋白質得率雖不及低溫豆粕的1/2,但高溫豆粕中11S與7S級分更易于分離.濕熱處理對7S級分純度影響較大,特彆是90℃時7S級分純度僅為(23.5±0.71)%、得率僅為未加熱低溫豆粕的1/14.榦熱處理(特彆是70℃時)所得11S和7S級分純度較高且蛋白質得率損失少.壓熱處理蛋白質得率大大降低.各級分的脂含量分析錶明:高溫豆粕IM和7S級分脂含量明顯高于未加熱低溫豆粕.未加熱低溫豆粕的脂類主要集中于11S和IM級分,濕熱處理使脂類嚮7S級分富集,70℃榦熱處理IM級分的脂含量最高.結果錶明:70℃榦熱處理2 h的低溫豆粕對大豆蛋白的分級分離效果較好.
대대두박진행불동열처리(습열、간열화압열),연구열처리대대두단백분급분리적영향.연구표명미열처리저온두박11S여7S분급불완전,고온두박단백질득솔수불급저온두박적1/2,단고온두박중11S여7S급분경역우분리.습열처리대7S급분순도영향교대,특별시90℃시7S급분순도부위(23.5±0.71)%、득솔부위미가열저온두박적1/14.간열처리(특별시70℃시)소득11S화7S급분순도교고차단백질득솔손실소.압열처리단백질득솔대대강저.각급분적지함량분석표명:고온두박IM화7S급분지함량명현고우미가열저온두박.미가열저온두박적지류주요집중우11S화IM급분,습열처리사지류향7S급분부집,70℃간열처리IM급분적지함량최고.결과표명:70℃간열처리2 h적저온두박대대두단백적분급분리효과교호.
Effects of different thermal treatments on the fractionation of soy protein were studied. Results:11S and 7S cannot be fractionated completely in unheating low temperature desolventized soybean meal, and high temperature desolventized soybean meal is favorable for fractionating llS from 7S at expense of half protein recovery loss. The purity and yield of 7S are reduced obviously by moist-heating, merely purity23.5 % and yield1/14 of the control for 90 ℃ moist-heating. Dry-heating, especially 70 ℃ treatment results in higher purity of11S and 7S and less recovery loss. High press heating decreases protein recovery greatly. The lipid analysis for every fraction shows that the lipid concentrations of 7S and IM fractions in high temperature desolventized soybean meal are obviously higher than those in low temperature desolventized soybean meal. Lipid concentrates in11S and IM for low temperature desolventized soybean meal, in 7S for moist-heated soybean meal, and in IM for 70 ℃ dry-heated soybean meal. It is preferable for soy protein fractionation to use low temperature desolventized soybean meal treated with 70 ℃ dry-heating for2 h.
