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Selected aspects of enterococci presence in artisan cheeses®
Języki publikacji
Abstrakty
Enterokoki są dobrze przystosowane do funkcjonowania w środowisku sera i wraz z innymi bakteriami mlekowymi stanowią grupę niestarterowych bakterii mlekowych. Ich aktywność proteolityczna i lipolityczna przyczynia się do rozwoju typowych właściwości sensorycznych serów. Dzięki wytwarzaniu bakteriocyn enterokoki wpływają na mikrobiotę sera, z jednej strony ograniczając ewentualny rozwój drobnoustrojów patogennych i powodujących psucie a z drugiej strony stymulują procesy autolityczne innych bakterii mlekowych. Dzięki tym cechom drobnoustroje te mają potencjał do stosowania jako kultury dodatkowe lub ochronne do serów. Niektóre gatunki Enterococcus wykazują cechy wirulencji i antybiotykooporność i z tego powodu rodzaj ten nie posiada statusu QPS (qualified presumption of safety).
Enterococci are well adapted to function in the cheese environment and, along with other lactic acid bacteria, constitute a group of non-starter lactic bacteria. Their proteolytic and lipolytic activity contributes to the development of typical sensory properties of cheeses. By producing bacteriocins, enterococci influence the cheese microbiota, on the one hand, limiting the possible development of pathogenic and spoilage microorganisms, and, on the other hand, stimulating the autolytic processes of other lactic bacteria. Due to these characteristics, enterococci have the potential to be used as adjunct or protective cultures for cheeses. Some Enterococcus species show virulence and antibiotic resistance and therefore the genus does not have qualified presumption of safety status (QPS).
Wydawca
Czasopismo
Rocznik
Tom
Strony
134--142
Opis fizyczny
Bibliogr. 58 poz.
Twórcy
autor
- Szkoła Główna Gospodarstwa Wiejskiego w Warszawie, Polska
autor
- Szkoła Główna Gospodarstwa Wiejskiego w Warszawie, Polska
autor
- Szkoła Główna Gospodarstwa Wiejskiego w Warszawie, Polska
autor
- Szkoła Główna Gospodarstwa Wiejskiego w Warszawie, Polska
Bibliografia
- [1] ABEIJÓN M.C., C.M.A.P. MEDINA FRANZ, M.J. VAN BELKUM, W.H. HOLZAPFEL, H. ABRIOUEL, A. GÁLVEZ. 2007. “Diversity of enterococcal bacteriocins and their grouping in a new classification scheme.” FEMS Microbiology Reviews 31: 293–310.
- [2] ASPRI M., P.M. O’CONNOR, D. FIELD, P.D. vCOTTER, P. ROSS, C. HILL, P. PAPADEMAS. v2017. “Application of bacteriocin-producing vvEnterococcus faecium isolated from donkey milk, in vthe bio-control of Listeria monocytogenes in fresh vwhey cheese.” International Dairy Journal 73: 1–9.
- [3] BANWO K., A. SANNI, H. TAN. 2012. „Technological properties and probiotic potential of Enterococcus faecium strains isolated from cow milk.” Journal of Applied Microbiology 114: 229–241.
- [4] BARBIERI F., C. MONTANARI, F. GARDINI, G. TABANELLI. 2019. “Biogenic amine production by lactic acid bacteria: a review.” Foods 8: 17.
- [5] BEN SAID L.B., N. KLIBI, R. DZIRI, F. BORGO,A. BOUBADOUS, K. BEN SLAMA, C. TORRES. 2016. “Prevalence, antimicrobial resistance and genetic lineages of Enterococcus spp. from vegetable food, soil and irrigation water in farm environments in Tunisia.” Journal of the Science of Food and Agriculture 96: 1627–1633.
- [6] BERTHOLD-PLUTA A.M., A. PLUTA, M. GARBOWSKA, L. STASIAK-RÓŻAŃSKA. 2019. “Exopolysaccharide-producing lactic acid bacteria - health-promoting properties and application in the dairy industry.” Advancements of Microbiology - Postępy Mikrobiologii 58(2): 191–204.
- [7] CÂMARA S.P.A., A. DAPKEVICIUS, C.C.G. SILVA, F.X. MALCATA, M.L.N.E. DAPKEVICIUS. 2020. “Artisanal Pico cheese as reservoir of Enterococcus species possessing virulence and antibiotic resistance properties: implications for food safety.” Food Biotechnology 34: 25–41.
- [8] CASALTA E., J.M. SORBA, M. AIGLE, J.C. OGIER. 2009. “Diversity and dynamics of the microbial community during the manufacture of Calenzana, an artisanal Corsican cheese.” International Journal of Food Microbiology 133: 243–251.
- [9] CASEY M.G., J.P. HÄNI, J. GRUSKOVNJAK, W. SCHAEREN, D. WECHSLER. 2006. “Characterisation of the non-starter lactic acid bacteria (NSLAB) of Gruyère PDO cheese”. Lait 86: 407–414.
- [10] CHAJĘCKA-WIERZCHOWSKA W., A. ZADERNOWSKA, Ł. ŁANIEWSKA-TROKEN-HEIM. 2017. “Virulence factors of Enterococcus species presented in foods.” LWT – Food Science and Technology 75: 670–676.
- [11] DAPKEVICIUS M.D.L.E., B. SGARDIOLI, S.P.A. CÂMARA, P. POETA, F.X. MALCATA. 2021. “Current Trends of Enterococci in Dairy Products: A Comprehensive Review of Their Multiple Roles.”Foods 10: 821.
- [12] DIDIENNE R., C. DEFARGUES, C. CALLON, T. MEYLHEUC, S. HULIN, M.C. MONTEL. 2012. “Characteristics of microbial biofilm on wooden vats (‘gerles’) in PDO Salers cheese.” International Journal Food Microbiology 156: 91–101.
- [13] DURLU-OZKAYA F., V. XANTHOPOULOUS, N. TUNAIL, E. LITOPOULOU-TZANETAKI. 2001. “Technologically important properties of lactic acid bacteria isolates from Beyaz cheese made from raw ewes’ milk.” Journal of Applied Microbiology 91: 861–870
- [14] EL-DIN B.B., M. EL-SODA, N. EZZAT. 2002.“Proteolytic, lipolytic and autolytic activities of enterococci strains isolated from Egyptian dairy products.” Lait 82: 289–304.
- [15] FIORE E., D. VAN TYNE, M.S. GILMORE. 2019. “Pathogenicity of Enterococci.” Microbiology Spectrum 7(4), 10.1128/microbiolspec.GPP3-0053-2018. https://doi.org/10.1128/microbiolspec.GPP3-0053-2018.
- [16] FRANZ C.M.A.P., M.E. STILES, K.H. SCHLEIFER, W.H. HOLZAPFEL. 2003.“Enterococci in foods – a conundrum for food safety”.International Journal of Food Microbiology 88: 105–122.
- [17] FRANZ C.M.A.P., M.J. VAN BELKUM, W.H. HOLZAPFEL, H. ABRIOUEL, A. GÁLVEZ. 2007. “Diversity of enterococcal bacteriocins and their grouping in a new classification scheme.” FEMS Microbiology Reviews 31: 293–310.
- [18] FUKA M.M., A.Z. MAKSIMOVIC, I. TANUWIDJAJA, N. HULAK, M. SCHLOTER. 2017. “Characterization of enterococcal community isolated from an artisan Istrian raw milk cheese: biotechnological and safety aspects.” Food Technology and Biotechnology 55: 368–380.
- [19] GAGLIO R., N. COUTO, C. MARQUES, M.F.S. LOPES, G. MOSCHETTI, C. POMBA, L. SETTANI 2016. “Evaluation of antimicrobial resistance and virulence of enterococci from equipment surfaces, raw materials, and traditional cheeses.” International Journal of Food Microbiology 236: 107–114.
- [20] GAO W., B.P. HOWDEN, T.P. STINEAR. 2018. “Evolution of virulence in Enterococcus faecium, a hospital-adapted opportunistic pathogen.” Current Opinion in Microbiology 41: 76–82.
- [21] GARCÍA-SOLACHE M., L.B. RICE. 2019. “The Enterococcus: a Model of adaptability to its environment.” Clinical Microbiology Reviews 30; 32(2):e00058-18.
- [22] GELSOMINO R., M. VANCANNEYT, T.M.COGAN, S. CONDON, J. SWINGS. 2002. “Source of enterococci in a farmhouse raw-milk cheese”. Applied Environmental Microbiology 68: 3560-3565.
- [23] GIRAFFA G. 2003. “Enterococci from foods.”FEMS Microbiology Reviews 26: 163–171.
- [24] GRAHAM K., H. STACK, R. REA. 2020. “Safety, beneficial and technological properties of enterococci for use in functional food applications – a review”. Critical Reviews in Food Science and Nutrition 60: 3836–3861.
- [25] HANCHI H., W. MOTTAWEA, K. SEBEI, R. HAMMAMI. 2018. “The genus Enterococcus: between probiotic potential and safety concerns – an update.” Frontiers Microbiology 9: 1791.
- [26] JIMÉNEZ E., V. LADERO, I. CHICO, A. MALDONADO-BARRAGÁN, M. LÓPEZ, V. MARTÍN, L. FERNÁNDEZ, M. FERNÁNDEZ, M.A. ÁLVAREZ, C. TORRES, J.M. RODRÍGUEZ. 2013. “Antibiotic resistance, virulence determinants and production of biogenic amines among enterococci from ovine, feline, canine, porcine and human milk”. BMC Microbiology 13: 288.
- [27] KAKGLI D.M., M. VANCANNEYT, C. HILL, P. VANDAMME, T.M. COGAN. 2007. “Enterococcus and Lactobacillus contamination of raw milk in a farm dairy environment.” International Journal of Food Microbiology 114: 243–251.
- [28] KAYSER F.H. 2003. “Safety aspects of enterococci from the medical point of view.” International Journal of Food Microbiology 88: 255–262.
- [29] LORTAL S., M.P. CHAPOT-CHARTIER. 2005. “Role, mechanisms and control of lactic acid bacteria lysis in cheese.” International Dairy Journal 15: 857–871.
- [30] MAJHENIC A.Č., I. ROGELJ, B. PERKO. 2005. “Enterococi from Tolminc cheese: population structure, antibiotic susceptibility and incidence of virulence determinants.” International Journal of Food Microbiology 102: 239–244.
- [31] MALEK R., A. EL-ATTAR, M. MOHAMED,S. ANWAR, M. EL-SODA, C. BÉAL. 2012. “Technological and safety properties display biodiversity among enterococci isolated from two Egyptian cheeses, “Ras” and “Domiati”.” International Journal of Food Microbiology 153: 314–322.
- [32] MCAULEY C.M., M.L. BRITZ, K.S. GOBIUS, H. CRAVEN. 2015. “Prevalence, seasonality, and growth of enterococci in raw and pasteurized milk in Victoria, Australia.” Journal of Dairy Science 98: 8348–8358.
- [33] MOORE D.F., J.A. GUZMAN, C. MCGEE. 2008. “Species distribution and antimicrobial resistance of enterococci isolated from surface and ocean water.” Journal of Applied Microbiology 105: 1017–1025.
- [34] MORANDI S., M. BRASCA, C. ANDRIGHETTO, A. LOMBARDI, R. LODI. 2006. “Technological and molecular characterization of enterococci isolated from north-west Italian dairy products.” International Dairy Journal 16: 867–875.
- [35] MORANDI S., M. BRASCA, R. LODI. 2011. “Technological, phenotypic and genotypic characterisation of wild lactic acid bacteria involved in the production of Bitto PDO Italian cheese.” Dairy Science Technology 91: 341–359.
- [36] MOZZI F., F. VANINGELGEM, E.M. HÉBERT, R. VAN DER MEULEN, M.R. FOULQUIÉ MORENO, G.F. VALDEZ, L. DE VUYST. 2006. “Diversity of heteropolysaccharide-producing lactic acid bacterium strains and their biopolymers.” Applied Environmental Microbiology 72: 4431–4435.
- [37] MÜLLER T., A. ULRICH, E.M. OTT, M. MÜLLER. 2001. “Identification of plant-associatedenterococci.” Journal of Applied Microbiology 91: 268–278.
- [38] MUÑOZ A., M. MAQUEDA, A. GÁLVEZ, M. MARTÍNEZ-BUENO, A. RODRÍGUEZ, E. VALDIVIA. 2004. “Biocontrol of psychrotrophic enterotoxigenic Bacillus cereus in a nonfat hard cheese by an enterococcal strain producing enterocin AS-48.” Journal of Food Protection 67: 1517–1521.
- [39] NIETO-ARRIBAS P., S. SESEÑA, J.M. POVEDA, R. CHICÓN, L. CABEZAS, L. PALOP. 2011.“Enterococcus populations in artisanal Manchego cheese: biodiversity, technological and safety aspects.” Food Microbiology 28: 891–899.
- [40] NOVAIS C., J. CAMPOS, A.R. FREITAS, M. BARROS, E. SILVEIRA, T.M. COQUE, P. ANTUNES, L. PEIXE. 2018. “Water supply and feed as sources of antimicrobial-resistant Enterococcus spp. in aquacultures of rainbow trout (Oncorhyncus mykiss), Portugal.” Science of the Total Environment 625: 1102–1112.
- [41] OUMER A., P. GAYA, E. FERNÁNDEZ-GARCÍA, R. MARIACA, S. GARDE, M. MEDINA, M. NUÑEZ. 2001. “Proteolysis and formation of volatile compounds in cheese manufactured with a bacteriocin-producing adjunct culture.” Journal of Dairy Research 68: 117–129.
- [42] ÖZKAN E.R., T. DEMIRCI, N. AKIN. 2021. “Invitro assessment of probiotic and virulence potential of Enterococcus faecium strains derived from artisanal goatskin casing Tulum cheeses produced in central Taurus Mountains of Turkey.” LWT – Food Science and Technology 141: 110908.
- [43] PALMER K.L., V.N. KOS, M.S. GILMORE. 2010. “Horizontal gene transfer and the genomics of enterococcal antibiotic resistance.” Current Opinion in Microbiology 13: 632–639.
- [44] PAPPA E.C., E. KONDYLI, J. SAMELIS. 2019. “Microbiological and biochemical characteristics of Kashkaval cheese produced using pasteurized or raw milk.” International Dairy Journal 89: 60–67.
- [45] PERIN L.M., R.O. MIRANDA, S.D. TODOROV, B.D.G. FRANCO, L.A. NERO. 2014. “Virulence, antibiotic resistance and biogenic amines of bacteriocinogenic lactococci and enterococci isolated from goat milk.” International Journal of Food Microbiology 185: 121–126.
- [46] POPOVIĆ N., M. DINIĆ, M. TOLINAČKI, S. IHALJOVIĆ, A. TERZIĆ-VIDOJEVIĆ, S. BOJIĆ, J. DJOKIĆ, N. GOLIĆ, K. VELJOVIĆ. 2018. “New insight into biofilm formation ability, the presence of virulence genes and probiotic potential of Enterococcus sp. dairy isolates.” Frontiers Microbiology 30(9): 78.
- [47] QUIGLEY L., O. O’SULLIVAN, C. STANTON, T.P. BERESFORD, R.P. ROSS, G.F. FITZGERALD, P.D. COTTER. 2013. “The complex microbiota of raw milk.” FEMS Microbiology Reviews 37: 664–698.
- [48] RIBEIRO S.C., M.C. COELHO, S.D. TODOROV, B.D.G.M. FRANCO, M.L.E. DAPKEVICIUS, C.C.G. SILVA. 2014. “Technological properties of bacteriocin-producing lactic acid bacteria isolated from Pico cheese an artisanal cow’s milk cheese.” Journal of Applied Microbiology 116: 573–585.
- [49] RIBEIRO S.C., R.P. ROSS, C. STANTON, C.C.G. SILVA. 2017. “Characterization and application of antilisterial enterocins on model fresh cheese.” Journal of Food Protection 80: 1303–1316.
- [50] RICCI A., A. ALLENDE, D. BOLTON, M. CHEMALY, R. DAVIES, R. GIRONES, L. HERMAN, K. KOUTSOUMANIS, R. LINDQVIST, B. NøRRUNG ET AL. 2017.“Scientific Opinion on the update of the list of QPS-recommended biological agents intentionally added to food or feed as notified to EFSA. Panel on Biological Hazards (BIOHAZ).” EFSA Journal 15: e04664.
- [51] RUIZ P., F. PÉREZ-MARTÍN, S. SESEÑA, M.L. PALOP. 2016. “Seasonal diversity and safety evaluation of enterococci population from goat milk in a farm.” Dairy Science and Technology 96: 359–375.
- [52] SERIO A., C. CHAVES-LÓPEZ, A. PAPARELLA, G. SUZZI. 2010. “Evaluation of metabolic activities of enterococci isolated from Pecorino Abruzzese cheese.” International Dairy Journal 20: 459–464.
- [53] SERIO A., A. PAPARELLA, C. CHAVES-LÓPEZ, A.CORSETTI, G. SUZZI. 2007.“Enterococcus populations in Pecorino Abruzzese cheese: biodiversity and safety aspects.” Journal of Food Protection 70: 1561–1568.
- [54] SUN D., JEANNOT K., XIAO Y., KNAPP C.W. 2019. “Horizontal gene transfer mediated bacterial antibiotic resistance.” Frontiers Microbiology 27: 933.
- [55] ŠVEC P., C.M.A.P. FRANZ. 2014. The genus Enterococcus. In Lactic Acid Bacteria: Biodiversity and Taxonomy; Holzapfel, W.H., Wood, B.J.B., Eds.;Wiley-Blackwell: Hoboken, NJ, USA: 171–213.
- [56] TEMPLER S.P., A. BAUMGARTNER. 2007. “Enterococci from Appenzeller and Schabziger raw milk cheese: antibiotic resistance, virulence factors, and persistence of particular strains in the products.”Journal of Food Protection 70: 1450–1464.
- [57] WERNER G., T.M. COQUE, C.M. FRANZ, E. GROHMANN, K. HEGSTAD, L. JENSEN, W. VAN SCHAIK, K. WEAVER. 2013. “Antibiotic resistant enterococci – tales of a drug resistance gene trafficker.” International Journal of Medicine Microbiology 303: 360–379.
- [58] YERLIKAYA O., N. AKBULUT. 2019. “Potential use of probiotic Enterococcus faecium and Enterococcus durans strains in Izmir Tulum cheese as adjunct culture.” Journal of Food Science and Technology 56: 2175–2185.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4011201a-3ae8-4067-8417-01c098fdce83