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选用双菌种发酵制备羊乳发酵饮料酒,确定了该饮料酒的的最佳发酵条件。其中,酵母菌最佳发酵条件为:酵母菌添加量0.12%、发酵温度28℃、加糖量10%、发酵时间26h;乳酸菌最佳发酵条件为:发酵时间8h、发酵温度42℃、乳酸菌添加量0.10‰。采用上述工艺条件发酵得到的羊乳发酵饮料酒,外观澄清透明、香气饱满,风味纯正。 相似文献
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通过测定蛋白分解菌、蛋白降解产物、蛋白溶解性以及肌原纤维蛋白和肌浆蛋白的十二烷基硫酸钠-聚丙稀酰胺凝胶电泳(SDS-PAGE)条带变化反映蛋白降解作用对冷藏罗非鱼片腐败进程的影响。结果表明:蛋白分解菌、pH值、氨基态氮含量的变化与肌肉蛋白降解程度具有良好对应关系。当蛋白分解菌少于6.10(lg(CFU/g))时,pH值呈弱酸性,氨基态氮含量无明显增加,肌原纤维蛋白和肌浆蛋白的SDS-PAGE条带模式无明显变化。当蛋白分解菌不少于7.60(lg(CFU/g))时,pH值呈中性至弱碱性,氨基态氮快速增加,SDS-PAGE条带开始扩展分解,蛋白降解作用持续增强。当肌原纤维蛋白SDS-PAGE中中45~29kD处第3条带消失,并在小于等于29kD处出现新条带时是鱼肉腐败的重要标志。 相似文献
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采用不同月龄的乌珠穆沁羊骨骼肌中的股二头肌,采取组织化学染色法对肌纤维类型的变化进行研究,了解肉羊生长过程中肌纤维类型的变化规律.骨骼肌用多聚甲醛固定液固定、切薄片.在酸性和碱性孵育液中孵育后,巴比妥钠溶液中冲洗后硫化铵液中孵育.用乙醇脱水,中性树胶封片,显微镜下观察.结果表明,随着月龄的增加,股二头肌中Ⅱa型肌纤维百分含量在3、6月龄及12、18月龄之间差异不显著(P>0.05),百分含量在12月龄时最高.Ⅱb型肌纤维的百分比在18月龄最高.Ⅰ型纤维在18月龄时含量最低. 相似文献
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为了探明雅安罐罐肉蛋白质的变化规律,以不同加工与贮藏阶段的罐罐肉为对象,采用常规理化检测方法以及SDS-PAGE电泳法分析其蛋白质的变化情况。结果显示:罐罐肉在油炸结束后蛋白酶活性为零;非蛋白氮(NPN)与游离氨基酸(FAA)含量在油炸结束时显著上升(P<0.01),FAA达到最大值(219.2 mg/100 g),在贮存的前期与中期缓慢下降,后期又有所回升,NPN达到最高值(0.616%);肌浆蛋白和肌原纤维蛋白经过高温油炸,蛋白质含量(干基)下降为4.18 mg/g和4.70 mg/g,大于66ku的蛋白质条带完全消失,积累大量小于16ku的条带,肌浆蛋白贮藏后期还出现了51ku和42ku的新条带。研究结果表明,雅安罐罐肉蛋白质的变化主要发生在油炸阶段,贮藏过程中的变化非常缓慢。 相似文献
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刺梨酒发酵过程中VitC的变化研究 总被引:1,自引:0,他引:1
为给刺梨的开发利用和指导生产提供科学依据,用碘量法对刺梨酒发酵过程中VitC的含量进行测定,得出:发酵前期,酒精度低,发酵液中VitC的含量随着时间的延长而不断增大,当酒精度不断升高,VitC含量开始逐渐下降,当降低到一定值且酒精度处于稳定状态时,VitC的含量则随着时间的延长不断上升,而后又开始下降。同时,通过对刺梨在不同温度和酒精度溶液中浸提时VitC变化的研究,进一步证实了刺梨酒发酵过程中VitC的变化规律。 相似文献
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羊乳与牛乳理化特性比较 总被引:2,自引:0,他引:2
以莎能奶山羊羊乳为样品,利用乳样自动分析仪,氨基酸自动分析仪、等离子发射光谱、色谱分析对其基本成分、氨基酸组成及含量进行了分析和检测,并与牛乳理化特性进行比较,为科学合理地利用羊乳,生产具有独特功能的羊乳制品提供了理论依据。 相似文献
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蓝莓酒发酵过程中主要成分变化规律研究 总被引:1,自引:0,他引:1
研究了蓝莓酒主发酵过程中总糖、总酸、挥发酸、花色苷、单宁、乙醇、甲醇、高级醇和酯等主要物质含量的变化。结果表明,蓝莓通过加糖9.6%发酵,原酒酒精度可达到11.8%(体积分数),总酸7.53g/L,pH2.95;花色苷含量逐渐减少,发酵结束后达0.615g/100g;单宁含量变化较小;挥发酸含量随着发酵时间的延长而逐渐上升,主发酵期间上升较快,但最终可控制在国标(≤1.2g/L)允许范围以内;甲醇在刚开始发酵时就存在,发酵前期略有上升,后略有下降,含量相对稳定;高级醇中的异丁醇和苯乙醇是蓝莓酒的主要香气成分,约占香气成分的60%以上,苯甲酸乙酯、乙酸乙酯、己酸乙酯、癸酸乙酯是蓝莓酒香气的主要成分,在发酵过程中高级醇和酯都不断增加,发酵过程中还检测到一些未知成分。 相似文献
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Y.S. Qin H. Jiang C.F. Wang M. Cheng L.L. Wang M.Y. Huang Q.X. Zhao H.H. Jiang 《Journal of dairy science》2021,104(4):3936-3946
During lactation, goat milk contains colostrum, transitional milk, mature milk, and end milk. The protein present in goat milk during different lactation periods has different characteristics. This study aimed to characterize the protein profile of goat milk samples obtained at different lactation stages and to identify changes in the physicochemical and functional properties of whey protein and casein from goat milk collected at 1, 3, 15, 100, and 200 d after calving. The results demonstrated that the lactation period had a great influence on the physicochemical and functional properties of goat milk whey protein and casein, especially the protein properties of colostrum on the first day after delivery. The denaturation temperature, hydrophobicity, and turbidity of whey protein were significantly higher on the first day postpartum than at other lactation periods. Correspondingly, the colostrum whey protein also had better functional properties, such as emulsification, oil holding capacity, and foaming properties on the first day postpartum than at other lactation periods. For casein, the turbidity, particle size, water holding capacity, and foaming properties on the first day after delivery were significantly higher than those at other lactation periods, whereas the denaturation temperature, oil holding capacity, and emulsification followed the opposite trend. For both whey protein and casein, the 2 indicators of emulsifying properties, namely, emulsifying activity index and the emulsion stability, also followed an opposite trend relative to lactation stage, whereas the changes in foaming capacity with the lactation period were completely consistent with the change of foaming stability. These findings could provide useful information for the use of goat milk whey protein and casein obtained during different lactation stages in the dairy industry. 相似文献
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《Journal of dairy science》2022,105(6):4903-4914
Goat milk whey protein concentrates were manufactured by microfiltration (MF) and ultrafiltration (UF). When MF retentate blended with cream, which could be used as a starting material in yogurt making. The objective of this study was to prepare goat milk whey protein concentrates by membrane separation technology and to investigate the effects of polymerized goat milk whey protein (PGWP) on the physicochemical properties and microstructure of recombined goat milk yogurt. A 3-stage MF study was conducted to separate whey protein from casein in skim milk with 0.1-µm ceramic membrane. The MF permeate was ultrafiltered using a 10 kDa cut-off membrane to 10-fold, followed by 3 step diafiltration. The ultrafiltration-diafiltration-treated whey was electrodialyzed to remove 85% of salt, and to obtain goat milk whey protein concentrates with 80.99% protein content (wt/wt, dry basis). Recombined goat milk yogurt was prepared by mixing cream and MF retentate, and PGWP was used as main thickening agent. Compared with the recombined goat milk yogurt without PGWP, the yogurt with 0.50% PGWP had desirable viscosity and low level of syneresis. There was no significant difference in chemical composition and pH between the recombined goat milk yogurt with PGWP and control (without PGWP). Viscosity of all the yogurt samples decreased during the study. There was a slight but not significant decrease in pH during storage. Bifidobacterium and Lactobacillus acidophilus in yogurt samples remained above 106 cfu/g during 8-wk storage. Scanning electron microscopy of the recombined goat milk yogurt with PGWP displayed a compact protein network. Results indicated that PGWP prepared directly from raw milk may be a novel protein-based thickening agent for authentic goat milk yogurt making. 相似文献
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文章用气相色谱法对新工艺及传统工艺黄酒发酵过程中的主要高级醇——正丙醇、异丁醇、异戊醇、β-苯乙醇进行了跟踪测定,结果表明,2种工艺黄酒在发酵过程中总高级醇含量一直处于上升状态,前发酵阶段上升速率要明显高于后发酵.新工艺条件下黄酒中82%的高级醇在前发酵阶段形成,传统工艺下这个比例为73%,发酵结束时新工艺黄酒总高级醇含量比传统工艺黄酒高56.60mg/L.发酵过程中高级醇组分间的比例——正丙醇∶异丁醇∶异戊醇∶苯乙醇近似为1∶2∶5∶1,这个比值在整个发酵过程中变化不大,且与新旧工艺路线无关. 相似文献