处理发酵剂对促熟干酪中生物胺和游离氨基酸的影响

以0、30、60、90 d促熟干酪中生物胺（组胺、色胺、苯乙胺、尸胺、酪胺）和游离氨基酸含量为指标,研究了添加复合处理发酵剂对干酪产生游离氨基酸和生物胺量的影响。结果表明：不同处理发酵剂添加量对各种生物胺产生的影响不同;添加处理发酵剂干酪中生物胺和游离氨基酸含量增加,其含量随着复合处理发酵剂添加量增加而增加。     

牦牛乳硬质干酪成熟过程中生物胺与细菌群落结构分析

成熟干酪易产生生物胺,生物胺对人体健康具有影响,因此,为了探究牦牛乳硬质干酪的质量安全性,本实验利用高效液相色谱和高通量测序技术对干酪成熟过程中生物胺和细菌群落结构进行测定和分析。结果表明：牦牛乳硬质干酪中主要生物胺为腐胺、2-苯乙胺、酪胺、组胺和尸胺,在1～6 个月成熟过程中,干酪中各生物胺含量呈现增加趋势。干酪中生物胺含量最高阶段均出现在成熟期5～6 个月。干酪中组胺、酪胺和总生物胺含量分别低于推荐安全剂量50、100 mg/kg和1 000 mg/kg。干酪中游离氨基酸含量与除组胺之外的各生物胺含量、总生物胺含量、成熟时间之间具有显著正相关性（P＜0.01,P＜0.05）,各生物胺含量之间也存在正相关性。不同成熟期干酪包含相同属的微生物,其中链球菌属（Streptococcus）为优势菌属,平均相对丰度为84.63%,明串珠菌属（Leuconostoc）次之,平均相对丰度为6.91%,其他分别为乳杆菌属（Lactobacillus）、拉乌尔菌属（Raoultella）、不动杆菌属（Acinetobacter）、假单胞菌属（Pseudomonas）、肠杆菌属（Enterobacter）和无分类的肠杆菌科（unclassified_Eunnterobacteriaceae）。不同成熟期干酪中各菌属的相对丰度具有差异。本研究可为评估牦牛乳硬质干酪的质量安全性和生物胺形成机理提供理论依据。     

Effects of heating milk and accelerating ripening of low fat Ras cheese on biogenic amines and free amino acids development

Two experiments were conducted to study the effects of heating milk and, consequently, incorporation of whey proteins into cheese curd, fat content, accelerating cheese ripening by attenuated lactobacilli, species of bacteria and method of attenuation on formation of biogenic amines and liberation of free amino acids. Total biogenic amines and total free amino acids increased as ripening period progressed in all cheese treatments. Total biogenic amines and total free amino acids decreased as the fat content was decreased. Heating of 3% fat milk up to 70°C caused a significant (p<0.05) increase in total biogenic amines and total free amino acid concentrations, while raising the temperature of heat treatment up to 75 and 80°C decreased them. However, heating of 2% fat milk up to 75°C caused a definite (p<0.05) increase in total biogenic arnines and total free amino acids; conversely raising heat treatment temperature to 80°C decreased them. These results indicate that there is a positive correlation between total biogenic amines and total free amino acids; moisture and salt contents affected the formation of biogenic amines, while incorporation of whey proteins had no significant effect on biogenic amines development. In a second experiment, addition of attenuated lactobacilli as adjunct bacteria caused a pronounced (p<0.05) increase in free amino acids and biogenic amines. Addition of either freeze- or heat-shocked Lactobacillus helviticus was more effective in promoting the build-up of biogenic amines and free amino acids in the resultant cheeses than in cheeses made with addition of freeze- or heat-shocked Lactobacillus casei, respectively. There was a positive correlation between free amino acids and biogenic amine contents. The type of bacteria and prolongation of ripening period significantly affected the development of biogenic amines. Tyramine was the highest biogenic amine followed by histamine, while spermidine was the lowest.     

Biogenic amine content during the manufacture of dry-cured lacón, a Spanish traditional meat product: Effect of some additives

The content of nine biogenic amines (agmatine, tryptamine, 2-phenylethylamine, putrescine, cadaverine, histamine, tyramine, spermidine and spermine) was determined throughout the manufacture of dry-cured lacón, a traditional dry-salted and ripened meat product made in the north-west of Spain from the fore leg of the pig following a similar process to that of dry-cured ham. The effect of the use of additives (glucose, sodium nitrite, sodium nitrate, sodium ascorbate and sodium citrate) on the biogenic amine content during manufacture was also studied. Tryptamine and spermine were the main biogenic amines in fresh meat, while tryptamine and cadaverine were the most abundant at the end of the manufacturing process. During ripening the total amine content increased significantly (P<0.05) in the batches made both without and with additives. The use of additives significantly (P<0.05) increased the total amine content and the content of tryptamine, tyramine and histamine. The total biogenic amine content at the end of the manufacturing process was low as expected for a product in which there is little active microbial metabolism during manufacture.     

Effect of processing on amine formation and the lipid profile of cod (Gadus morhua) roe

The processing of fish roe leads to changes in its chemical composition, the extent of which depends on the techniques and additives employed. This study aimed to investigate the effects of ripening temperature and the use of sodium benzoate and citric acid on the quality of ripened cod roe, with respect to the contents of volatile base nitrogen (VBN), trimethylamine (TMA), biogenic amines (BA) and on the lipid composition. In comparison with fresh roes, ripened roes presented higher contents of VBN, TMA, BA and the proportion of free fatty acids regardless of the temperature and additives used during the ripening process. The greatest increases were observed in the samples ripened at 17 °C without additives, in which histamine was detected at 8.8 mg/100 g. A low ripening temperature was the main factor responsible for minimising changes in the cod roe composition. The addition of sodium benzoate as a preservative or citric acid to decrease the pH value had a significant effect in maintaining the quality of the cod roes, mainly at high ripening temperature.     

Detection of biogenic amine producer bacteria in a typical Italian goat cheese

The aim of this study was to research decarboxylating bacterial strains and biogenic amine content in a typical Italian goat cheese (Robiola di Roccaverano). The study was performed on fresh and ripened samples of goat cheese manufactured from industrial and artisanal producers. Sixty-seven bacterial strains isolated showed decarboxylating activity, and Enterococcus faecalis was the most widespread decarboxylating species in all artisanal and industrial products. Pediococcus acidilactici and Enterococcus malodoratus were also identified as biogenic amine producers in Robiola di Roccaverano cheese. All the E. faecalis strains isolated in this study were able to decarboxylate tyrosine. Tyramine was the most abundant biogenic amine in cheese samples, while histamine was the most widespread. High amounts of these two biogenic amines were found in ripened samples (up to 2,067 mg/kg for tyramine and 1,786 mg/kg for histamine), whereas 2-phenylethylamine and tryptamine were present in almost all ripened cheeses at low concentrations. The detection of strains producing biogenic amines and the high concentrations of tyramine and histamine found in ripened Robiola di Roccaverano could represent a potential risk to the consumer.     

Changes in free amino acids and biogenic amines of Egyptian salted-fermented fish (Feseekh) during ripening and storage

The aim of this study was to investigate changes in the formation of amino acids and biogenic amines in Egyptian salted-fermented fish (Feseekh) during ripening (20 days) and storage (40–60 days). The total concentration of free amino acids increased from 8 (dry weight; DW) to 72 g/kg (DW) after 60 days of storage. The predominant free amino acids were leucine, glutamic acid, lysine, alanine, valine, aspartic acid, isoleucine and citrulline. Their concentrations accounted for 68% of the total concentration of amino acids after 60 days. The total contents of biogenic amines ranged from 84 to 1633 mg/kg (DW) during the investigated period. Cadaverine was the major amine detected in Feseekh at all sampling stages and its concentration varied between 21 and 997 mg/kg (DW). The histamine content (211 mg/kg DW) only exceeded the maximum tolerance level (200 mg/kg) after 60 days. It could be concluded that Feseekh can be consumed without any health risks between 20 and 40 days but it can be hazardous after 60 days due to the biogenic amine content.     

Interrelationships among microbiological, physicochemical, and biochemical properties of Terrincho cheese, with emphasis on biogenic amines

Changes in the microbiological, physicochemical, and biochemical characteristics of Terrincho cheese as represented by native microflora, pH, water activity, soluble nitrogen fractions, free amino acids, and biogenic amines (e.g., ethylamine, dimethylamine, tryptamine, phenylethylamine, putrescine, cadaverine, histamine, tyramine, cystamine, and spermine) during ripening were monitored. Terrincho is a traditional Portuguese cheese manufactured from raw ewe's milk. The main groups of microorganisms (lactococci, lactobacilli, enterococci, pseudomonads, staphylococci, coliforms, yeasts, and molds) were determined following conventional microbiological procedures. Free amino acids and biogenic amines were determined by reverse-phase high-performance liquid chromatography, following extraction from the cheese matrix and derivatization with dabsyl chloride. The total content of free amino acids ranged from 1,730 mg/kg of dry matter at the beginning of the ripening stage to 5,180 mg/kg of dry matter by day 60 of ripening; such an increase was highly correlated with the increase of water-soluble nitrogen in total nitrogen, 12% trichloroacetic acid-soluble nitrogen in total nitrogen, and 5% phosphotungstic acid-soluble nitrogen in total nitrogen throughout ripening. Histamine was consistently present at very low levels, whereas putrescine, cadaverine, and tryptamine were the dominant biogenic amines and increased in concentration during ripening. Ethylamine, tryptamine, phenylethylamine, and cystamine reached maxima by 30 days of ripening and decreased thereafter. Significant correlations between amino acid precursors and corresponding biogenic amines, as well as between biogenic amines and microbial viable numbers, were observed.     

Effect of delayed gutting on biogenic amine contents during ripening of European anchovies

The effect of delayed gutting on biogenic amine formation during ripening of European anchovies (Engraulis encrasicholus) was studied. The main difference between the two processes was the use of gutted or ungutted fish in the first step of ripening. Biogenic amines and microbial counts were studied in seven batches of samples taken during manufacturing from fresh anchovies and from anchovies throughout ripening. The formation of amines commonly related to fish spoilage (histamine, tyramine, cadaverine, putrescine and agmatine) was significantly higher in the first step of ripening of batches in ungutted fish. In contrast, no differences were observed between the content of the natural polyamines spermine and spermidine.     

BIOGENIC AMINES FORMATION IN SARDINE MARINADE DURING REFRIGERATED STORAGE

Biogenic amines (tyramine, putrescine, cadaverine, histamine, spermidine, spermine) in sardine marinade were investigated. Sardine were beheaded, gutted, filleted, washed and marinated by immersing the fish into solutions containing 2 and 4% acetic acid and 10% NaCl for 24 h. Biogenic amine content, sensory scores and pH values of marinated sardine were recorded during the storage at 4C for up to 5 months. Biogenic amine content in marinated sardine was higher than in raw material. There were significant (P<0.05) differences in biogenic amine content between acetic acid concentrations of 2% and 4% just after marinating. Initial values of biogenic amines in marinade with 4% acetic acid were significantly (P<0.05) lower than those in marinade with 2% acetic acid. The contents of tyramine***, putrescine and histamine in sardine marinade decreased in the first 2–3 months of storage, followed by continuous increase up to 5 months of the storage. After decrease in the first month, cadaverine level did not significantly change. According to results, the marination process influences biogenic amine accumulation.     

Volatile and Nonvolatile Amines in Mediterranean Hake as Function of their Storage Temperature

ABSTRACT: The main amines in frozen and fresh hake (Merluccius merluccius) are the natural polyamines, spermidine. The levels of volatile and nonvolatile amines during storage of hake were strogly dependent on temperature. In samples stored at -20° only changes in dimethylamine and agmatine were found, whereas major changes were observed in samples stored at higher temperatures. Cadaverine was the major amine formed followed by histamine, putrescine and tyramine. The maximum levels of biogenic amines were lower than those reported for other fish species. Trimethylamine and biogenic amines related to hake spollage showed levels higher in fresh than in frozen samples, whereas levels of natural polyamines were not statistically different.     

Effect of temperature on evolution of free amino acid and biogenic amine contents during storage of Azeitão cheese

A study on the evolution of free amino acids and biogenic amines in Azeitão cheese during 4 weeks at different temperatures of storage (4 and 25°C) was performed. Free amino acids and biogenic amines were determined by RP-HPLC with visible detection, following extraction from the cheese and derivatization with dabsyl chloride. The method presented a linear relation between peak area and concentration from 2–200 mg/l. The detection limit value was less than 1.5 mg/l. The average repeatability was less than 4%. The major free amino acids were proline, valine, isoleucine and leucine and the major amines were tyramine, cadaverine and histamine. Room temperature (25°C) promoted a significant increase of the contents of valine, leucine, tyramine and putrescine, expressed as g/kg of dry matter. These two free amino acids and two biogenic amines may serve as indicators of temperatures changes in ripened cheese.     

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.     

Prerigor infusion of lamb with sodium chloride, phosphate, and dextrose solutions to improve tenderness

Various fermented and seasoned foods such as cheese, sauerkraut, wine, beer and meat products may contain biogenic amines. The aim of this paper was to describe the presence of some biogenic amines (histamine, tyramine, tryptamine, 2-phenylethylamine) in "Salamini italiani alla cacciatora PDO", a typical fermented-ripened dry sausage widely consumed in Italy. Total level of biogenic amines in commercial samples ranged from 71 to 586 mg kg(-1). The amine recovered in higher concentrations was tyramine (372 mg kg(-1)) followed by histamine (165 mg kg(-1)). The second aim of this work was the quality control of the production in order to determine the parameters influencing the presence of biogenic amines in ripened salami. Sausages sampled for analysis during production, manipulation and ripening showed the presence of tyramine (64.4 mg kg(-1)) only after 15 days of fermentation. All investigated biogenic amines were detected in "Salamini" after 21 days of fermentation. We suggest the control of biogenic as important tool to establish the better condition of preservation of "Salamini italiani alla cacciatore PDO" during their shelf-life.     

Production of Biogenic Amines and Their Potential Use as Quality Control Indices for Hake (Merluccius merluccius, L.) Stored in Ice

ABSTRACT: The production of tyramine, histamine, putrescine, cadaverine, agmatine, and spermidine was studied for use as quality indices in muscle of gutted hake stored in ice for 25 d. The changes in biogenic amine concentrations were correlated with trimethylamine nitrogen levels. All concentrations except for spermidine, increased progressively throughout storage. During storage, cadaverine reached 72.14 mg/kg while there were no significant increases in histamine and tyramine. The levels of free amino acids, which may be metabolized into biogenic amines, were not correlated to respective biogenic amines levels. The production of cadaverine and agmatine occurred prior to spoilage and these biogenic amines may indicate freshness of hake stored in ice.     

ANALYSIS OF BIOGENIC AMINES AND THEIR PRECURSOR FREE AMINO ACIDS IN MAHI-MAHI (CORYPHAENA HIPPURUS)

Fish is a rich source of free amino acids, and provides a good medium for microbial growth. Deterioration offish quality is often determined by chemical indicators of microbial activity such as biogenic amines. This study investigated the possible correlations between the levels of biogenic amines and their precursor free amino acids. Two groups of mahi‐mahi fillets were stored at 7C and sampled on days 0, 2, 4, 6, 8 and 10 for amino adds and biogenic amines. One group was dipped in an inoculum of Morganella morganii (10⁵ CFU/mL) while the other group was not inoculated. Except for histamine, levels of the analytes were similar in both groups of fish. Histamine and putrescine poorly correlated with histidine (r = ‐0.42) and ornithine (r = ‐0.27), respectively. Cadaverine correlated with lysine (r = 0.61), histamine (0.78), and putrescine (r = 0.85), and reached 3 mg/100 g on day 3. Cadaverine can serve as a good indicator of incipient and late spoilage in chilled mahi‐mahi.     

Microbiological Properties and Biogenic Amines of Whole Pike‐Perch (Sander Lucioperca,Linnaeus 1758): A Perspective on Fish Safety During Postharvest Handling Practices and Frozen Storage

Abstract: The biogenic amines (tyramine, histamine, cadaverine, and puterscine) and microbiological properties (mesophilic, psychrotrophic, and Pseudomonas spp.) of whole pike‐perch (Sander lucioperca) was investigated during 2 d prestorage icing and 90 d frozen storage (−24 °C). At the end of ice storage, a noticeable increase only was found for puterscine level (P < 0.05), and microbial loads of fish increased in comparison with fresh fish (P < 0.05). During the frozen storage, as time passed, a continuous increase of biogenic amines and decrease of bacterial load (except for Pseudomonas spp. at the last 30 d) was detected (P < 0.05). The total contents of biogenic amines ranged from 6.24 to 91.76 μg/g during the investigated period. Puterscine was the major amine detected in pike‐perch and its concentration varied between 1.75 and 56.95 μg/g; due to a more step‐wise increase it was a good quality indicator. At the end of storage, all of the obtained values are below the tolerable maximum amounts based on available regulations. Based on biogenic amines content and microbial load, it could be concluded that pike‐perch can be consumed without any health risks after 2 d icing condition and 90 d frozen storage. Practical Application: Biogenic amines as one of the commonest forms of food intoxication occur in protein‐rich food such as fish. Short‐time icing during transportation is the simplest method to fish preserving for processing or long‐term storage. In this study formation of biogenic amines and bacterial changes in ungutted pike‐perch as highly demanded fish species for human consumption, during transportation and frozen storage was investigated. The results of the research can be advantageously used by fish industry. These findings suggest that the production and storage practices of fish in the retails condition could have acceptable food quality level.     

Comparison of biogenic amine profile in cheeses manufactured from fresh and stored (4 degrees C, 48 hours) raw goat's milk

In this study, the evolution of microbial counts, biogenic amine contents, and related parameters (pH, moisture, and proteolysis) in goat cheese made from fresh raw milk or raw milk stored for 48 h at 4 degrees C was examined. In both cases the milk was nonpasteurized. This study was designed to evaluate the effect of milk quality on the profile of biogenic amines in relation to the evolution of the microbial population during cheese making. Cheese made from raw milk stored for 48 h at 4 degrees C showed the highest microbial counts and biogenic amine levels. The storage of milk under refrigeration caused significant increases in the levels of some microbial and biogenic amines during ripening, but not initially. Tyramine was the main biogenic amine in the two cheeses tested, followed by cadaverine. However, the main differences in amine contents between batches were found for putrescine, histamine, and beta-phenylethylamine, whose levels were more than twofold higher in samples from raw milk refrigerated for 48 h than in samples from fresh milk.     

CHANGES IN BIOGENIC AMINE CONTENTS AND SENSORY QUALITY OF SARDINE (SARDINA PILCHARDUS) STORED AT 4C AND 20C

Biogenic amines (tyramine, putrescine, cadaverine, histamine, spermidine and spermine) in sardine during the storage at two temperatures (4C and 20C) were investigated. Changes in sensory scores were also recorded. Significant differences between storage times were found. The levels of tyramine, putrescine, cadaverine and histamine increased as decomposition of sardine progressed at both 4C and 20C. Spermidine and spermine did not change throughout storage. Putrescine was the main biogenic amine formed, followed by tyramine, cadaverine and histamine. Histamine remained lower than the toxic level of 100 mg/kg in the samples stored at 4C whereas it exceeded the toxic level after 16 h at 20C. The increase in histamine concentration was lower than tyramine and putrescine at both temperatures. Sensory scores gradually decreased during the storage.     

Contaminant lactic acid bacteria of dry sausages produce histamine and tyramine

Exogenous biogenic amines present a food poisoning hazard in fermented foods especially with additional risk factors, e.g. amine oxidase inhibiting drugs, alcohol and gastrointestinal diseases. Forty-two lactic acid bacteria (LAB) strains were isolated from seven dry sausages during ripening (0 day, 21 day and 49 day). Their ability to produce histamine and tyramine was studied by HPLC detection from broth cultures after 2 days incubation.

The tyramine and histamine concentrations in sausages increased during fermentation. 10 of 42 LAB strains produced 402–1087 ppm tyramine. Four of these 10 contaminant LABs were also histamine-positive (725–1083 ppm). Most of the amine positive strains were found in sausages at the end of ripening and with highest amine levels.

On the basis of these results the contaminant LABs play an important role in tyramine and histamine formation during the ripening of dry sausages. Therefore it could be possible to decrease the levels of amines formed by limiting the initial level and growth of these contaminant bacteria.