共查询到19条相似文献,搜索用时 218 毫秒
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苦荞黄酮类化合物的稳定性研究 总被引:1,自引:0,他引:1
目的研究苦荞黄酮类化合物的稳定性。方法用分光光度法研究储存时间、光照、加热、pH值、食品添加剂、氧化剂、还原剂和金属离子等条件对苦荞麸皮中类黄酮化合物的影响;比较了两种提取方法获得的黄酮提取物在上述条件下的稳定性。结果苦荞黄酮溶液在暗处存放60 d无变化,但光照能破坏其结构;苦荞黄酮溶液耐热性强,90℃保温1 h不受影响;在酸性条件下苦荞黄酮溶液稳定,在中性、碱性环境中不稳定,碱性对其有强破坏作用;常用食品添加剂在安全使用量范围内,柠檬酸、苹果酸、抗坏血酸、蔗糖对苦荞黄酮稳定性无影响,苯甲酸钠对其有一定的影响,氧化剂H2O2对其稳定性无明显影响,还原剂Na2SO3对其有强烈破坏作用;金属离子K+、Na+、Ca2+、Mg2+对苦荞黄酮稳定性无明显影响,Cu2+、Fe2+、Al3+对其影响较大,Fe3+影响最大。结论各因素对苦荞黄酮2#提取物的影响较1#提取物大,即1#提取物的稳定性略高于2#提取物。 相似文献
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采用微波辅助提取黑枸杞中总黄酮,研究光照、温度、pH、金属离子、氧化剂、还原剂和食品添加剂对黑枸杞黄酮稳定性的影响。结果表明:黑枸杞黄酮在避光、温度低于70℃及pH为6.0~8.0的条件下较稳定,70℃以上温度和长时间自然光照均明显影响黑枸杞黄酮的稳定性;金属离子Na~+、K~+、Mg~(2+)、Ca~(2+)对黑枸杞黄酮稳定性均无明显影响,Fe~(3+)、Fe~(2+)、Al~(3+)、Cu~(2+)影响其稳定性;氧化剂H_2O_2、还原剂Na_2SO_3以及食品添加剂维生素C、柠檬酸和苯甲酸钠对黑枸杞黄酮稳定性均有明显影响,而葡萄糖和蔗糖对黑枸杞黄酮稳定性无影响。 相似文献
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目的研究不同因素对洋葱酒中总黄酮化合物的影响。方法以富黄酮洋葱为试验材料,分别测定温度、p H、氧化剂、还原剂、常用的食品添加剂及金属离子对洋葱发酵酒的黄酮含量影响。结果低温对洋葱黄酮影响不大,升高温度可能导致黄酮分解;p H对黄酮影响较大,应尽可能在酸性范围内贮存富黄酮洋葱酒;洋葱黄酮对氧化还原剂较稳定,具有良好的抗氧化能力,但还原剂可能导致黄酮含量减小,应避免接触;在不同浓度的食品添加剂中,黄酮含量较稳定,可以添加常见添加剂调整富黄酮洋葱酒风味;金属离子对其影响较大。结论本研究优化的储藏条件为富黄酮洋葱酒的开发与保存提供了方法与依据。 相似文献
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沙棘叶黄酮的提取及其对抗氧化性的影响 总被引:4,自引:0,他引:4
目的:利用不同溶剂对沙棘叶黄酮进行提取,研究沙棘叶黄酮的提取及其对抗氧化性的影响,综合提取温度和时间,确定常规条件下提取沙棘叶中抗氧化成分的最佳条件,为沙棘叶抗氧化性的研究提供依据。方法:采用紫外-可见光分光光度法,以芦丁作为对照品,进行检测实验。结果:溶剂对沙棘叶黄酮的提取率、抗氧化性影响较大。结论:沙棘叶中抗氧化物质的最佳提取条件为在30℃下,用80%(v/v)甲醇溶液提取4h。 相似文献
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沙棘叶中富含多种黄酮,但以往在加工过程中多作为废弃物抛弃,造成资源极大浪费。为了资源的充分利用,该研究以中国沙棘叶为原料,采用响应面法设计试验,优化了微波辅助乙醇溶剂提取、碱溶酸沉法和离子交换树脂纯化黄酮的工艺,并通过UPLC-Q-MS对沙棘叶黄酮成分进行检测。研究表明,工艺条件为料液比1:30(g/mL)、碱溶温度92 ℃、pH 9.50、酸沉pH 2.70时,总黄酮得率最高为70.98%,黄酮含量为42.11%;沙棘叶黄酮共鉴定出15种黄酮类物质,其中芦丁、槲皮素-3-鼠李糖苷、槲皮素-3-O-呋喃葡萄糖苷和槲皮素占总黄酮的89.67%。该研究工艺可作为一种从沙棘叶中提取与精制高纯度黄酮产品的方法,属于沙棘叶资源的精细加工利用领域,可为今后沙棘叶的开发与利用提供一定的参考价值。 相似文献
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菠菜色素提取方法的改进及稳定性研究 总被引:6,自引:0,他引:6
采用有机溶剂浸泡法和超声波辅助技术从菠菜叶中提取色素,比较两者的提取效率,并对其在pH、光照、温度、氧化剂、还原剂、常见金属离子及食品添加剂等条件下的稳定性进行了研究。结果表明:菠菜色素的最佳提取工艺条件:提取剂,乙醇;料液比(g:mL),1:5;提取温度,50℃;提取时间,60 min;超声波功率,200W;色素在酸性条件下相对稳定;K~+、Na~+、Ca~(2+)、温度的变化,氧化剂、还原剂及食品添加剂的加入对色素的影响不大;其耐光性比较差。 相似文献
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以葛根黄酮、沙棘叶黄酮和山楂叶黄酮为研究对象,在不同体系中评价了总抗氧化能力、DPPH自由基清除活性、ABTS自由基清除活性及还原能力,同时评价了抑制胰脂肪酶活性的能力。结果表明:在不同体系中三种黄酮物质都呈现较强抗氧化活性,其中山楂叶黄酮总抗氧化能力最强,沙棘叶黄酮清除DPPH自由基(IC50 0.057±0.004)mg/m L和清除ABTS(IC50 0.096±0.014)mg/m L自由基活性最强,山楂叶黄酮与葛根黄酮呈现较强的还原能力,三种黄酮物质都呈现一定的抑制胰脂肪酶活性,沙棘叶黄酮活性最强。该研究为天然植物资源的综合利用提供了理论的支撑。 相似文献
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红景天速溶保健茶的工艺研究 总被引:1,自引:0,他引:1
以高原狭叶红景天为原料,经提取浓缩,再配以红茶、沙棘、枸杞等的提取物,经喷雾干燥,制得热水可溶,汤体透明,药香茶香醇厚,营养丰富,具抗缺氧、抗疲劳作用的保健型速溶茶。 相似文献
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以沙棘籽粉为研究对象,在单因素试验的基础上优化鼠李糖脂或蔗糖酯辅助提取沙棘籽黄酮的工艺,同时 对所得黄酮类物质进行初步纯化鉴定。结果表明:适当添加该两种表面活性剂可以提高沙棘籽黄酮的提取率;鼠李 糖脂辅助提取法最优条件为体积分数65%乙醇、鼠李糖脂质量分数0.33%、液料比40∶1、提取温度80 ℃、提取时间 1.5 h,提取率为(5.34±0.07)mg/g;蔗糖酯辅助提取法最优条件为体积分数65%乙醇、蔗糖脂质量分数0.02%、液 料比60∶1、提取温度80 ℃、提取时间1 h,提取率为(5.91±0.11)mg/g;高效液相色谱分析发现所得黄酮物质组分 上与传统醇提法无明显差异,用AB-8型大孔吸附树脂初步分离可以判断含有山奈酚。 相似文献
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为综合开发沙棘生物资源,以杂雌优1号、杂雌优2号、杂雌优10号、杂雌优12号、杂雌优54号等5个杂交沙棘果实为试材,比较分析果实中维生素C、维生素E、总黄酮、花青素、可滴定酸、β-胡萝卜素、可溶性糖、葡萄糖、果糖、蔗糖等营养成分含量、超氧化物歧化酶(SOD)活性及其相关性。结果表明,各营养成分含量与沙棘品种及成熟度有关。参试5种杂交沙棘品种完全成熟时,维生素C和维生素E含量分别可达318.28~531.78 和7.60~13.14 mg/100 g,可溶性糖和可滴定酸含量分别为32.61~84.36 mg/g、0.97%~1.95%,β-胡萝卜素和总黄酮含量分别为22.31~47.82 μg/g、1.41~3.53 mg/g。参试5种杂交沙棘品种中,杂雌优10号沙棘果实营养成分含量较高。相关性分析显示,5个杂交沙棘果实的VE、β-胡萝卜素、花青素、葡萄糖、总黄酮含量互为极显著正相关(P<0.01)。研究结果为杂交沙棘在食品、保健品等方面的加工利用提供理论依据。 相似文献
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Stability testing of selected plastics additives for food contact in EU aqueous, fatty and alternative simulants 总被引:2,自引:0,他引:2
Within the framework of the AIR3-CT94-2360 EUproject, the stability of three plastics additives in three EU aqueous and fatty food simulants and in two alternative simulants was studied under various timetemperature conditions. The additives tested were bis(2-ethylhexyl) adipate (DEHA), bis(2-ethylhexyl) phthalate (DEHP) and octadecyl 3-(3,5-di- tert -butyl4-hydroxyphenyl) propionate (Irganox 1076). The various test conditions included exposures of 10 days at 40 o C, 1h at reflux temperature for all aqueous simulants, 10 days at 40 o C and 1h 175 o C for the olive oil and 2 days at 20 o C and 3h at 60 o C for the isooctane simulant. Following the exposure, the additive samples were extracted from aqueous simulants with hexane. A sonication step was necessary to ensure maximum extraction of control samples. In the case of the isooctane simulant, the samples were analysed directly from the simulant. The oil samples were extracted by acetonitrile. The extracts of samples exposed to various heat conditions as well as unexposed spiked controls and blanks were analysed by gas chromatography (GC) on a non-polar (5% -phenyl)-methylpolysiloxane capillary column with high temperature capabilities. The results showed that DEHA, DEHP and Irganox 1076 were stable at 40 o C and at reflux temperature in ethanolic or acidic aqueous simulants. The various additives were also stable in the organic isooctane simulant as well as in the fatty simulant olive oil. Studies on the stability of such additives used in food packaging are designed for regulatory purposes as an aid to decide whether the legislation should regulate limits for plasticizers based on a quantity in the food packaging itself or based on an ingested dose by the consumer. 相似文献
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Abstract: Interactions of phenolics with other food constituents and digestive enzymes are likely to have interference with the digestion and bioavailability of food and phenolics. In this study the effect of sea buckthorn proanthocyanidins on in vitro digestion of protein was evaluated. Optimization of the extraction conditions showed that maximum recovery of sea buckthorn proanthocyanidins was obtained with acidified acetone; water mixture (60% to 70%, v/v). Crude proanthocyanidin extracts thus prepared were purified using sephadex gel column chromatography and their average degree of polymerization and the effects on enzymatic hydrolysis of bovine serum albumin as influenced by their protein precipitation capacities were studied. Average degree of polymerization of proanthocyanidins in berry pulp, kernel, seed coat, and leaves was 7.4, 5.6, 8.2, and 10.6, respectively. The EC50 values for the protein precipitation by the PA of berry pulp, kernel seed coat, and leaves were 44.2, 44.1, 65.8, and 39.8 μg, respectively. Relative enzymatic hydrolysis of the protein‐proanthocyanidin complexes was 44.1% to 60.3% for pepsin and 57.5% to 67.7% for trypsin. Interactions of sea buckthorn proanthocyanidins with food proteins and digestive enzymes might alter the protein digestibility and phenolic bioavailabilty. 相似文献