8 research outputs found
Control of Biogenic Amines in Fermented Sausages: Role of Starter Cultures
Biogenic amines show biological activity and exert undesirable physiological effects when absorbed at high concentrations. Biogenic amines are mainly formed by microbial decarboxylation of amino acids and thus are usually present in a wide range of foods, fermented sausages being one of the major biogenic amine sources. The use of selected starter cultures is one of the best technological measures to control aminogenesis during meat fermentation. Although with variable effectiveness, several works show the ability of some starters to render biogenic amine-free sausages. In this paper, the effect of different starter culture is reviewed and the factors determining their performance discussed
Control of biogenic amines in fermented sausages: role of starter cultures
Biogenic amines show biological activity and exert undesirable physiological effects when
absorbed at high concentrations. Biogenic amines are mainly formed by microbial decarboxylation of amino acids and thus are usually present in a wide range of foods, fermented
sausages being one of the major biogenic amine sources. The use of selected starter
cultures is one of the best technological measures to control aminogenesis during meat
fermentation. Although with variable effectiveness, several works show the ability of some
starters to render biogenic amine-free sausages. In this paper, the effect of different starter
culture is reviewed and the factors determining their performance discussed.info:eu-repo/semantics/publishedVersio
Distribution of aminogenic activity among potential autochthonous starter cultures for dry fermented sausages
Any bacterial strain to be used as starter culture should have suitable characteristics, including a lack of amino acid decarboxylase activity. In this study, the decarboxylase activity of 76 bacterial strains, including lactic acid bacteria and gram-positive, catalase-positive cocci, was investigated. These strains were previously isolated from European traditional fermented sausages to develop autochthonous starter cultures. Of all the strains tested, 48% of the lactic acid bacteria strains and 13% of gram-positive, catalase-positive cocci decarboxylated one or more amino acids. Aminogenic potential was strain dependent, although some species had a higher proportion of aminogenic strains than did others. Thus, all Lactobacillus curvatus strains and 70% of Lactobacillus brevis strains had the capacity to produce tyramine and beta-phenylethylamine. Some strains also produced other aromatic amines, such as tryptamine and the diamines putrescine and cadaverine. All the enterococcal strains tested were decarboxylase positive, producing high amounts of tyramine and considerable amounts of beta-phenylethylamine. None of the staphylococcal strains had tyrosine-decarboxylase activity, but some produced other amines. From the aminogenic point of view, Lactobacillus plantarum, Lactobacillus sakei, and Staphylococcus xylosus strains would be the most suitable for use as autochthonous starter cultures for traditional fermented sausages
Strategies to reduce biogenic amine accumulation in traditional sausage manufacturing
Different strategies in the reduction of biogenic amine accumulation during the manufacture of five
European traditional fermented sausages were studied concerning sausage formulation, the increase of
sugar in the Italian salame abruzzese reduced the accumulation of cadaverine up to 43%. However, the
addition of sugar in the French saucisson did not show a significant amine reduction. The inoculation of
a decarboxylase-negative autochthonous starter culture reduced the biogenic amine accumulation in
a different manner depending on the species and strain(s). The highest reduction was achieved by
Lactobacillus sakei used in the Greek aeros thasou, resulting in a total putrescine reduction and a significant
decrease in tyramine (62%) and histamine (71%). In Portuguese chouriços cadaverine reduction was
only of 45% when a single strain of Staphylococcus equorum was inoculated, whereas a single strain of L.
sakei or a mixture of S. equorum yielded a 75% and 89% of reduction, respectively. In Spanish fuet,
a combination of L. sakei CTC6626 plus S. xylosus CTC6013 had only a very slight effect on tyramine
reduction (19%) in Spanish fuet, whereas L. sakei CTC494 plus S. xylosus CTC6013 was capable to reduce
tyraminogenesis by nearly 50%, suggesting that L. sakei CTC494 was the strain responsible for the
additional tyramine reduction
Distribution of aminogenic activity among potential autochthonous starter cultures for dry fermented sausages
Different strategies in the reduction of biogenic amine accumulation during the manufacture of five
European traditional fermented sausages were studied concerning sausage formulation, the increase of
sugar in the Italian salame abruzzese reduced the accumulation of cadaverine up to 43%. However, the
addition of sugar in the French saucisson did not show a significant amine reduction. The inoculation of
a decarboxylase-negative autochthonous starter culture reduced the biogenic amine accumulation in
a different manner depending on the species and strain(s). The highest reduction was achieved by
Lactobacillus sakei used in the Greek aeros thasou, resulting in a total putrescine reduction and a significant
decrease in tyramine (62%) and histamine (71%). In Portuguese chouriços cadaverine reduction was
only of 45% when a single strain of Staphylococcus equorum was inoculated, whereas a single strain of L.
sakei or a mixture of S. equorum yielded a 75% and 89% of reduction, respectively. In Spanish fuet,
a combination of L. sakei CTC6626 plus S. xylosus CTC6013 had only a very slight effect on tyramine
reduction (19%) in Spanish fuet, whereas L. sakei CTC494 plus S. xylosus CTC6013 was capable to reduce
tyraminogenesis by nearly 50%, suggesting that L. sakei CTC494 was the strain responsible for the
additional tyramine reduction