新疆赤霞珠葡萄酒发酵过程中生物胺含量的变化

利用高效液相色谱技术分析葡萄酒发酵过程中8种生物胺含量的变化。结果表明,葡萄酒发酵过程中8种生物胺总含量整体呈上升趋势。色胺含量最高,最高可达到98.03 mg/L;腐胺和组胺含量较低,含量均不超过2.48 mg/L;精胺和亚精胺含量变化相对平稳,波动范围在1.81～3.07 mg/L之间,除色胺外,其他生物胺含量均不超过4.50 mg/L。苯乙胺、尸胺、酪胺等在酒精发酵后期和苹果酸-乳酸发酵初期大幅上升,在苹-乳发酵后期,酪胺和亚精胺含量有所下降,其他生物胺含量均有一定程度上升。     

发酵香肠中生物胺生成量的菌株效应分析

本实验对乳杆菌(米酒乳杆菌和戊糖乳杆菌)和片球菌(戊糖片球菌和小片球菌)在发酵香肠中生物胺的生成量进行了分析。结果表明,供试乳杆菌和片球菌均能产生不等量的组胺、尸胺、腐胺、酪胺、亚精胺和精胺,但都不产生色胺,产品中的生物胺生成量表现出明显的菌株效应。采用复配菌种(片球菌+葡萄球菌)发酵可以明显降低香肠中组胺、尸胺、腐胺和酪胺以及总生物胺的含量。     

休闲发酵色拉米中生物胺的测定与分析

人体摄入过多的生物胺时会出现许多不良反应，本实验对乳杆菌（米酒乳杆菌和戊糖乳杆菌）和片球菌（戊糖片球菌和小片球菌）在休闲发酵色拉米中生物胺的生成量进行了测定与分析。结果表明：供试乳杆菌和片球菌均能产生不等量的组胺、尸胺、腐胺、酪胺、亚精胺和精胺，但都不产生色胺，产品中的生物胺生成量表现出明显的菌株效应。采用复配菌种（片球菌＋葡萄球菌）发酵可以明显降低香肠中组胺、尸胺、腐胺和酪胺以及总生物胺的含量。     

传统自然发酵四川香肠加工贮藏过程中生物胺含量变化

采用高效液相色谱法对传统自然发酵四川香肠加工贮藏过程中生物胺(色胺、苯乙胺、腐胺、尸胺、组胺、酪胺和亚精胺)含量变化进行测定。结果表明:传统自然发酵四川香肠原料肉中只检测出了色胺、苯乙胺和亚精胺,贮藏120天检测出了7种生物胺,除亚精胺外,6种生物胺(色胺、苯乙胺、腐胺、尸胺、组胺和酪胺)的含量在加工过程中均显著增加(P0.01)。传统自然发酵四川香肠中以酪胺、组胺、尸胺和腐胺为主,含量分别达到153.06、127.90、132.46和92.83 mg/kg,4种生物胺占生物胺总量的89.66%。传统自然发酵四川香肠中生物胺(色胺、苯乙胺、组胺和酪胺)含量均低于20 mg/100 g。生物胺总量在加工贮藏过程中变化显著(P0.01),总量低于1 000 mg/kg。     

前体氨基酸对赤霞珠干红葡萄酒中生物胺含量的影响

以新疆地产赤霞珠果实为原料,在葡萄汁中分别加入不同浓度的7种前体氨基酸,进行酒精发酵与苹果酸-乳酸发酵。通过高效液相色谱法的分析检测,了解前体氨基酸对葡萄酒中8种生物胺含量的影响。结果表明,前体氨基酸对葡萄酒中生物胺的含量产生一定的影响,当加入质量浓度为40 mg/L和100 mg/L的组氨酸时,组胺含量由1.04 mg/L减少为0.20 mg/L和0.35 mg/L;而当加入色氨酸、精氨酸和鸟氨酸时,会使色胺和腐胺的含量有所降低,当加入300 mg/L质量浓度的精氨酸时,腐胺含量由1.45 mg/L减少至0.63 mg/L。当葡萄酒中加入同一种氨基酸时,对葡萄酒中不同的生物胺含量的影响也不尽相同。     

国产葡萄酒中生物胺组成与含量分析

通过对国产葡萄酒产品中生物胺组成和含量的检测分析,了解国产葡萄酒中生物胺含量现状。采用GB/T 5009.208—2008方法,对国内市售的250个国产葡萄酒样品中8种生物胺(色胺、苯乙胺、腐胺、尸胺、组胺、酪胺、精胺和亚精胺)含量进行检测。结果显示,国产葡萄酒样品中8种生物胺含量范围分别为色胺0~32.78 mg/L,苯乙胺0~48.20 mg/L,腐胺0~46.60 mg/L,尸胺0~9.38 mg/L,组胺0~14.37 mg/L,酪胺0~14.60 mg/L,精胺0~12.73 mg/L,亚精胺0~0.50mg/L;葡萄酒样品中检出率最高和最低的生物胺分别为腐胺和精胺,检出率分别为88.4%和50.0%,组胺检出率为52.8%;98.8%的葡萄酒样品中组胺含量低于10 mg/L,98.0%的葡萄酒样品中酪胺含量低于10 mg/L。同其他种类葡萄酒相比,干红葡萄酒样品中生物胺含量相对较高,但与欧洲葡萄酒传统酿造国家的同类产品含量水平一致。国产葡萄酒中生物胺含量水平符合食品安全要求,具有较好的饮用安全性。     

生物传感器测定宝石-卡本内特干红葡萄酒苹果酸-乳酸发酵过程中L-乳酸含量

苹果酸是葡萄酒中重要的有机酸之一,其生理代谢比较活跃,易被微生物分解利用,在葡萄酒酿造工艺中起关键作用。葡萄酒的苹果酸-乳酸发酵（以下简称MLF）是乳酸菌以L-苹果酸为底物,在苹果酸-乳酸酶催化下转变成L-乳酸和CO2的过程。酸味尖刻的二元酸L-苹果酸向酸味柔和的一元酸L-乳酸的转化,使葡萄酒总酸下降,酸涩感降低,使酒体口感酸味柔和协调,果香突出,提高葡萄酒的品质。如果对MLF控制不当,就有可能给葡萄酒带来刺激的酸乳味、苦昧等,还可产生某些挥发性的酚类或生物胺（如组胺、腐胺、尸胺等）,     

发酵剂对熏马肠成熟过程中生物胺含量变化的影响

利用从熏马肠中分离出的具有抑菌作用并可以产生物胺氧化酶的菌株,1株表皮葡萄球菌(Staphylococcus epidermidis),3株模仿葡萄球菌(Staphylococcus simulans)作为发酵剂加入到熏马肠,在熏马肠成熟过程中采用高效液相色谱检测不同发酵剂对生物胺含量变化的影响,进而阐明发酵剂对熏马肠中生物胺累积的控制作用。从研究结果可以看出,在马肠成熟过程中,B组对色胺、苯乙胺、腐胺、组胺、酪胺都有较显著的减少作用;C组对色胺、腐胺、尸胺、组胺、酪胺减少作用显著;D组对色胺、苯乙胺、腐胺、组胺、酪胺的减少作用显著;E组对组胺、苯乙胺、色胺的减少作用显著。添加发酵剂组对精胺、亚精胺的减少作用均不显著。结果表明,上述菌种对熏马肠成熟过程中生物胺产生有较好的抑制作用,具有肉品发酵剂的良好特性,为熏马肠以及其他发酵肉制品的工业化生产和安全性奠定了基础。     

酒酒球菌中生物胺相关基因的检测

酒酒球菌在葡萄酒苹果酸-乳酸发酵过程中可通过脱羧基作用将氨基酸转化为生物胺.该研究采用PCR技术对27株酒酒球菌中与生物胺产生相关的基因-组氨酸脱羧酶基因、鸟氨酸脱羧酶基因、酪氨酸脱羧酶基因进行了检测,研究了这些菌株产生生物胺的特性.结果显示,所有菌株均不含有组氨酸脱羧酶基因、鸟氨酸脱羧酶基因、酪氨酸脱羧酶基因,不具有产生组胺、腐胺和酪胺的能力,因而具有较高的生物胺代谢安全性.     

传统中式香肠成熟过程中生物胺的生物控制

以传统中式香肠成熟过程中生物胺含量的变化为研究对象,重点介绍了色胺、腐胺、尸胺、组胺、酪胺的变化。在香肠加工过程中添加发酵剂和复合植物提取物来控制香肠中生物胺的积累,利用高效液相色谱仪检测成熟过程中生物胺的变化。结果表明,添加发酵剂可有效地抑制色胺、腐胺、尸胺、酪胺的生成;复合植物提取物只是在抑制酪胺含量的增加上有显著效果;同时加入发酵剂和复合植物提取物对色胺、尸胺、组胺和酪胺的抑制效果更显著,特别是组胺,在生产结束时含量为0。发酵剂和复合植物提取物对精胺和亚精胺基本没有影响。     

葡萄酒中氨基甲酸乙酯的含量测定及酿造工艺对其含量的影响

调查了我国干红葡萄酒(77款)和干白葡萄酒(17款)中氨基甲酸乙酯(EC)含量情况,并探讨了酿酒工艺(果胶酶、酵母、乳酸菌和发酵温度等)对葡萄酒中氨基甲酸乙酯(EC)含量的影响。研究结果显示:干红葡萄酒中EC含量范围在7.00～26.80μg/L,平均浓度为17.90μg/L;干白葡萄酒中EC含量范围在6.40～21.58μg/L,平均浓度为11.35μg/L。葡萄酒酿造过程中EC的生成主要受酵母菌和乳酸菌种类的影响,酒精发酵温度的降低和果胶酶的使用有助于减少葡萄酒中EC的含量。     

Formation of biogenic amines throughout the industrial manufacture of red wine

Changes in biogenic amines (histamine, methylamine, ethylamine, tyramine, phenylethylamine, putrescine, and cadaverine) were monitored during the industrial manufacture of 55 batches of red wine. The origin of these amines in relation to must, alcoholic fermentation, malolactic fermentation, sulfur dioxide addition, and wine aging and the interactions between amines and their corresponding amino acids and pH were statistically evaluated in samples from the same batches throughout the elaboration process. Some amines can be produced in the grape or the musts (e.g., putrescine, cadaverine, and phenylethylamine) or can be formed by yeast during alcoholic fermentation (e.g., ethylamine and phenylethylamine), although quantitatively only very low concentrations are reached in these stages (less than 3 mg/liter). Malolactic fermentation was the main mechanism of biogenic amine formation, especially of histamine, tyramine, and putrescine. During this stage, the increase in these amines was accompanied by a significant decline in their amino acid precursors. Significant correlations between biogenic amine formation and the disappearance of their corresponding amino acids were observed, which clearly supports the hypothesis that malolactic bacteria are responsible for accumulation of these amines in wines. No increase in the concentration of biogenic amines was observed after SO2 addition and during wine aging, indicating that sulfur dioxide prevents amine formation in subsequent stages.     

Biogenic amines and ethyl carbamate in primitivo wine: survey of their concentrations in commercial products and relationship with the use of malolactic starter

This research was conducted to determine the biogenic amine (BA) and ethyl carbamate (EC) concentrations in commercial Primitivo wine samples and the influence of the use of malolactic starter culture on concentrations of these potentially hazardous compounds in this wine. One hundred sixty bottles of wine from eight producers in the Apulia region of southern Italy were purchased at retail and analyzed. The most common BAs were histamine, 2-phenylethylamine, tyramine, cadaverine, putrescine, spermine, and spermidine. Putrescine (derived from ornithine) was the most abundant BA in all commercial Primitivo wines (5.41 to 9.51 mg/liter), 2-phenylethylamine was detected in only two commercial wines (at less than 2.12 mg/liter), and histamine was found at concentrations of 1.49 to 16.34 mg/liter. The concentration of EC in commercial Primitivo wine was 6.81 to 15.62 ppb, which is not considered dangerous for human health. Malolactic fermentation (MLF) affected the concentrations of BAs and EC differently. For EC, no significant differences were detected between samples of wine produced by spontaneous fermentation and wine that was inoculated malolactic starter. Mean EC concentrations were 12 and 14 ppb in two batches tested (always 18 ppb or less), regardless of whether the malolactic starter was added. Although present at trace levels in wine before the MLF, histamine accumulated during the MLF process, regardless of whether the malolactic starter was added. However, the increase in histamine was higher in wines without the malolactic starter. The concentrations of putrescine and cadaverine increased after MLF, especially in the wine that spontaneously fermented. The use of a selected malolactic starter resulted in reductions in BA concentrations in wine produced by this guided MLF compared with wine produced by spontaneous MLF.     

Method development and cultivar-related differences of nine biogenic amines in Ontario wines

We have developed a new high-performance liquid chromatographic method using pre-column derivatization with orthophthalaldehyde, gradient elution and fluorescence detection to assay the concentrations of nine biogenic amines in wines: histamine, 1-methylhistamine, methylamine, ethylamine, tyramine, tryptamine, 2-phenylethylamine, putrescine and cadaverine. The method shows excellent analytical characteristics. It has been used to measure the concentration of these biogenic amines in 73 monovarietal wines from five red and six white cultivars. All wines were from the Niagara viticultural region of southern Ontario and were certified as to origin. Pinot noir wines had the highest content of total amines, and also of histamine, putrescine, cadaverine, ethylamine and 1-methylhistamine. Among the white wines, those from Chardonnay had the highest content of total amines and also of histamine, tyramine, methylamine and 1-methylhistamine. It is suggested that longer ageing as well as Sur-lie fermentation (Chardonnay) can account, at least in part, for these findings.     

Irradiation Effects on Biogenic Amines in Korean Fermented Soybean Paste During Fermentation

ABSTRACT: Irradiation effects on biogenic amines (BAs) and microbiological populations of Korean fermented soybean paste were investigated during fermentation. Soybean paste was prepared and irradiated with doses of 5,10, and 15 kGy, and then fermented at 25 °C for 12 wk. Bacillus spp. and lactic‐acid bacteria decreased by irradiation but increased during fermentation. Biogenic amines detected were putrescine, cadaverine, β‐phenylethylamine, spermidine, spermine, tryptamine, histamine, tyramine, and agmatine. A significant difference was not observed in BA content between control and irradiated samples immediately after gamma irradiation. However, 4 kinds of BAs, putrescine, tryptamine, spermidine, and histamine, showed significant reduction by irradiation during fermentation (P < 0.05).     

Chemometric Analysis for the Detection of Biogenic Amines in Chilean Cabernet Sauvignon Wines: A Comparative Study between Organic and Nonorganic Production

In this work, the presence of biogenic amines (BAs) was correlated with the type of wine grape culture (traditional or organic) and their concentration in the different stages of winemaking (must, alcoholic fermentation [AF] and malolactic fermentation [MLF]). The formation of BA occurred mainly during MLF in which the percentages for putrescine, cadaverine, phenylethylamine, histamine, and tyramine were 100%, 70%, 13%, 61%, and 44% for the wines produced with traditional grapes and 100%, 94%, 25%, 88%, and 13% for the wines produced with organic grapes, respectively. In general, these latter wines exhibited a lower concentration of total amines. The principal component analysis and partial least-square discriminate analysis indicated that the generation of BA has a certain behavioral pattern in the wines analyzed, which is associated with the different stages of wine production and with the type of culture (traditional or organic) used in the wine grapes. Practical Application: Chemometrics tools can be useful as a method of characterization and classification in a global overview of the process variables involved in the development of toxic chemicals in foods, such as the production of BA in wine.     

Biogenic amine production by Oenococcus oeni during malolactic fermentation of wines obtained using different strains of Saccharomyces cerevisiae

Twenty-six wild Oenococcus oeni strains were investigated for their ability to form biogenic amines during malolactic fermentation in synthetic medium and in wine. Eight strains produced histamine and tyramine in screening broth at concentrations of 2.6-5.6 mg/L and 1.2-5.3 mg/L, respectively. Based on their ability to form biogenic amines, five strains were selected to inoculate three wines obtained by the fermentation of three different Saccharomyces cerevisiae strains (A, B, and C). All bacterial strains could perform malolactic fermentation for short periods in wine C, whereas only one strain performed complete malolactic fermentation in wines A and B. Two O. oeni strains (261 and 351) produced histamine and tyramine in wine C. Time-course analysis of these compounds showed that for both strains, histamine and tyramine production began at day 10 and finished on day 25, after the end of malolactic fermentation. These results indicate that the ability of O. oeni to produce histamine and tyramine is dependent on the bacterial strain and on the wine composition, which in turn depends on the yeast strain used for fermentation, and on the length of bacteria-yeast contact time after the completion of malolactic fermentation.     

利用高效液相色谱法测定不同发酵时长郫县豆瓣酱中的8种生物胺

本研究基于高效液相色谱(HPLC)技术,测定了不同发酵时长(1~96个月)郫县豆瓣酱中色胺、β-苯乙胺、腐胺、尸胺、组胺、酪胺、亚精胺和精胺8种生物胺的含量。结果显示,HPLC分析中,8种生物胺的检出限在0.17~0.35 mg/L之间,定量限在0.55~0.92 mg/L之间,各生物胺标品在1~60 mg/L的质量浓度范围内线性关系良好,可被准确定量;各生物胺回收率在73.10%~104.13%之间,说明本方法具有较高的重复性和灵敏度。腐胺、尸胺、酪胺和组胺是郫县豆瓣酱中的主要生物胺;随着发酵时间的延长,腐胺含量快速上升,尸胺含量在发酵前54个月迅速上升,之后明显下降,酪胺和组胺在发酵54个月后含量有所增加;其他生物胺含量较低,且发酵期间变化不明显;郫县豆瓣酱中总生物胺含量随发酵时间的延长不断积累,从(37.86±6.69) mg/kg增加到(155.09±8.53) mg/kg,其含量在发酵前54个月快速上升,之后趋于稳定。目前食品中的多数生物胺尚没有限量标准,但参考现有的毒理学数据来看,本研究中郫县豆瓣酱的生物胺含量水平相对安全。     

龙眼干白葡萄酒发酵过程中生物胺和氨基酸含量的变化

本研究利用高效液相色谱技术分析了龙眼干白葡萄酒酒精发酵和苹乳发酵过程中8种生物胺和22种氨基酸含量的变化。结果表明,在酒精发酵过程中8种生物胺含量均很低,而在苹乳发酵过程中迅速增加。发酵结束时干白葡萄酒中亚精胺和乙醇胺含量最高,其次为组胺和羟色胺。这4种生物胺的前体氨基酸在苹乳发酵阶段含量没有明显变化,而其它大部分氨基酸在酒精发酵过程中含量下降,在苹乳发酵过程中含量呈现不同程度升高。因此,我们认为：葡萄酒发酵过程中氨基酸含量变化与其对应生物胺的变化之间没有相关性,葡萄酒中生物胺的组成比例可能主要取决于乳酸菌中氨基酸脱羧酶的种类和活性。