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1.
Foodborne Pathog Dis ; 21(10): 601-616, 2024 Oct.
Article in English | MEDLINE | ID: mdl-39021233

ABSTRACT

Staphylococcus aureus is a well-known pathogen capable of producing enterotoxins during bacterial growth in contaminated food, and the ingestion of such preformed toxins is one of the major causes of food poisoning around the world. Nowadays 33 staphylococcal enterotoxins (SEs) and SE-like toxins have been described, but nearly 95% of confirmed foodborne outbreaks are attributed to classical enterotoxins SEA, SEB, SEC, SED, and SEE. The natural habitat of S. aureus includes the skin and mucous membranes of both humans and animals, allowing the contamination of milk, its derivatives, and the processing facilities. S. aureus is well known for the ability to form biofilms in food processing environments, which contributes to its persistence and cross-contamination in food. The biocontrol of S. aureus in foods by lactic acid bacteria (LAB) and their bacteriocins has been studied for many years. Recently, LAB and their metabolites have also been explored for controlling S. aureus biofilms. LAB are used in fermented foods since in ancient times and nowadays characterized strains (or their purified bacteriocin) can be intentionally added to prolong food shelf-life and to control the growth of potentially pathogenic bacteria. Regarding the use of these microorganism and their metabolites (such as organic acids and bacteriocins) to prevent biofilm development or for biofilm removal, it is possible to conclude that a complex network behind the antagonistic activity remains poorly understood at the molecular level. The use of approaches that allow the characterization of these interactions is necessary to enhance our understanding of the mechanisms that govern the inhibitory activity of LAB against S. aureus biofilms in food processing environments.


Subject(s)
Biofilms , Enterotoxins , Food Microbiology , Staphylococcus aureus , Staphylococcus aureus/physiology , Enterotoxins/metabolism , Humans , Animals , Lactobacillales/physiology , Lactobacillales/metabolism , Dairying , Bacteriocins/metabolism , Food Contamination/prevention & control , Milk/microbiology
2.
Lett Appl Microbiol ; 77(2)2024 Feb 01.
Article in English | MEDLINE | ID: mdl-38285611

ABSTRACT

Antimicrobial susceptibility tests (AST) conducted in vitro offer a range of methods to assess the antimicrobial resistance (AMR) of microorganisms. Escherichia coli, a widely distributed bacterium, is closely linked to the issue of AMR. In this way, the present study aimed to assess the agreement among different in vitro AST methods, including disk diffusion in agar, broth dilution, and agar dilution method. A total of 100 E. coli isolates were analyzed for their resistance levels against six antibiotics: amoxicillin, ceftiofur, ciprofloxacin, chloramphenicol, tetracycline, and sulfamethoxazole + trimethoprim, using the aforementioned AST methods. Standard breakpoint values were employed to classify isolates as resistant, intermediate, or susceptible, and comparisons among the AST methods were conducted by McNemar's test (P < .05). The obtained data demonstrated equivalence among the AST methods, highlighting the reliability of these standardized classical methodologies. This standardization aids in preventing the inappropriate use of antimicrobials and the dissemination of antimicrobial-resistant microorganisms.


Subject(s)
Anti-Bacterial Agents , Escherichia coli , Reproducibility of Results , Agar , Microbial Sensitivity Tests , Anti-Bacterial Agents/pharmacology , Trimethoprim, Sulfamethoxazole Drug Combination , Drug Resistance, Bacterial
3.
J Dairy Res ; 90(2): 186-190, 2023 May.
Article in English | MEDLINE | ID: mdl-37338058

ABSTRACT

The aim in this research paper was to investigate the effect of using calcium monophosphate (MCP) and MCP mixed with commercial phosphates salts, in total or partial replacement of calcium chloride (CaCl2) in the manufacture of Minas Frescal cheese. Initially, model cheeses were made to perform the rheological analysis during the coagulation process. Of these, the five best treatments were chosen to carry out the production of Minas Frescal cheese, used only CaCl2 and MCP, and partial replacements of MCP + polyphosphate, MCP + potassium monophosphate (MKP) and MCP. The cheeses showed no significant difference in physicochemical composition, yield and syneresis, however, the cheese with partial replacement of CaCl2 by MCP + polyphosphate and MCP + MKP showed the highest hardness values, like the control. This demonstrates that it is possible to replace calcium chloride without significant changes in the physicochemical characteristics and yield of Minas Frescal cheese, and it is still possible to modulate the hardness of the cheese produced according to the type of calcium/phosphate source used. This allows the industry to replace the source of calcium in the manufacture of Minas Frescal cheese according to the desired hardness.


Subject(s)
Cheese , Animals , Calcium Chloride , Cheese/analysis , Calcium
4.
Foods ; 11(20)2022 Oct 14.
Article in English | MEDLINE | ID: mdl-37430967

ABSTRACT

Processed cheese is a dairy product with multiple end-use applications, where emulsifying salts play a fundamental role in physicochemical changes during production. Moreover, some of these salts may be a strategy to control spoilage and pathogenic microorganisms, contributing to safety and shelf life extension. This study aimed to evaluate the in vitro inhibitory activity of two emulsifying salts (ESSP = short polyP and BSLP = long polyP) against Bacillus thuringiensis CFBP 3476 and Clostridium perfringens ATCC 13124, and to compare the in situ effects of two emulsifying salts treatments (T1 = 1.5% ESSP and T2 = 1.0% ESSP + 0.5% BSLP) in processed cheeses obtained by two different methods (laboratory- and pilot-scales), during 45-day storage at 6 °C. C. perfringens ATCC 13124 growth was not affected in vitro or in situ (p > 0.05), but both of the treatments reduced B. thuringiensis CFBP 4376 counts in the tested condition. Counts of the treatments with B. thuringiensis CFBP 3476 presented a higher and faster reduction in cheeses produced by the laboratory-scale method (1.6 log cfu/g) when compared to the pilot-scale method (1.8 log cfu/g) (p < 0.05). For the first time, the inhibitory effect of emulsifying salts in processed cheeses obtained by two different methods was confirmed, and changes promoted by laboratory-scale equipment influenced important interactions between the processed cheese matrix and emulsifying salts, resulting in B. thuringiensis CFBP 4376 growth reduction.

5.
Foods ; 12(1)2022 Dec 28.
Article in English | MEDLINE | ID: mdl-36613369

ABSTRACT

Few studies have investigated the diversity of spoilage fungi from the dairy production chain in Brazil, despite their importance as spoilage microorganisms. In the present study, 109 filamentous fungi were isolated from various spoiled dairy products and dairy production environments. The isolates were identified through sequencing of the internal transcribed spacer (ITS) region. In spoiled products, Penicillium and Cladosporium were the most frequent genera of filamentous fungi and were also present in the dairy environment, indicating that they may represent a primary source of contamination. For dairy production environments, the most frequent genera were Cladosporium, Penicillium, Aspergillus, and Nigrospora. Four species (Hypoxylon griseobrunneum, Rhinocladiella similis, Coniochaeta rosae, and Paecilomyces maximus) were identified for the first time in dairy products or in dairy production environment. Phytopathogenic genera were also detected, such as Montagnula, Clonostachys, and Riopa. One species isolated from the dairy production environment is classified as the pathogenic fungi, R. similis. Regarding the phylogeny, 14 different families were observed and most of the fungi belong to the Ascomycota phylum. The understanding of fungal biodiversity in dairy products and environment can support the development of conservation strategies to control food spoilage. This includes the suitable use of preservatives in dairy products, as well as the application of specific cleaning and sanitizing protocols designed for a specific group of target microorganisms.

6.
Probiotics Antimicrob Proteins ; 13(4): 915-925, 2021 08.
Article in English | MEDLINE | ID: mdl-33565028

ABSTRACT

Weissella strains have been the subject of much research over the last 5 years because of the genus' technological and probiotic potential. Certain strains have attracted the attention of the pharmaceutical, medical, and food industries because of their ability to produce antimicrobial exopolysaccharides (EPSs). Moreover, Weissella strains are able to keep foodborne pathogens in check because of the bacteriocins, hydrogen peroxide, and organic acids they can produce; all listed have recognized pathogen inhibitory activities. The Weissella genus has also shown potential for treating atopic dermatitis and certain cancers. W. cibaria, W. confusa, and W. paramesenteroides are particularly of note because of their probiotic potential (fermentation of prebiotic fibers) and their ability to survive in the gastrointestinal tract. It is important to note that most of the Weissella strains with these health-promoting properties have been shown to be save safe, due to the absence or the low occurrence of virulence or antibiotic-resistant genes. A large number of scientific studies continue to report on and to support the use of Weissella strains in the food and pharmaceutical industries. This review provides an overview of these studies and draws conclusions for future uses of this rich and previously unexplored genus.


Subject(s)
Probiotics , Weissella , Acids , Bacteriocins , Hydrogen Peroxide , Polysaccharides, Bacterial , Weissella/genetics
7.
Food Res Int ; 139: 109803, 2021 01.
Article in English | MEDLINE | ID: mdl-33509447

ABSTRACT

Minas Gerais is a Brazilian state known as the largest cheese producer in Brazil. Minas Artisanal Cheese (MAC) is produced in different regions of this Brazilian state using raw cow milk to which a natural starter culture ("pingo") is added. "Entre Serras" is one of these regions, in which the MAC production had decreased (even stopped) for decades until recently, when artisanal cheeses production has been resurrected. Here, we aimed to gain insights on the bacterial diversity of "Entre Serras" MAC. 16S rRNA gene amplicon sequencing was used to assess the bacterial community in cheeses produced by four farms (A, B, C, and D) over 60 days of ripening. Overall, Lactococcus lactis was the predominant species found, regardless of the producer/farm. Enterococcus, Streptococcus, Lactobacillus and Leuconostoc genera were also prevalent in the samples microbiota and their levels varied according to the producer/farm. Cheeses produced by Farms A and B presented high contaminant levels (mainly Enterobacteriaceae and S. aureus), which may be attributed to poor hygiene during cheese production and/or herd health management. Chao1 indices varied significantly when the estimated species richness values of the producers/farms were compared (p < 0.05). A principal coordinate analysis also revealed distinct microbial communities for some farms (p < 0.001). However, no statistical significance was identified when samples were grouped by ripening time. Core microbiota analysis indicated that "Entre Serras" MAC microbiota includes not only LAB, but also spoilage and potentially pathogenic bacteria. We provide the first insights on the bacterial diversity of "Entre Serras" MAC, helping the understanding of the inter-regional microbiological diversity of the samples.


Subject(s)
Cheese , Animals , Brazil , Cheese/analysis , Food Microbiology , High-Throughput Nucleotide Sequencing , RNA, Ribosomal, 16S/genetics , Staphylococcus aureus
8.
Braz J Microbiol ; 52(1): 393-409, 2021 Mar.
Article in English | MEDLINE | ID: mdl-33394458

ABSTRACT

The establishment of norms that regulates the production and trade of Brazilian Artisanal Cheeses (BAC) has been stimulating many small farmers for this activity. The predominance of lactic acid bacteria (LAB) is a typical characteristic of BAC, which confers desirable attributes to artisanal cheeses. However, these products can be contaminated by other microbial groups, including those that indicate hygienic failures during production and may cause spoilage, or even microorganisms that pose risks to consumers' health. A systematic review of the literature published from January 1996 to November 2020 was carried out to identify scientific data about production characteristics and microbiological aspects of BAC, with a major focus on quality and safety status of these traditional products. Studies that fulfilled the inclusion criteria indicated that artisanal chesses produced in Brazil still do not satisfactorily meet the microbiological criteria established by the national laws, mainly due to the high counts of coagulase-positive Staphylococcus and coliforms. Despite low prevalence, pathogens such as Salmonella and Listeria monocytogenes were isolated in some BAC. This review contributed to better understanding microbiological aspects of BAC, the data compiled by the authors highlight the need to improve hygiene practices along the production chain of these traditional cheeses.


Subject(s)
Bacteria/isolation & purification , Cheese/microbiology , Food Handling/standards , Food Microbiology , Food Safety/methods , Bacteria/classification , Brazil , Humans , Lactobacillales/isolation & purification , Listeria monocytogenes/isolation & purification , Salmonella/isolation & purification , Staphylococcus/isolation & purification
9.
J Dairy Sci ; 103(4): 3082-3087, 2020 Apr.
Article in English | MEDLINE | ID: mdl-32089301

ABSTRACT

Passion fruit (Passiflora cincinnata Mast.) is a native fruit from the Caatinga, a typical ecoregion in northeastern Brazil, and it has potential for use by the food and pharmaceutical industries. In this study, we characterized the antimicrobial activity of P. cincinnata and its application in the production of coalho cheese, a traditional Brazilian product. Aqueous extract of P. cincinnata exhibited high inhibitory activity against Listeria spp. (n = 4, reference strains), Staphylococcus aureus (n = 3, reference strains), and multidrug-resistant Staph. aureus (n = 8), and low inhibitory activity against lactic acid bacteria (LAB, n = 3, reference strains). Based on these results, we produced coalho cheese using goat milk with and without (control) passion fruit. Cheeses were stored at 10°C for 14 d and populations of mesophilic aerobes, Staph. aureus, and presumptive LAB were monitored at d 1, 7 and 14. The passion fruit cheese had lower counts of mesophilic aerobes, Staph. aureus (after 7 and 14 d), and presumptive LAB (after 14 d) than the control cheese. Adding ground passion fruit contributed to a reduction of Staph. aureus counts in goat cheese, although these differences were not significant. These results indicated the inhibitory potential of passion fruit and its potential use for controlling microbial populations in a cheese model; further studies are needed to characterize the active molecules that are responsible for such activity.


Subject(s)
Cheese/analysis , Milk/microbiology , Passiflora/chemistry , Animals , Brazil/epidemiology , Food Microbiology , Fruit/chemistry , Goats , Staphylococcus aureus/isolation & purification
10.
Braz J Microbiol ; 51(1): 313-321, 2020 Mar.
Article in English | MEDLINE | ID: mdl-31734902

ABSTRACT

Lactococcus lactis subsp. lactis bv. diacetylactis strains are often used as starter cultures by the dairy industry due to their production of acetoin and diacetyl, important substances that add buttery flavor notes in dairy products. Twenty-three L. lactis subsp. lactis isolates were obtained from dairy products (milk and cheese) and dairy farms (silage), identified at a biovar level, fingerprinted by rep-PCR and characterized for some technological features. Fifteen isolates presented molecular and phenotypical (diacetyl and citrate) characteristics coherent with L. lactis subsp. lactis bv. diacetylactis and rep-PCR allowed the identification of 12 distinct profiles (minimum similarity of 90%). Based on technological features, only two isolates were not able to coagulate skim milk and 10 were able to produce proteases. All isolates were able to acidify skim milk: two isolates, in special, presented high acidifying ability due to their ability in reducing more than two pH units after 24 h. All isolates were also able to grow at different NaCl concentrations (0 to 10%, w/v), and isolates obtained from peanut and grass silages presented the highest NaCl tolerance (10%, w/v). These results indicate that the L. lactis subsp. lactis bv. diacetylactis isolates presented interesting technological features for potential application in fermented foods production. Despite presenting promising technological features, the isolates must be assessed according to their safety before being considered as starter cultures.


Subject(s)
Cultured Milk Products/microbiology , Lactococcus lactis/isolation & purification , Acetoin/metabolism , Animals , Cheese/microbiology , Diacetyl/metabolism , Fermentation , Lactococcus lactis/classification , Milk/microbiology , Silage/microbiology
11.
Antonie Van Leeuwenhoek ; 113(5): 651-662, 2020 May.
Article in English | MEDLINE | ID: mdl-31838601

ABSTRACT

Lactococcus lactis subsp. lactis bv. diacetylactis is a relevant microorganism for the dairy industry because of its role in the production of aromatic compounds. Despite this technological property, the identification of bacteriocinogenic potential of obtained strains can offer the additional positive aspect of biosafety. A panel of 15 L. lactis subsp. lactis bv. diacetylactis strains was characterised for the presence and expression of bacteriocin related genes, and further investigated regarding the nisin operon. Eight strains were positive only for nisA, and one strain (SBR4) presented a full nisin operon, with sequencing that was shown to be similar to nisin Z. Only SBR4 presented inhibitory activity against 16 microbial target strains. The growth curves of selected targets strains confirmed the inhibitory activity of SBR4 and consequently the nisin production. This research has demonstrated the inhibitory potential of L. lactis subsp. lactis bv. diacetylactis strain, SBR4, due to its ability to produce nisin Z. This biopreservative potential, associated to previously characterised technological properties, allow the indication of this strain as a promising candidate to be used by the dairy industry as a starter or adjunct culture.


Subject(s)
Dairying/methods , Lactococcus lactis/metabolism , Nisin/metabolism , Anti-Bacterial Agents/metabolism , Bacteriocins/genetics , Bacteriocins/metabolism , Fermentation , Genes, Bacterial , Lactococcus lactis/genetics , Nisin/analogs & derivatives , Nisin/genetics
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