scholarly journals Anti-S. aureus and anti-List. monocytogenes molecules produced by cheese-isolated lactic acid bacteria

2014 ◽  
Vol 32 (No. 1) ◽  
pp. 54-60 ◽  
Author(s):  
C. Lamberti ◽  
F. Genovese ◽  
J.D. Coisson ◽  
G. Lobianco ◽  
L. Cocolin ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Food Packaging ◽  
Lactic Acid Production ◽  
Logarithmic Phase ◽  
Food Matrix ◽  
Nisin Z ◽  
Enterocin A ◽  
And Staphylococcus Aureus ◽  
Very High

Nine lactic acid bacteria from artisanal-made cheeses were investigated for their ability to inhibit Listeria monocytogenes and Staphylococcus aureus. Both extracellular and surface-bound bacteriocins were recovered. While Lb. plantarum molecule was present only extracellularly, all the other strains displayed interference in both compartments. Maximum bacteriocin production was observed at the end-logarithmic phase, with the exception of Lb. plantarum (late stationary) and L. lactis subsp. cremoris (very early exponential). Lactobacillus and Lactococcus strains inhibited both List. monocytogenes and S. aureus. On the contrary, both E. faecium strains were active only on List. monocytogenes, and the enterocin A amount was enhanced under oxygen stress. All L. lactis strains (including L. lactis subsp. cremoris EL3 generally producing nisin Z) biosynthesised nisin A, while Lb. plantarum caused interference because of its very high lactic acid production. All these results suggest that artisanal-made cheeses can contain promising strains for food biosafety: these strains can be employed in toto directly in the food matrix or the purified bacteriocins can be incorporated into food packaging.  

scholarly journals Application of Postbiotics Produced By Lactic Acid Bacteria in the Development of Active Food Packaging

2021 ◽  
Vol 12 (5) ◽  
pp. 6164-6183
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Health Effects ◽  
Food Industry ◽  
Food Packaging ◽  
Probiotic Bacteria ◽  
Food Spoilage ◽  
Food Matrix ◽  
New Approach ◽  
Active Food Packaging

The use of postbiotics in the food industry is a common way to prevent food spoilage. Postbiotics are metabolites produced by probiotic bacteria that have many health effects. Non-toxicity and safety of postbiotics and their ability to inhibit microorganisms that cause food spoilage are the most important features of postbiotics in the use of these compounds in the food industry. In studies on postbiotics in the food industry, the use of these compounds as a way to control microbial spoilage of substances may interfere with the function (factors in the food matrix) in the function of postbiotics. Therefore, the use of postbiotics in the form of food packaging can be more effective. Therefore, due to their unique properties, postbiotics have received much attention in the food industry and can be used as a new approach in food packaging.

scholarly journals Antimicrobial Potential of Food Lactic Acid Bacteria: Bioactive Peptide Decrypting from Caseins and Bacteriocin Production

2020 ◽  
Vol 9 (1) ◽  
pp. 65
Author(s):  
Stefano Nebbia ◽  
Cristina Lamberti ◽  
Giuliana Lo Bianco ◽  
Simona Cirrincione ◽  
Valerie Laroute ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Lactococcus Lactis ◽  
Lactic Acid Production ◽  
Lactobacillus Rhamnosus ◽  
Multidrug Resistant ◽  
Lactobacillus Helveticus ◽  
Bioactive Molecules ◽  
Antimicrobial Potential ◽  
Nisin Z

Lactic acid bacteria (LAB) potential in the food industry and in the biotechnological sector is a well-established interest. LAB potential in counteracting especially food-borne infections has received growing attention, but despite being a road full of promises is yet poorly explored. Furthermore, the ability of LAB to produce antimicrobial compounds, both by ribosomal synthesis and by decrypting them from proteins, is of high value when considering the growing impact of multidrug resistant strains. The antimicrobial potential of 14 food-derived lactic acid bacteria strains has been investigated in this study. Among them, four strains were able to counteract Listeria monocytogenes growth: Lactococcus lactis SN12 and L. lactis SN17 by high lactic acid production, whereas L. lactis 41FLL3 and Lactobacillus sakei I151 by Nisin Z and Sakacin P production, respectively. Strains Lactococcus lactis MG1363, Lactobacillus rhamnosus 17D10 and Lactobacillus helveticus 4D5 were tested and selected for their potential attitude to hydrolyze caseins. All the strains were able to release bioactive peptides with already known antimicrobial, antihypertensive and opioid activities. These features render these strains or their bioactive molecules suitable for use in food as biocontrol agents, or as nutraceutical supplements to treat mild disorders such as moderate hypertension and children insomnia. These results highlight once again that LAB potential in ensuring food safety, food nutraceutical value and ultimately in favoring human health is still underexplored and underexploited.

Incidence of Listeria monocytogenes in Silage and Its Subsequent Control by Specific and Nonspecific Antagonism

1990 ◽  
Vol 53 (8) ◽  
pp. 642-647 ◽  
Author(s):  
CURTT M. PERRY ◽  
CATHERINE W. DONNELLY
Keyword(s):  
Lactic Acid ◽  
Listeria Monocytogenes ◽  
Lactic Acid Bacteria ◽  
Acid Production ◽  
Lactic Acid Production ◽  
Dairy Farms ◽  
Listeria Innocua ◽  
Listeria Species

Silage samples representing approximately 10% of Vermont's dairy farms were tested for the presence of Listeria species. Listeria innocua was isolated from 15.3% of the silage samples, while Listeria monocytogenes was isolated from 2.9% of the examined samples. As silage pH increased, the incidence of Listeria increased concomitantly. Seventy-eight mesophilic lactic acid bacteria, indigenous to silage, were screened for specific and nonspecific antagonism against four L. monocytogenes indicator strains. Most of the silage isolates demonstrated nonspecific inhibition via lactic acid production against the L. monocytogenes indicator strains. None of the indigenous silage isolates tested in this survey demonstrated specific antagonism via production of bacteriocinogenic compounds.

Biotechnological advances in lactic acid production by lactic acid bacteria: lignocellulose as novel substrate

2018 ◽  
Vol 12 (2) ◽  
pp. 290-303 ◽  
Author(s):  
Enrique Cubas-Cano ◽  
Cristina González-Fernández ◽  
Mercedes Ballesteros ◽  
Elia Tomás-Pejó
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Acid Production ◽  
Lactic Acid Production

CONTROL OF CLOSTRIDIUM BOTULINUM AND STAPHYLOCOCCUS AUREUS IN SEMI-PRESERVED MEAT PRODUCTS

1972 ◽  
Vol 35 (9) ◽  
pp. 514-523 ◽  
Author(s):  
Han's Riemann ◽  
W. H. Lee ◽  
C. Genigeorgis
Keyword(s):  
Staphylococcus Aureus ◽  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Clostridium Botulinum ◽  
Meat Product ◽  
Meat Products ◽  
Rapid Decline ◽  
Ph Values ◽  
And Staphylococcus Aureus ◽  
Brine Concentration

Clostridium botulinum and Staphylococcus aureus are naturally occurring contaminants in semi-preserved meat products. They can be inhibited by (a) storage below 3 C, (b) 10% sodium chloride (brine concentration), (c) pH values below 4.5, or (d) proper combinations of these factors. However, most meat products do not have the pH values and brine concentrations required to completely inhibit C. botulinum and S. aureus and there is always a risk of temperature abuse. Improved safety can be achieved by adding 1% or more glucose to the product. The glucose will, in the event of temperature abuse, generally be fermented to lactic acid by the indigenous microflora in the product. As a result, the pH value drops to a level at which the brine concentration is sufficient to inhibit C. botulinum and S. aureus. A better approach to safety is to add, together with glucose, a radiation-killed preparation of lactic acid bacteria, e.g., Pediococcus cerevisiae. Such preparations cause a rapid decline in pH only when the product is exposed to a high temperature, and they are stable during storage of meat products. Addition of irradiated lactic acid bacteria to meat products has not yet been officially approved. Another way to improve the safety of semi-preserved meat is to add sufficient glucono-delta-lactone to reduce the initial pH of the product to a level at which the salt concentration is inhibitory. Use of larger amounts of glucono-delta-lactone may result in flavor and color problems even when the meat product is kept at refrigeration temperatures.

Lactic acid bacteria in dairy food: Surface characterization and interactions with food matrix components

2014 ◽  
Vol 213 ◽  
pp. 21-35 ◽  
Author(s):  
J. Burgain ◽  
J. Scher ◽  
G. Francius ◽  
F. Borges ◽  
M. Corgneau ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Surface Characterization ◽  
Food Matrix ◽  
Dairy Food ◽  
Matrix Components

The Effects of Cultivating Lactic Starter Cultures with Bacteriocin-Producing Lactic Acid Bacteria

2001 ◽  
Vol 64 (1) ◽  
pp. 81-86 ◽  
Author(s):  
A. OUMER ◽  
S. GARDE ◽  
P. GAYA ◽  
M. MEDINA ◽  
M. NUÑEZ
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Starter Culture ◽  
Starter Cultures ◽  
The Other ◽  
Aminopeptidase Activity ◽  
Adjunct Cultures ◽  
Nisin Z ◽  
Bacteriocin Producer ◽  
Test Organisms

The effects of bacteriocins produced by six strains of lactic acid bacteria on 9 mesophilic and 11 thermophilic commercial starter cultures were investigated in mixed cultures of commercial starters with bacteriocin-producing strains in milk. The bacteriocins produced by the test organisms were nisin A, nisin Z, lacticin 481, enterocin AS-48, a novel enterocin, and a novel plantaricin. Mesophilic commercial starters were in most cases tolerant of bacteriocins, with only two of the starters being partially inhibited, one by four and the other by two bacteriocins. The aminopeptidase activities of mesophilic starters were generally low, and only one of the combinations of mesophilic starter–bacteriocin producer gave double the aminopeptidase activity of the starter culture without the bacteriocin producer. Thermophilic commercial starters were more sensitive to bacteriocins than mesophilic starters, with six thermophilic starters being partially inhibited by at least one of the bacteriocins. Their aminopeptidase activities were generally higher than those of the mesophilic starters. The aminopeptidase activities of seven thermophilic starters were increased in the presence of bacteriocins, by factors of up to 9.0 as compared with the corresponding starter cultures alone. Bacteriocin-producing strains may be used as adjunct cultures to mesophilic starters for the inhibition of pathogens in soft and semihard cheeses, because mesophilic starters are rather tolerant of bacteriocins. Bacteriocin producers may also be used as adjunct cultures to thermophilic starters of high aminopeptidase activity, more sensitive to lysis by bacteriocins than mesophilic starters, for the acceleration of ripening in semihard and hard cheeses.

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