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该实验建立了基于分散固相萃取结合超高效液相色谱-串联质谱技术(UPLC-MS/MS)对啤酒中的茚嗪氟草胺及其3种代谢物残留量的测定方法。样品经乙腈提取后进行盐析分层,离心后乙腈层用C18固相萃取剂净化后,于电喷雾离子源正离子(ESI+)模式下采集碎片信息。结果表明,茚嗪氟草胺及其3种代谢物的基质曲线在1.0~50.0 μg/L的质量浓度内呈良好线性关系,相关系数(R2)均大于0.999,平均加标回收率为85.4%~98.1%,精密度试验结果的相对标准偏差(RSD)为2.29%~4.55%。方法检出限(LOD)和定量限(LOQ)分别为2.0 μg/kg和5.0 μg/kg。该方法快速高效,回收率、灵敏度高,重复性好,可有效测定啤酒中茚嗪氟草胺及其代谢物的残留量。 相似文献
3.
大多数啤酒蛋白来自大麦和小麦,它们含有与乳糜泻疾病有关的富含脯氨酸的麸质蛋白成分。本研究选择01 mol/L醋酸铵甲醇和丙酮作为优化溶液,分别提取啤酒样品中醇不溶和醇溶的麸质蛋白组分,最大限度地获取麸质蛋白信息。采用优化的麸质蛋白提取工艺,结合液相色谱 质谱法(LC MS/MS)分析8种市售啤酒的麸质蛋白。结果表明,蛋白组分和多肽组分的结合可以显著提高麸质蛋白的鉴别率。在包括无麸质啤酒在内的所有类型啤酒中,2种蛋白和多肽组分中均能鉴定出麸质蛋白。质谱法可作为酶联免疫吸附测定法的补充,以确定无麸质啤酒的安全性。 相似文献
4.
以10个进口和8个国产啤酒大麦品种及其相对应的麦芽为样本,采用高效液相色谱(HPLC)建立大麦和麦芽中14种多酚类物质的指纹图谱,并分别进行相似度分析、聚类分析(CA)和主成分分析(PCA)。结果表明,进口大麦样品的相似度(0.938~0.989)高于国产大麦样品(0.911~0.937),而进口大麦麦芽的相似度(0.892~0.967)普遍低于国产大麦麦芽的相似度(0.956~0.981);CA(判别距离<5)结果和PCA结果一致,8个国产大麦和1个进口大麦样品B2聚为一类,8个国产麦芽和3个进口麦芽样品M2、M3、M4聚为一类,说明通过大麦、麦芽多酚类物质的HPLC指纹图谱技术能基本区分国产和进口大麦品质的差异。 相似文献
5.
该研究以大麦芽、小麦为主要原料,葡萄籽、百香果为主要辅料酿制啤酒,利用单因素试验考察混合主料(大麦芽、小麦与水)料液比、萨兹香型酒花添加量、混合辅料(葡萄籽、百香果与麦汁)料液比、初始pH值、酵母添加量和主发酵温度等因素对葡萄籽百香果啤酒感官评分的影响,并通过响应面优化葡萄籽百香果啤酒发酵工艺条件。结果表明,最优葡萄籽百香果啤酒发酵工艺条件为:大麦芽、小麦与水料液比1.0∶4.0(kg∶L),初始pH值5.0,萨兹香型酒花添加量0.6 g/L,百香果汁添加量80 g/L,葡萄籽、百香果与麦汁料液比2.0∶1.0(kg∶L),酵母添加量0.10%,主发酵温度21 ℃。在此优化发酵工艺条件下,葡萄籽百香果啤酒感官评分为88.44分,酿制的啤酒香气丰富有层次感,麦香突出,是一款理想的烈性啤酒。 相似文献
6.
In order to explore the effect of okra on the cloudy and flavor characteristics of wheat beer, fresh okra and dried okra were added separately into boiling wort. The beer without okra was used as control sample. Aroma characteristics were analyzed using gas chromatography (GC), high-performance liquid chromatography, headspace–solid-phase microextraction–GC–mass spectrometry (HS-SPME-GC-MS), and electronic nose. The results showed that okra addition significantly increased the turbidity and viscosity. Principal components analysis reflected that three beers were apart from each other. After adding okra, the higher alcohols decreased, while the esters increased. In conclusion, okra can be used to improve stability and aroma characteristics. 相似文献
7.
比较调理啤酒鲈鱼片在不同贮藏条件下的品质变化 总被引:1,自引:0,他引:1
为开发鲈鱼调理食品,解决其贮藏时间短的问题,以本实验室开发的调理啤酒鲈鱼片为对象,通过普通包装(对照组)、真空包装和气调包装,测定其在4℃和-3℃条件下贮藏过程中的菌落总数、挥发性盐基氮(total volatile basic nitrogen,TVB-N)含量、硫代巴比妥酸(thiobarbituric acid,TBA)值、p H值、电导率、汁液流失率,结合感官评价,探究不同包装方式的调理啤酒鲈鱼片在4℃和-3℃条件下的品质变化规律。结果表明:不同包装方式的调理啤酒鲈鱼片在4℃或-3℃贮藏过程的汁液流失率、TVB-N含量、TBA值、电导率和菌落总数均随贮藏时间的延长而呈增长趋势,-3℃贮藏过程增长较缓慢;p H值在贮藏初期降低而贮藏后期增高;感官评分呈降低趋势。综合各项指标变化规律,调理啤酒鲈鱼片采用气调和真空包装的货架期优于普通包装,采用气调包装优于真空包装,其货架期在4℃下可达12 d,比普通包装和真空包装分别延长8 d和4 d;货架期在-3℃下可达50 d,较普通包装和真空包装分别延长35、15 d。与4℃贮藏相比,气调包装调理啤酒鲈鱼片在-3℃条件下能明显保持产品的品质并延长货架期,可满足当前冰鲜流通和消费的需求,为调理啤酒鲈鱼片的开发提供技术依据。 相似文献
8.
9.
Marc Serra Colomer Birgitte Funch Natalia Solodovnikova Timothy John Hobley Jochen Förster 《Journal of the Institute of Brewing》2020,126(3):280-288
Several hop derived compounds in wort are known to be converted by yeast during fermentation, influencing the overall perception of the beer. A deeper understanding of such metabolic processes during fermentation is needed to achieve better control of the outcome. Here, the interaction between hop derived compounds and the yeast genera Brettanomyces was studied. Several Brettanomyces strains with different genomic backgrounds were selected, focusing on two traits: beta-glucosidase activity and nitrate assimilation. The role of three beta-glucosidases present in Brettanomyces bruxellensis and Brettanomyces anomalus and their impact on the final monoterpene alcohol profile was analysed. The beta-glucosidase activity was highly strain dependent, with B. anomalus CRL-49 exhibiting the highest conversion. Such activity could not be related to the release of aglycones from hops during fermentation, as a substantial part of such activity was intracellular. Nevertheless, the reduction of geraniol to β-citronellol was remarkably efficient for all Brettanomyces strains during fermentation, and it is suggested that two oxidoreductases BbHye2 and BbHye3 may have an influence. Moreover, the transfer of nitrate from hops to wort and its further assimilation by Brettanomyces species was analysed. The amount of nitrate in wort proved to be linearly proportional to the contact time of the hops with the wort. The level of nitrate assimilation by yeast was shown to be dependent on the nitrate assimilation cluster (YNR, YNI, YNT). Hence, the desired yeast strains may be selected according to the genetic make-up. © 2020 The Authors. Journal of the Institute of Brewing published by John Wiley & Sons Ltd on behalf of The Institute of Brewing & Distilling 相似文献
10.
Kamaljit Moirangthem David Jenkins Priya Ramakrishna Ranjana Rajkumari David Cook 《Journal of the Institute of Brewing》2020,126(1):35-45
Indian black rice (Chakhao Poireiton) is a pigmented variety, rich in anthocyanins and other phytonutrients. With growing interest in the use of local raw materials in brewing, it was of interest to develop protocols for malting and brewing with Chakhao Poireiton to see whether the antioxidant capacity of anthocyanins could be delivered into finished beer. Protocols for brewing with 100% malted rice were developed and the performance of Indian black rice compared with that of an Italian white rice cultivar suited to brewing. The apparent fermentabilities of rice worts were 69.5% (black) and 67.3% (white), yielding beers of 3.28 and 3.19% ABV respectively. Black rice worts were deficient in free amino nitrogen (83.5 mg/L relative to 137 mg/L for white rice) and would need nitrogen supplementation to avoid issues with fermentation, e.g. elevated diacetyl. Black rice beer had an orange-red hue as a result of extraction of anthocyanin pigments (2.84 mg/L). The oxidative stability of 100% rice beers was measured using electron spin resonance spectroscopy and both samples were found to be unusually stable. Interestingly, when rice beers were blended with a control barley malt derived lager in varying proportions (10, 25, 50%), the oxidative stability was improved, relative to the control lager, particularly so in the case of black rice beer, which contained an antioxidant capacity over and above that of the white rice beer. Future studies are required to determine whether the noted oxidative stability of 100% rice malt beers results in a more flavour-stable beer. © 2019 The Institute of Brewing & Distilling 相似文献