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41	Studies on regulation of the plantaricin 423 gene Cohen, Francisca 12 1900 (has links) Thesis (MSc) -- University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Lactic acid bacteria play an essential role in the majority of fermented foods by producing organoleptic compounds and increasing the shelf life. The best-studied antimicrobial compounds are bacteriocins, i.e. ribosomally synthesized peptides. Most of these peptides have a narrow spectrum of activity and are usually only active against bacteria from the same ecological niche. The fact that all bacteriocins are degraded by proteolytic enzymes enlarges their potential use as natural food preservatives. The ideal would be to replace or reduce chemical preservatives such as sulfur dioxide, nitrates and nitrites. Bacteriocins are classified into four groups according to their structural and functional characteristics. Plantaricin 423, produced by Lactobacillus plantarum 423, is heat stable, plasmid encoded, relatively small (3.5 kDa) and is classified as a class Iia bacteriocin. The peptide is active from pH 1.0 to 10.0 and inhibits Gram-positive bacteria, including Lactobacillus spp., Leuconostoc spp., Oenococcus oeni, Pediococcus spp., Enterococcus spp., Propionibacterium spp. and pathogens such as Bacillus cereus, Clostridium spp. and Listeria monocytogenes. Production of bacteriocins may occur constitutively or may be regulated by a cell-density dependent system called quorum sensing. Plantaricin 423 is produced throughout logarithmic growth, with no apparent change in production levels when the producer strain is cultured in the presence of plantaricin 423 or Listeria innocua and Lactobacillus sakei. This led us to believe that plantaricin 423 may be produced constitutively. A reporter system was constructed which consisted of the plantaricin 423 promoter, P423, fused to the luxAB genes and cloned into a shuttle vector, pTRKH2. The newly constructed plasmid, pTAB4, was transformed to a bacteriocin-negative mutant of L. plantarum (423 B} Despite several repeats, no luciferase activity was recorded and no RNA homologous to the luxAB genes was detected. The region necessary for expression of plantaricin 423 may be located stream-up of the -80 region homologous to the -80 and -40 conserved repeats of regulated class II bacteriocins. Inclusion of the latter region in the reporter construct may result in the successful expression of luxAB. / AFRIKAANSE OPSOMMING: Melksuurbakteriee speel 'n belangrike rol in die meeste gefermenteerde voedselsoorte deur die produksie van organoleptiese komponente en die verlenging van rakleeftyd. Van aile antimikrobiese komponente is bakteriosiene (ribosomaal gesintetiseerde peptiede) die beste bestudeer. Hierdie peptiede het gewoonlik 'n nou spektrum van antimikrobiese werking en is meestal aktief teen bakteriee in dieselfde ekologiese nis. Die feit dat bakteriosiene deur proteolitiese ensieme in die spysverteringskanaal vernietig word, verhoog die potensiele gebruik van bakteriosiene as preserveermiddels. Die ideaal sal wees om die konsentrasie van chemiese preserveermiddels soos swaweldioksied, nitrate en nitriete te verlaag of rnoontlik te vervang met bakteriosiene. Bakteriosiene word in vier groepe op grond van hul strukturele en funksionele karaktereienskappe geklassifiseer. Plantarisien 423, geproduseer deur Lactobacillus plantarum 423, is hitte-stabiel, word deur 'n plasmied gekodeer, is relatief klein (3.5 kDa) en sorteer onder die klas Iia bakteriosiene. Die peptied is aktief oor 'n wye pH-reeks (pH 1.0-10.0) en inhibeer Gram-positiewe bakteriee, insluitend Lactobacillus spp., Leuconostoc spp., Oenococcus oeni, Pediococcus spp., Enterococcus spp., Propionibacterium spp. en patogene soos Bacillus cereus, Clostridium spp. en Listeria monocytogenes. Produksie van bakteriosiene kan konstitutief plaasvind of kan gereguleer word deur 'n seldigtheids- afhanklike sisteem naamlik "quorum sensing". Plantarisien 423 word regdeur logaritmiese groei geproduseer, met geen verandering in produksievlakke wanneer die produserende stam in die teenwoordigheid van plantarisien 423 of Listeria innocua en Lactobacillus sakei gekweek word nie. Dit het gelei tot die hipotese dat plantarisien 423 moontlik konstitutief geproduseer word. 'n Verklikkersisteem bestaande uit 'n fusie van die plantarisien 423 promoter, P423, aan die luxAB gene is gekonstrueer en in die pendelplasmied pTRKH2 gekloneer. Die nuutgekonstrueerde plasmied, pTAB4, is na 'n bakteriosien-negatiewe mutant van L. plantarum (stam 423 B-) getransfonneer. Ten spyte van etlike herhalings kon geen lusiferase-aktiwiteit opgespoor word nie en kon ook geen homologie in die RNA met die luxAB gene opgespoor word nie. Dit is moontlik dat die area nodig vir uitdrukking van plantarisien 423 verder stroom-op van die -80 area, homoloog aan die -80 en -40 gekonserveerde herhalings van reguleerbare klas II bakteriosiene, gesetel is. Insluiting van laasgenoemde area in die verklikker-konstruk mag lei tot die suksesvolle uitdrukking van luxAB. Genetic regulation Bacteriocins Lactic acid bacteria -- Genetics Lactobacillus plantarum Plantaricin 423 gene Dissertations -- Microbiology
42	Fermentation optimization of pediocin PD-1 production and a comparative study of the effect of pediocin PD-1, plantaricin 423 and nisin on biofilms of Oenococcus oeni Nel, Hannes Augustinus 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2001. / ENGLISH ABSTRACT: Lactic acid bacteria are present in many foods and beverages and are used as starter cultures in the production of a variety of fermented products. Many of these bacteria produce ribosomally synthesized antimicrobial peptides (bacteriocins), which inhibit the growth of bacteria genetically closely related to the producer cell. Since many of these target bacteria include foodbome pathogens such as Bacillus spp., Clostridium spp., Listeria spp., and Staphylococcus spp., the practical importance of these peptides as food preservatives has been well documented and, in the case of nisin and pediocin PA-I, commercially explored. The increased demand from health conscious consumers for foods with no chemical preservatives is putting renewed pressure on the producer to supply a "clean and green" product, but with the same or even an extended shelf life. Various research groups are screening lactic acid bacteria for production of novel broad-spectrum antimicrobial peptides or are exploring the possibilities of altering known bacteriocins to inhibit Gram-negative bacteria, yeasts and molds. Pediocin PD-I, produced by Pediococcus damnosus NCFB 1832, belongs to the class Ila bacteriocins, i.e. heat-stable Listeria-active peptides, containing the YGNGV -consensus sequence in the N-terminal region. Little is known about the production and mode of activity of pediocin PD-I. In this study, production of pediocin PD-I was significantly increased by optimizing the growth medium, De Man Rogosa and Sharpe (MRS) broth. Addition of bacteriological peptone (1.7%, w/v), manganous sulphate (0.014%, w/v) and Tween 80 (3%, v/v), and lowering of the pH during fermentation stimulated pediocin PD-I production and the level of organic acids produced. Maximum levels of bacteriocin activity were recorded at an initial pH of 6.7 in the latter medium. Under these conditions the specific bacteriocin activity increased by a factor of approximately six after 55 h of fermentation. The effect of pediocin PD-I, plantaricin 423, produced by Lactobacillus plantarum 423, and commercial grade nisin (Aplin and Barrett Ltd., Trowbrige, Wilts, England) was tested against planktonic cells of Oenococcus oeni and a biofilm of the cells established on stainless steel surfaces identical to those used in wineries. After 5 h of treatment with 3000 AU (arbitrary units )/ml of each bacteriocin, all planktonic cells of 0. oeni in a modified Chardonnay must medium were killed. All viable cells in the biofilm were killed after only 1 h in the presence of 3000 AU/ml of anyone of the bacteriocins. In addition, pediocin PD-I, plantaricin 423 and nisin removed the biofilms from the surfaces and reduced the biomass either completely, as in the case of pediocin PD-I, or by 58% and 50% as in the case of plantaricin 423 and nisin, respectively. These same results were recorded after 5 h of treatment with 3000 AU/ml in a modified Chardonnay must medium. To our knowledge this is the first report of controlling biofilm formation of malolactic bacteria on stainless steel surfaces with natural antimicrobial peptides. This implies that, apart from being very effective in controlling the cell numbers of free-living cells of 0. oeni, the three bacteriocins, especially pediocin PD-I, could also be used as natural sanitizers. The fact that the production and activity levels ofpediocin PD-I could be increased without genetically modifying the producer strain is an added advantage. / AFRIKAANSE OPSOMMING: Melksuurbakterieë is teenwoordig in verskeie soorte voedsel- en drankprodukte en word as suurselkulture in die produksie van 'n verskeidenheid gefermenteerde produkte gebruik. Baie van hierdie bakterieë produseer ribosomaal-vervaardigde antimikrobiese peptiede (bakteriosiene) wat die groei van ander bakterieë, geneties naverwant aan die produserende organisme, inhibeer. Omdat baie van hierdie bakterieë voedselpatogene soos Bacillus spp., Clostridium spp., Listeria spp. en Staphylococcus spp. insluit, is die praktiese belang van hierdie peptiede reeds deeglik ondersoek en word, soos in die geval van nisien en pediosien PA-I, kommersieel gebruik. Die toenemende behoefte van die verbruiker na voedselprodukte met geen chemiese preserveermiddels plaas nuwe druk op die vervaardiger om veilige voedselprodukte te produseer, maar met dieselfde of selfs langer rakleeftyd. Verskeie navorsingsgroepe bestudeer melksuurbakterieë vir die produksie van unieke antimikrobiese peptiede met 'n wye spektrum van inhibisie en ondersoek ook die moontlikhede om hierdie bakteriosiene geneties te manipuleer ten einde Gram-negatiewe bakterieë, giste en swamme te inhibeer. Pediosien PD-l, geproduseer deur Pediococcus damnosus NCFB 1832, word as 'n klass na bakteriosien geklassifiseer. Hierdie groep sluit in die hitte-stabiele Listeria-aktiewe peptiede, met 'n YGNGV-konsensus volgorde in die N-terminale deel van die peptied. Min is egter bekend oor die meganisme van werking van hierdie bakteriosiene. In hierdie studie is die produksie van pediosien PD-l betekenisvol verhoog met die optimalisering van die vloeibare groeimedium De Man Rogosa en Sharpe (MRS). Die toevoeging van bakteriologiese peptone (1.7%, miv), mangaan sulfaat (0.014%, miv) en Tween 80 (3.0%, v/v) en 'n afname in die pH gedurende groei het pediosien PD-l-poduksie gestimuleer en sodoende ook die vlak van organiese sure wat geproduseer is. Maksimum vlakke van bakteriosien-aktiwiteit is in hierdie medium met 'n aanvangs-pH van 6.7 waargeneem. Onder hierdie omstandighede, en na 55 uur van fermentasie, het die spesifieke aktiwiteit van die bakteriosien met 'n faktor van ongeveer ses verhoog. Die effek van pediosien PD-l, plantarisien 423, geproduseer deur Lactobacillus plantarum 423, en 'n kommersiële graad nisien (Aplin and Barrett Ltd., Trowbride, Wilts, Engeland) is teen die planktoniese selle van Oenococcus oeni en 'n biofilm van hierdie selle, gevestig op 'n vlekvrye staaloppervlak identies aan wat in wynkelders gebruik word, getoets. Na 5 ure van behandeling met 3000 AB (arbitrêre eenhede)/ml van elke bakteriosien, is al die planktoniese selle van O. oeni in 'n gemodifiseerde Chardonnay mos-medium vernietig. Alle lewensvatbare selle in die biofilm is ook na slegs 1 uur in die teenwoordigheid van 3000 AE/ml van enige een van hierdie bakteriosiene vernietig. Verdermeer het pediosien PD-I, plantarisien 423 en nisien ook die biofilm op die vlekvrye staal-oppervlak verwyder. In die geval van pediosien PD-I is 'n totale afname van die biomassa-oppervlak waargeneem, terwyl plantarisien 423 en nisien 58% en 50% van die totale biomassa verwyder het. Hierdie resultate is na 5 ure van behandeling (3000 AE/ml) in 'n gemodifiseerde Chardonnay mos-medium waargeneem. Sover ons kennis strek is hierdie die eerste verslag rakende die gebruik van natuurlike antimikrobiese peptiede om biofilm-vorming deur appel-melksuurbakterieë op vlekvrye staal oppervlaktes te beheer. Dit impliseer dat bakteriosiene, spesifiek pediosien PD-I, benewens die beheer van planktoniese selle van appel-melksuurbakterieë, ook as natuurlike oppervlak-reinigers gebruik kan word. Die feit dat die produksie en aktiwiteitsvlakke van pediosien PD-I verhoog kon word sonder om die organisme geneties te modifiseer is 'n verdere voordeel. Nisin Biofilms Bacteriocins Fermentation Lactic acid bacteria Lactobacillus Lactococcus Wine and wine making -- Microbiology
43	Cloning of the gfp (green fluorescent protein) gene downstream of the ldh promoter in a bacteriocin-sensitive strain of Lactobacillus sakei to serve as a reporter strain in bacteriocin studies Liss, Petronella Francina 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: Lactobacillus plantarum 285, isolated from sorghum beer, produces bacteriocin 285, which displays activity against several food spoilage organisms. For future application of bacteriocin 285 in the food industry, it was important to characterize the peptide and identify the genes encoding its production. The effect of bacteriocin 285 on sensitive cells was determined through the use of an indicator (sensitive) organism, Lactobacillus sakei DSM 20017. The indicator strain was genetically modified to express GFP (green fluorescent protein), with the aim of quantifying the antibacterial activity of bacteriocin 285 as a function of GFP fluorescence. Bacteriocin 285 proved to be identical to plantaricin 423 produced by L. plantarum 423. Plantaricin 423 is a class lIa bacteriocin and displays antimicrobial activity towards a broad spectrum of bacteria, including several food spoilage organisms. The sensitivity of L. sakei DSM 20017 towards antibacterial peptides produced by Lactobacillus curvatus DF38, L. plantarum 285, Lactobacillus casei LHS and Lactobacillus salivarius 241 is not limited to the growth stage of the organism. Cells remained sensitive to all four of these bacteriocins, from lag phase to late exponential growth. To inhibit growth of up to 90% of the cells of L. sakei DSM 20017, 1 AU/ml bacteriocin 285 (7 ng/ml) of partially purified bacteriocin 285 was required. However, to kill all viable cells of L. sakei DSM 20017, 16 AU/ml (110 ng/ml) of partially purified bacteriocin 285 was required. The gfpuv gene, encoding GFPuv, was cloned downstream of the Idh promoter and successfully expressed in L. sakei DSM 20017. However, GFPuv fluorescence could not be used as a direct method to quantify the antimicrobial activity of bacteriocin 285, since cells of strain DSM 20017 remained fluorescent for prolonged periods after treatment with lethal concentrations of the bacteriocin. The non-viability of the cells was confirmed with epifluorescence microscopy and a L1VE/DEAD® Baclight™ Bacterial Viability Probe. Cells that were stained with the viability probe indicated that the majority of untreated L. sakei DSM 20017 cells were viable. However, treatment of strain DSM 20017 with 16 AU/ml bacteriocin 285 rendered all visible cells non-viable. / AFRIKAANSE OPSOMMING: Lactobacillus plantarum 285 wat uit sorgumbier geïsoleer is, produseer bakteriosien 285. Die bakteriosien toon aktiwiteit teen verskeie organismes wat voedselbederi veroorsaak. Vir toekomstige aanwending van bakteriosien 285 in die voedselindustrie was dit belangrik om die peptied te karakteriseer en die gene wat vir die produksie daarvan kodeer, te identifiseer. Die effek van bakteriosien 285 op sensitiewe selle is bepaal deur die gebruik van 'n indikator (sensitiewe)-organisme, Lactobacillus sakei DSM 20017. Die indikator-organisme is geneties verander om die GFP (groen fluoreserende proteïen) uit te druk. Die doel was om die antibakteriese aktiwiteit van bakteriosien 285 te kwantifiseer as 'n funksie van GFP fluorisensie. Bakteriosien 285 is identies aan plantarisien 423 wat deur L. plantarum 423 produseer word. Plantarisien 423 is 'n klas Iia bakteriosien en vertoon antimikrobiese aktiwiteit teenoor 'n wye verskeidenheid bakterieë, insluitende verskeie organismes wat voedsel bederf. Die sensitiwiteit van L. sakei DSM 20017 teenoor antibakteriese peptiede wat deur Lactobacillus cutveius DF38, L. plantarum 285, Lactobacillus casei LHS en Lactobacillus salivarius 241 geproduseer word, word nie beïnvloed deur die groeifase van die organisme nie. Selle het sensitief gebly teenoor al vier die bakteriosiene van sloer- tot laat eksponensiële groei. Om groei van tot 90% van L. sakei DSM 20017 selle te inhibeer, word 1 AU/ml (7 ng/ml) gedeeltelik gesuiwerde bakteriosien 285 benodig. Om alle lewensvatbare L. sakei DSM 20017 selle te dood, word 16 AU/ml (110 ng/ml) gedeeltelik gesuiwerde bakteriosien 285 benodig. Die gfpuv-geen, wat GFPuv kodeer is stroomaf van die Idh-promoter gekloneer en suksesvol in L. sakei DSM 20017 uitgedruk. GFPuv fluoresensie kon nie as direkte metode gebruik word om die antimikrobiese aktiwiteit van bakteriosien 285 te bepaal nie, aangesien die selle van L. sakei DSM 20017 fluoreserend gebly het lank na behandeling met dodelike konsentrasies van die bakteriosien. Die lewensvatbaarheid van die selle is bevestig deur epifluoresensiemikroskopie en 'n LlVE/DEAD® Bac/ight™ bakteriese lewensvatbaarheidspeiler. Selle van L. sakei DSM 20017 wat deur die peiler gekleur is, het gewys dat die meeste selle wat nie deur bakteriosien 285 behandel was nie, lewensvatbaar was. Behandeling van L. sakei DSM 20017 met 16 AU/ml bakteriosien 285 het al die sigbare selle gedood. Bacteriocins Dissertations -- Microbiology Lactobacillus -- Genetics Green fluorescent protein Lactic acid bacteria
44	Screening, isolation and characterisation of antimicrobial/antifungal peptides produced by lactic acid bacteria isolated from wine Morgan, Joanne 03 1900 (has links) Thesis (MSc)--Stellenbosch University, 2003. / Full text to be digitised and attached to bibliographic record. / ENGLISH ABSTRACT: Winemaking is an age-old tradition that dates back to as early as 6000 BC. In our modern era there are several insects and microorganisms that pose a threat to the grapevine, the environment and the final wine product. Farmers and winemakers are becoming aware of the threat and the fight against disease, spoilage and/or pathogenic microorganisms is on the rise. Currently, the natural environment is being altered through rural developments, pollution and disaster, which in turn is responsible for altering the natural micro flora. The result is a harsh battle between man and microorganism. The weapon used often against microorganisms is chemical preservatives, such as sulphur dioxide. These chemical preservatives change the nutritional value, quality and wholesomeness of the wine. Chemical preservatives suppress the quality of the wine with a reduction in wine consumption by the consumers. Until the 18th century, wine was regarded as a safe drink and prescribed by doctors. In the zo" century alcohol consumption became the focus point of some health campaigners. Medical science restored the good name of wine in the 1990s when it came to light that moderate red wine consumption may aid in preventing heart disease and assist in stress management. The only drawback that lowers consumption levels is the use of chemical preservatives. It is of utmost importance to place the focus on health issues and the development of natural preservation methods that are environmentally friendly and contributes to the overall wholesomeness of the wine. Due to these demands, the scientific community placed the focus of research projects on the development and enhancement of biopreservation methods, in order to minimise chemical preservation use. One of the most promising biocontrol agents is bacteriocins. These proteinaceous molecules produced by various lactic acid bacteria exert antimicrobial activity towards closely related organism. Research has shown that bacteriocins may aid in the prevention of wine-spoilage and enhance natural preservation techniques. Most of the research on biopreservation in food and beverages has been performed on the bacteriocins of LAB. No evidence could be found that indicated bacteriocin production by wine isolated LAB in South Africa. This study is therefore, of utmost importance and is considered to be novel pioneering work for the South African wine industry. The main objective of this study was to screen wine isolated LAB for the production of antimicrobial and/or antifungal compounds. This was followed by the isolation and characterisation of the produced bacteriocins. This study forms part of a greater project that focuses on wine preservation, under the auspices of the Institute for Wine Biotechnology.The research results in this study indicated the production of bacteriocins by wine isolated LAB of South African origin. It was found that numerous isolates exerted antimicrobial activity towards other wine associated LAB. The most predominant species that gave the highest activity was Lactobacillus brevis and Lactobacillus paracasei. Experimental results indicated that the bacteriocins produced by these two species were thermo-stable and active over a wide pH range, including the temperatures and pH values that reign in the South African wine environment. The antimicrobial activity was lost after treatment with proteolytic enzymes, such as proteinase K and lysozyme. The size, production and growth kinetic curves of the bacteriocins under investigation showed similar results that are comparable to other findings in the literature. Antifungal activity was detected against Botryfis cinerea that indicated limited inhibitory activity towards spore germination, but had no effect on hyphal growth. This study provides novel information regarding bacteriocin production by LAB isolated from the South African wine industry. The results indicate the suitability of these bacteriocins as possible biopreservatives in the wine environment. The proposed results obtained in this study will aid in the development of bacteriocinproducing, tailored made wine yeast or LAB that may in future, play vital roles in the winemaking process. / AFRIKAANSE OPSOMMING: Wynmaak is 'n eeu oue tradisie wat terugdateer tot so vroeg soos 6000 jaar v.C. In ons moderne eeu is daar verskeie insekte en mikro-organismes wat In bedreiging vir die wingerdstok, asook die omgewing en die finale wynproduk inhou. Boere en wynmakers word al hoe meer bewus van hierdie bedreiging, terwyl die stryd teen siektes, bederf en/of patogene mikro-organismes ook aan die toeneem is. Tans word die natuurlike omgewing deur landelike ontwikkeling, besoedeling en natuurlike rampe verander, wat op sy beurt weer verantwoordelik is vir die verandering van mikroflora. Die gevolg is 'n harde stryd tussen die mens en mikro-organismes. Die wapen wat gereeld ingespan word in die stryd teen mikro-organismes, is chemiese preserveermiddels, soos swaweidioksied. Hierdie chemiese preserveermiddels verander die voedingswaarde, kwaliteit en die voedsaamheid van die wyn. Dit onderdruk ook die gehalte van wyn, wat meebring dat minder wyn deur die verbruiker gedrink word. Tot en met die agtiende eeu is wyn deur dokters as 'n veilige drankie voorgeskryf. In die twintigste eeu het alkoholverbruik die fokuspunt van gesondheidskamvegters geword. In die 1990's het die mediese wetenskap wyn se goeie naam in ere herstel toe dit aan die lig gekom het dat In matige verbruik van rooiwyn moontlik hartsiektes kan voorkom en help om stres te beheer. Die enigste nadelige faktor wat verbruikersvlakke verlaag, is die gebruik van chemiese preserveermiddels. Dit is uiters noodsaaklik om die fokus op gesondheidskwessies te plaas en die ontwikkeling van natuurlike preserveermetodes wat omgewingsvriendelik is en tot die algehele voedsaamheid van wyn bydra. As gevolg van hierdie eise het wetenskaplikes die fokus geplaas op navorsingsprojekte vir die ontwikkeling en verbetering van biopreserveringsmetodes met die doelom die gebruik van chemiese preserveermiddels te verminder. Een van die belowendste biokontrolemiddels is bakteriosiene. Hierdie proteïenagtige molekule word deur verskeie melksuurbakterieë vervaardig en oefen anti-mikrobiese aktiwiteit teenoor nabyverwante organismes uit. Navorsing het getoon dat bakteriosiene moontlik kan help in die voorkoming van wynbederf en natuurlike preserveertegnieke kan verbeter. Die meeste van die navorsing op biopreservering in voedsel en drank is op die bakteriosiene van melksuurbakterieë uitgevoer. Geen bewys kon gevind word in Suid Afrika wat bakteriosienproduksie deur wyn-geïsoleerde melksuurbakterieë aangedui het nie. Hierdie studie is daarom baie belangrik en word as baanbreker werk vir die Suid Afrikaanse wynbedryf beskou. Die hoofdoel van hierdie studie was om wyn-geïsoleerde melksuurbakterieë vir die produksie van anti-mikrobiese en/of anti-fungiese substanse te toets. Dit is gevolg deur die isolasie en karakterisering van die geproduseerde bakteriosiene. Hierdie studie maak deel uit van 'n groter projek wat fokus op wynpreservering en wat onder leiding van die Instituut van Wynbiotegnologie uitgevoer word. Navorsingsresultate van hierdie studie dui op die produksie van bakteriosiene deur wyn-geïsoleerde melksuurbakterieë van Suid Afrikaanse oorsrong. Daar is gevind dat verskeie isolate anti-mikrobiese aktiwiteit teenoor ander wynverwante malksuurbakterieë uitgeoefen het. Die oorheersende spesie wat die hoogste aktiwiteit getoon het, was Lactobacillus brevis en Lactobacillus paracasei. Eksperimentele uitslae dui daarop dat die bakteriosiene wat deur hierdie twee spesies geproduseer word, termostabiel en aktief is oor 'n wye pH reeks, insluitende die temperature en pH-waardes wat in die Suid Afrikaanse wynomgewing voorkom. Die anti-mikrobiese aktiwiteit het verlore gegaan na behandeling met proteolitiese ensieme soos proteïnase K. Die groote, produksie en groeikinetika kurwes van die bakteriosiene wat ondersoek is, toon vergelykbare resultate met ander bevindings in die literatuur. Anti-fungiese aktiwiteit is opgemerk teen Botrytis cinerea, wat beperkte inhiberende aktiwiteit ten opsigte van spoorontkieming aangedui het, maar geen effek op hifegroei gehad nie. Hierdie studie verskaf nuwe inligting aangaande bakteriosienproduksie deur melksuurbakterieë wat van die Suid Afrikaanse wynomgewing geïsoleer is. Die resultate dui op die geskiktheid van hierdie bakteriosiene as moontlike biopreserveermiddels in die wynbedryf. Die voorgestelde resultate deur hierdie studie verkry sal help in die ontwikkeling van bakteriosien produserende, spesifiek vervaardigse wyngis of melksuurbakterieë, wat in die toekoms 'n baie belangrike rol in die wynmaakproses sal speel. Wine and wine making -- Microbiology Microbial peptides Wine -- Preservation Lactic acid bacteria Bacteriocins
45	Development of an antimicrobial wound dressing by co-electrospinning bacteriocins of lactic acid bacteria into polymeric nanofibers Heunis, Tiaan de Jager 12 1900 (has links) Thesis (PhD)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Skin is the largest organ in the human body and serves as a barrier that protects the underlying tissue of the host from infection. Injury, however, destroys this protective barrier and provides a perfect opportunity for microorganisms to invade the host and cause infection, thereby affecting the normal wound healing processes. Furthermore, the ability of microbial pathogens to rapidly develop resistance towards a variety of antimicrobial compounds hampers the effective treatment and control of infections. Antimicrobial-resistant pathogens are increasingly being isolated from patients, placing a huge burden on the health care sector. The search for new and novel antimicrobial agents and treatments is thus of utmost importance and will continue to play an integral role in medical research. Antimicrobial peptides (AMPs) may serve as possible alternatives to antibiotics, or may be used in combination with antibiotics to reduce the risk of antimicrobial resistance. AMPs play a role in innate defence and are produced by a variety of mammals, plants, reptiles, amphibians, birds, fish and insects. The AMPs of bacteria (bacteriocins), especially those of lactic acid bacteria (LAB), are receiving increased attention as antimicrobial agents to treat bacterial infections. Electrospun nanofibers have characteristics that make them suitable as wound dressings, i.e. high oxygen permeability, variable pore size, high surface area to volume ratio and nanofibers are morphologically similar to the extracellular matrix. The ability to incorporate of a variety of biologically active compounds into nanofibers increases their potential as wound dressings. A novel approach would be to incorporate bacteriocins from LAB into nanofiber scaffolds to generate antimicrobial wound dressings. In this study, the feasibility of co-electrospinning bacteriocins from LAB into nanofibers was investigated. Plantaricin 423, produced by Lactobacillus plantarum 423, was successfully co-electrospun into poly(ethylene oxide) (PEO) nanofibers. Plantaricin 423 retained activity after the electrospinning process and continued to inhibit the growth of Lactobacillus sakei DSM 20017T and Enterococcus faecium HKLHS. Viable cells of L. plantarum 423 were also successfully co-electrospun into PEO nanofibers, albeit with a slight reduction in viability. A nanofiber drug delivery system was developed for plantaricin 423 and bacteriocin ST4SA, produced by Enterococcus mundtii ST4SA, by blending PEO and poly(D,L-lactide) (PDLLA) in a suitable solvent before electrospinning. Nanofibers were produced that released the bacteriocins over an extended time period. The PEO:PDLLA (50:50) nanofiber scaffold retained its structure the best upon incubation at 37 °C and released active plantaricin 423 and bacteriocin ST4SA. Nisin A was also successfully co-electrospun into a PEO:PDLLA (50:50) nanofiber scaffold and nisin A, released from the nanofibers, inhibited the growth of Staphylococcus aureus in vitro. Nisin A-containing nanofiber scaffolds significantly reduced viable S. aureus cells in infected skin wounds and promoted wound healing in non-infected wounds. As far as we could determine we are the first to show that bacteriocin-eluting nanofiber scaffolds can be used to treat skin infections and influence wound healing. / AFRIKAANSE OPSOMMING: Vel is die grootse orgaan in die menslike liggaam en dien as buitelaag wat die gasheer se onderliggende weefsel teen infeksie beskerm. Beskadigde vel verloor egter hierdie beskermende eienskap en gee mikroörganismes die geleentheid om die liggaam binne te dring, infeksie te veroorsaak en die normale prosesse geassosieer met wondgenesing te beïnvloed. Die suksesvolle behandeling en beheer van infeksies word gedemp deur die vermoë van mikroörganismes om vinnig weerstand teen antimikrobiese middels te ontwikkel. Mikroörganismes met antimikrobiese weerstand word geredelik van pasiënte geïsoleer en dit plaas enorme druk op die gesondheidssektor. Die soeke na nuwe antimikrobiese middels en behandelings is dus van uiterste belang en sal altyd ‘n integrale rol in geneeskunde navorsing speel. Antimikrobiese peptiede (AMPe) kan moontlik as alternatief tot antibiotika dien, of kan in kombinasie daarmee gebruik word om die ontwikkeling van antimikrobiese- weerstandbiedenheid te verhoed. AMPe speel ‘n rol in ingebore beskerming en word deur soogdiere, plante, reptiele, voëls, visse en insekte geproduseer. AMPe van bakterieë (bakteriosiene), veral die van melksuurbakterieë (MSB), wek toenemende belangstelling as antimikrobiese middels vir die behandeling van bakteriële infeksies. Nanovesels, wat deur middel van ‘n elektrospin proses geproduseer word, het eienskappe wat hul aanloklik maak as wondbedekking, naamlik hoë suurstof deurlaatbaarheid, verskeie porie grottes, ‘n hoë oppervlakte tot volume verhouding, sowel as ‘n morfologiese struktuur wat die ekstrasellulêre matriks naboots. Die vermoë om ‘n verskeidenheid biologies aktiewe komponente in nanovesels te inkorporeer verhoog hul potensiaal as wondbedekkingsmateriaal. ‘n Unieke benadering is die inkorporasie van bakteriosiene van MSB in nanovesels om ‘n antimikrobiese wondbedekking te ontwikkel. In hierdie studie is die vermoë om bakteriosiene van MSB in nanovesels te inkorporeer, deur middel van ‘n mede-elektrospin proses, ondersoek. Plantarisien 423, geproduseer deur Lactobacillus plantarum 423, was suksesvol deur die mede-elektrospin proses in poliëtileen oksied (PEO) nanovesels geinkorporeer. Plantarisien 423 het na die elektrospin proses steeds sy antimikrobiese aktiwiteit behou en het die groei van Lactobacillus sakei DSM 20017T en Enterococcus faecium HKLHS geïnhibeer. Lewende selle van L. plantarum 423 was ook suksesvol deur die mede-elektrospin proses in PEO nanovesels geinkorporeer, alhoewel die lewensvatbaarheid van die selle effens afgeneem het. ‘n Nanovesel matriks is ontwikkel om die vrystelling van plantarisien 423 en bakteriosien ST4SA, geproduseer deur Enterococcus mundtii ST4SA, te beheer deur PEO en poli(D,L-melksuur) (PDLMS) in ‘n geskikte oplosmiddel te vermeng voor die elektrospin proses. Nanovesels is geproduseer wat die bakteriosiene oor ‘n verlengde tydperk kon vrystel. ‘n PEO:PDLMS (50:50) nanovesel matriks het sy stuktuur die beste behou tydens inkubasie by 37 °C en het aktiewe plantarisien 423 en bakteriosien ST4SA vrygestel. Nisien A was met dieselfde tegniek in PEO:PDLMS (50:50) geinkorporeer en nisien A, wat deur die nanovesels vrygestel was, het die groei van Staphylococcus aureus in vitro geïnhibeer. Die nisien A-bevattende nanovesel matriks het die aantal lewende selle van S. aureus noemenswaardig verminder in geïnfekteerde wonde en kon die genesing van wonde, wat nie geïnfekteer was, stimuleer. Sover ons kon vastel is hierdie die eerste gepubliseerde navorsing wat toon dat bakteriosiene, geinkorporeer in nanovesels, gebruik kan word om vel infeksies te beheer en wondgenesing te stimuleer. Antimicrobial peptides Antibiotics Co-electrospinning bacteriocins Antimicrobial wound dressing Theses -- Microbiology Dissertations -- Microbiology
46	Leite humano como fonte de bactérias lácticas produtoras de bacteriocinas e com potencial probiótico / Human milk as a source of lactic acid bacteria producing bacteriocins and probiotic potential Trento, Fabiana Katia Helena de Souza 14 September 2012 (has links) Além do aspecto nutricional de suma importância, é notória a contribuição do leite humano para o processo de desenvolvimento da microbiota intestinal do recémnascido, um importante mecanismo de defesa do organismo contra doenças infecciosas. O papel do leite humano como fonte de bactérias probióticas, principais constituintes da microbiota intestinal, tem sido tópico de pesquisas recentes. Este trabalho foi desenvolvido com o objetivo de determinar e comparar a composição da microbiota de oito amostras de leite humano e verificar o potencial de utilização desse produto como fonte de bactérias probióticas. Para tanto, utilizaram-se cinco meios de cultivos seletivos para contagem presuntiva de gêneros normalmente encontrados em leite humano: lactococos, enterococos, bifidobactérias e propionibactérias. A análise quantitativa da microbiota demonstrou tendência de diminuição da contagem em função do aumento do tempo de lactação. A análise qualitativa confirmou a presença de distintos gêneros de bactérias lácticas potencialmente probióticas com algumas variações entre as amostras de leite humano. Na segunda etapa 800 colônias isoladas a partir dos cinco meios de cultivos e caracterizadas como bactérias lácticas foram selecionadas quanto às suas propriedades probióticas (produção de bacteriocina, tolerância à acidez e a sais biliares, resistência à antibióticos, capacidade de adesão a chapas de aço inoxidável) e tecnológicas (capacidade de crescimento e sobrevivência em leite). Verificou-se que apenas 15 (1,9%) linhagens produziram bacteriocinas com atividade contra Listeria innocua L11 e Micrococcus luteus ATCC®4698, linhagens utilizadas como indicadoras, por meio do método de antagonismo simultâneo em poços, usando ágar MRS. Treze dessas linhagens também apresentaram atividade contra Bacillus cereus CTC 011, Listeria monocytogenes ATCC®7644, Lactococcus lactis subsp. lactis CTC 204 e Lactobacillus helveticus ATCC®15009. As duas linhagens remanescentes demonstraram atividade principalmente contra Listeria monocytogenes ATCC®7644. Nenhuma das quinze culturas produtoras de bacteriocinas apresentou atividade contra as bactérias Gram-negativas Escherichia coli ATCC® 2074 e Salmonella thyphimuirim ATCC® 2364. Por outro lado, Staphylococcus aureus ATCC® 1602 foi resistente as quinze bacteriocinas selecionadas neste trabalho. Seis linhagens de bactérias lácticas (BALs) foram selecionadas para avaliação das demais propriedades probióticas. Observou-se que uma dessas linhagens diferenciou-se por apresentar sobrevivência a pH 2,0 e a pH 3,0, enquanto as demais mostraram tolerância apenas a pH 3,0. Todas as linhagens selecionadas apresentaram a capacidade de tolerância a 0,3% de sais biliares, de se aderir à superfície de aço inoxidável e de resistência à clindamicina, eritromicina e gentamicina. Quanto às propriedades tecnológicas, todas as seis linhagens apresentaram capacidade de crescimento em leite e não produziram odor desagradável ou pós-acidificação do leite fermentado durante a estocagem a 4ºC por 28 dias. Notou-se, entretanto, diminuição, de, aproximadamente, 2,0 Log UFC.mL-1, na contagem de células viáveis ao final do período de estocagem. Finalmente, por meio da avaliação dos perfis de fermentação de carboidratos e de outras reações bioquímicas, duas das linhagens isoladas de leite humano foram identificadas como Enterococcus durans e quatro como Enterococcus avium. Os 12 resultados permitem concluir que o leite humano é fonte potencial de bactérias com potencial probiótico para aplicação industrial. / In addition to the nutritional aspect of paramount importance, it is clear the contribution of human milk for the development process of the intestinal tract of the newborn, an important mechanism of defense against infectious diseases. The role of human milk as a source of probiotic bacteria, major constituents of the intestinal microbiota, has been the topic of recent research. This work was carried out to determine and compare the composition of the microbiota of eight human milk samples and verify the potential use of this product as a source of probiotic bacteria. For this purpose, we used five selective culture media for counts of presumptive genera commonly found in human milk: lactococcal, enterococci, bifidobacteria and propionibactérias. The quantitative analysis of microbes showed a trend of decreasing counts as a function of time increased lactation. The qualitative analysis confirmed the presence of different kinds of potentially probiotic lactic acid bacteria with some variations between samples of human milk. In the second stage 800 colonies isolated from the five culture media and characterized as lactic acid bacteria were selected for their probiotic properties (bacteriocin production, tolerance to acid and bile salts, antibiotic resistance, adhesion to stainless steel plates) and technology (ability to grow and survive in milk). It was found that only 15 (1.9%) produced bacteriocin strains with activity against Listeria innocua L11 and Micrococcus luteus ATCC 4698®, strains used as an indicator, by the method of antagonism wells simultaneously, using MRS agar. Thirteen of these strains also showed activity against Bacillus cereus CTC 011, Listeria monocytogenes ATCC® 7644, Lactococcus lactis subsp. CTC 204 lactis and Lactobacillus helveticus ATCC 15009®. The two remaining strains showed activity mainly against Listeria monocytogenes ATCC 7644®. None of the fifteen cultures producing bacteriocins active against Gram-negative Escherichia coli ATCC 2074® and Salmonella thyphimuirim ATCC 2364®. Moreover, Staphylococcus aureus ATCC 1602® was resistant the fifteen bacteriocins selected in this work. Six strains of lactic acid bacteria (BALs) were selected for analysis of other probiotic properties. It was observed that one of these strains distinguished by presenting survival at pH 2.0 and pH 3.0 while the other showed only tolerance to pH 3.0. All strains were selected for the ability tolerance of 0.3% bile salts, of adhering to stainless steel surface and resistance to clindamycin, erythromycin and gentamycin. The technological properties, all six strains were capable of growth in milk and produced no unpleasant odor or post-acidification of the fermented milk during storage at 4°C for 28 days. It was noted, however, decreased from approximately 2,0 Log UFC.mL-1 in the viable cell count at the end of storage period. Finally, by evaluating the profiles of fermentation of carbohydrates and other biochemical reactions, two of the strains isolated from human milk have been identified as Enterococcus durans and Enterococcus avium as four. The results indicate that human milk is a potential source of probiotic bacteria with potential for industrial application. Bactérias láticas Bacteriocinas Bacteriocins Enterococcus Enterococcus Human milk Lactic acid bacteria Leite humano Probióticos Probiotics
47	Lactic acid bacteria as bio-preservatives in bakery : role of sourdough systems in the quality, safety and shelf life of bread Koy, Rebaz January 2017 (has links) Microbial contamination and survival during storage of bread are a cause of both health concerns and economic losses. Traditional fermentation systems were studied as sources of lactic acid bacteria (LAB) with antagonistic potential against foodborne pathogens and spoilage organisms, with the aim to improve the safety and shelf life of bakery products. The antagonistic activity of four types of buttermilk (BM) products fermented with Lactococcus lactis subsp. lactis was evaluated against a number of pathogenic bacteria to select the best fermented-BM for application as bio-preservatives in bread crumpets, showing up to 9 µg/ml of nisin equivalent antimicrobial activity. These food ingredients could be suitable to be used in crumpet formulations, BM fermented with Lc. lactis subsp. lactis and nisin influenced the quality and shelf life of crumpets; the pH value and firmness of products with fermented BM was lower and the acidity and springiness was higher than for unfermented BM treatment and control withouth additive. The nisin and fermented BM treatment had beneficial effects on the pore size and colour in comparison with the control, and improved microbial shelf life by 2 days. Commercial and traditional sourdough and bread samples (n=18) were collected to assess the diversity of LAB strains and potential properties when applied to dough and bread. DGGE followed by sequencing showed that Lactobacillus was the predominant genus in the studied sourdoughs. Lb. plantarum and Lb. brevis strains accounted for 69% of the 32 isolates, out of which 10 were amylolytic and 12 had proteolytic activity. Most were also good acid producers after 24 h at 30°C. Some LAB strains presented a strong in vitro inhibitory activity against five indicator strains, showing potential as starter cultures to ferment sourdough. In subsequent experiments, the properties of 24 sourdoughs were evaluated, and one of them, fermented with Lb. plantarum (SIN3) yielded low pH value, high lactic acid production, and suitable microbial growth, and was selected for further bread making performance trials. The bread with fast fermentation and high sourdough concentration (FFHSD) had a lower pH, higher acidity and increased the quality attributes with significantly better shelf life comparing to the other treatments during the storage period. Sensory evaluation demonstrated that fast-fermented breads were more acceptable than the slow-fermented counterparts. Bread prepared with high level (18%) of sourdough fast-fermented with the selected culture (SIN3) had a good eating quality and shelf life. The approach of this study is likely to yield feasible improvements of the current methods of preparation of baking goods. 664
48	Enterococos em amostras de alimentos e águas: avaliação da virulência e do desempenho como indicadores de higiene / Enterococci in samples of food and water: evaluation of their virulence markers and their suitability as hygiene indicators Malavazi, Bruna Carrer Gomes 13 September 2007 (has links) Enterococcus spp. pertencem ao grupo das bactérias láticas e estão presentes em solos, águas, plantas, microbiota autóctone de vários alimentos e como membros da microbiota intestinal de humanos e animais. Esses microrganismos foram considerados por muito tempo como comensais, mas o aumento da severidade das infecções nosocomiais causadas por enterococos mutirresistentes a antimicrobianos e, a falta de conhecimento sobre seus fatores de virulência geram insegurança na utilização de cepas deste gênero na produção de alimentos como culturas fermentadoras e/ou probióticas. A diferença entre uma cepa de enterococos com potencial patogênico e outra aparentemente segura para uso em processamento de alimentos não é clara, e a probabilidade de que esta última adquira fatores de virulência merece investigação. O objetivo do presente projeto foi determinar características fenotípicas e genotípicas de Enterococcus spp. isolados de amostras de alimentos e águas correlacionando sua presença com indicadores clássicos de higiene e contaminação fecal. De 812 colônias indicativas do gênero enterococos obtidas a partir de 120 amostras de alimentos, 299 isolados (37%) foram presuntivamente caracterizados como Enterococcus spp. Após identificação por PCR, 139 (46,5%) E. faecium, 80 (26,8%) E. faecalis, 36 (12%) E. casseliflavus e 8 (2,7%) E. gallinarum. Produção de gelatinase foi detectada apenas em isolados de E. faecalis (60%). Um isolado de E. faecium (0,7%) e 31 isolados de E. faecalis (38,7%) apresentaram perfil β-hemolítico. Produção de bacteriocina contra Lactobacillus sakei e/ou Listeria monocytogenes foi observada para 10% dos isolados de E. faecalis e 23% dos isolados de E. faecium. Hidrólise de sais biliares foi observada para 100% dos isolados de E. gallinarum, 86% E. casseliflavus, 65% E. faecalis e 62,6% de E. faecium. Alguns isolados de E. faecium apresentaram resistência à vancomicina, eritromicina e tetraciclina. Entre os isolados de E. faecalis não houve resistência à vancomicina, mas foi observada resistência à tetraciclina, eritromicina e alta concentração de gentamicina. Houve uma maior prevalência dos genes de virulência (esp, gel, ace, as, efaA e cylA) entre os isolados de E. faecalis quando comparado a E. faecium. Além disso, os isolados de E. faecalis, resistentes a antibióticos, mostraram forte adesão a células Caco-2 e capacidade de formação de biofilme em superfície abiótica. RAPD-PCR individualizou 14 cepas de E. faecium e 17 cepas de E. faecalis dentre os 52 isolados Enterococcus spp. resistentes a antibióticos. A variabilidade dos resultados impediu o estabelecimento de uma correlação entre a presença ou contagem de coliformes, E. coli e enterococos nas amostras analisadas. Os dados deste trabalho sobre marcadores fenotípicos e genotípicos de virulência, e a presença de cepas resistentes a antibióticos evidenciam a necessidade da avaliação cuidadosa de linhagens de enterococos para aplicações em alimentos. / Enterococcus spp. belong to the group of lactic acid bacteria widely distributed in soil, plants, foods, animals and humans. In the past, these microorganisms were considered commensals but the increase of antibiotic-resistant enterococci and the lack of knowledge about their virulence markers, had raised concerns regarding the safety of using strains of this genus in the food production as fermentative or probiotic cultures. Besides this, literature data suggests the use of enterococci as sanitary indicator for foods. Differences between enterococci strains with pathogenic potential and an apparently safe ones is unclear and there is a concern about virulence markers transfer. The aim of this work was to determine phenotypic and genotypic characteristics of Enterococcus spp. isolated from foods and water and also to correlate their presence with classical indicators of sanitary quality. Out of 812 presumptive enterococci colonies obtained from 120 food samples, 299 isolates (37%) were presuntively characterized as Enterococcus spp. Isolates were identified by PCR: 139 (46.5%) E. faecium, 80 (26.8%) E. faecalis, 36 (12.0%) E. casseliflavus and 8 (2.7%) E. gallinarum. Only E. faecalis isolates (60%) produced gelatinase. One E. faecium (0.7%) and 31 E. faecalis (38.7%) were β-haemolytic. Bacteriocin activity against Lactobacillus sakei and/or Listeria monocytogenes was observed for 10% of the E. faecalis and for 23% of the E. faecium isolates. All E. gallinarum isolates, 86% of the E. casseliflavus, 65% of the E. faecalis and 62.6% of the E. faecium isolates showed bile salt hydrolysis activity. Some E. faecium isolates were resistant to vancomycin, erythromycin and tetracycline. Vancomycin resistance was absent among the E. faecalis but, resistance to tetracycline, erythromycin and highlevel gentamicin was observed. There was a higher prevalence of virulence genes (esp, gel, ace, as, efaA e cylA) among the E. faecalis isolates when compared to the E. faecium. Antibiotic resistant E. faecalis isolates strongly adhered to Caco-2 cells and formed biofilm on abiotic surface. Using RAPDPCR 14 E. faecium and 17 E. faecalis strains could be individualized from the 52 antibiotic resistant enterococci. It was not possible to correlate the presence of total coliforms, E. coli and Enterococcus spp. in the samples of food and water analysed due to results variability. Data obtained regarding phenotypic and genotypic virulence markers and the presence of antibiotic resistant enterococci raise the needs of a carefully evaluation of the Enterococcus spp. strains before future applications in foods. Bacteriocinas Bacteriocins Enterococci Enterococos Fatores de virulência Hygiene indicators Indicadores de higiene Probióticos Probiotics Virulence factors
49	Avaliação da ação dos ingredientes da matriz alimentar na atividade antilisteria das bacteriocinas produzidas por Lactobacillus sakei subsp. sakei 2a / Evaluation of the action of food ingredients on the antilisterial activity of the bacteriocins produced by Lactobacillus sakei subsp. sakei 2a. Barbosa, Matheus de Souza 27 February 2009 (has links) A aplicação das bacteriocinas de bactérias láticas como agentes de bioconservação de alimentos é dependente de vários fatores, com destaque para composição química do alimento que pode interferir na eficácia da atividade antimicrobiana. Esse estudo objetivou avaliar a influência de ingredientes da matriz alimentar na multiplicação e produção das bacteriocinas por Lactobacillus sakei subsp. sakei 2a e na atividade das bacteriocinas produzidas, trabalhando-se com um modelo composto de extrato de carne, extrato de levedura, proteose peptona e amido, adicionado de 4% de NaCl e/ou 0,5% de glicose e mantido em refrigeração (4° C) por até 10 dias. O estudo foi realizado com os seguintes materiais contendo as bacteriocinas: 1. sobrenadante concentrado livre de células obtido a partir da cultura de L. sakei 2a em caldo MRS; 2. extrato ácido neutralizado obtido do sedimento da cultura em caldo MRS e 3. extrato ácido neutralizado e semi-purificado por cromatografia líquida. Listeria monocytogenes Scott A foi empregada como microrganismo indicador da atividade antimicrobiana e Lactobacillus sakei ATCC 15521 como controle não produtor de bacteriocinas. Os resultados indicaram que nenhum dos ingredientes do modelo avaliado teve papel importante na multiplicação de L. sakei 2a e na bacteriocinogênese. No entanto, 4% de NaCl interferiu negativamente na produção das bacteriocinas, enquanto 0,5% de glicose auxiliou a produção, mesmo na presença de 4% de NaCl. Em relação à atividade das bacteriocinas, verificou-se que nem os ingredientes do modelo, nem 4% de NaCl e nem 0,5% de glicose apresentaram interferência marcante ao longo dos dez dias estudados, independentemente do material contendo as bacteriocinas testado. / The application of bacteriocins produced by lactic acid bacteria as biopreservatives in foods depends of several factors, such as the chemical composition of the food, which can interfere with the antimicrobial activity. This study aimed to evaluate the influence of food ingredients on the growth and production of bacteriocins by Lactobacillus sakei subsp. sakei 2a, and on the activity of the bacteriocins produced, by means of a food model prepared with meat extract, yeast extract, proteose-peptone and starch, added of 4% 4% de NaCl and/or glucose, maintained under refrigeration (4° C) for up to 10 days. The study was carried out with the following bacteriocins-containing materials: 1. the concentrated cell-free supernatant from an overnight culture of L.sakei 2a in MRS broth; 2. acid extract obtained from the sediment of the overnight culture of L. sakei 2a in MRS broth and 3. acid extract submitted to a semi-purification by HPLC. Listeria monocytogenes Scott A was used as the antimicrobial activity indicator microorganism and Lactobacillus sakei ATCC15521 as the non-bacteriocinogenic negative control. Results indicated that none of the ingredients presented a significant role in the growth of L.sakei 2a, and in the production and activity of the bacteriocins. However, 4% of NaCl caused a reduction on the production of bacteriocins, while 0,5% of glucose stimulated their production, even in the presence of 4% of NaCl. The interference of the ingredients of the model, 4% of NaCl and/or 0,5% of glucose on the activity of the bacteriocins was not marked, regardless the materials used in the tests. Lactobacillus sakei Lactobacillus sakei Listeria monocytogenes. Listeria monocytogenes. Bacteriocinas Bacteriocins Food models Matriz alimentar
50	Caracterização de bacteriocinas produzidas por Carnobacterium maltaromaticum C2,isolado de peixe defumado brasileiro (Surubim, Pseudoplatystoma sp.) / Characterization of bacteriocins produced by Carnobacterium maltaromaticum C2, isolated from Brazilian smoked fish (Surubim, Pseudoplatystoma sp.) Tulini, Fabricio Luiz 09 August 2011 (has links) O aumento na demanda por alimentos saudáveis e minimamente processados impulsiona a busca por novos agentes antimicrobianos. As bacteriocinas são peptídeos produzidos via ribossomo por algumas espécies de bactérias, podendo ser usadas na conservação e garantia da inocuidade de alimentos, não apresentando as possíveis ações tóxicas de conservadores clássicos amplamente utilizados na indústria alimentícia. Carnobacterium maltaromaticum C2 foi isolado de peixe defumado brasileiro (Surubim, Pseudoplatystoma sp.), e apresenta grande capacidade de inibir a multiplicação de Listeria monocytogenes, demonstrando seu potencial para aplicação na bioconservação de alimentos. Em estudos anteriores, foi demonstrado que essa linhagem bacteriana produz compostos antimicrobianos de origem proteica. Neste trabalho, foram avaliados aspectos gerais da produção de bacteriocinas por C. maltaromaticum C2, assim como sua purificação e caracterização. C. maltaromaticum C2 produz bacteriocinas entre 5 e 25ºC, com ótimo entre 20 e 25ºC. Do mesmo modo, a produção desses compostos foi maior em caldo APT (All purpose Tween), entretanto para as etapas de purificação foram utilizados o caldo BHI (Brain heart infusion) e CAA (Casamino acids), por causarem menos interferência no processo. Lactobacillus sakei e L. monocytogenes foram inibidos pelas bacteriocinas parcialmente purificadas produzidas por C. maltaromaticum C2, e seus peptídeos antimicrobianos apresentaram moderada estabilidade térmica quando expostos a 100ºC por 30 minutos. Foram utilizadas duas técnicas para extração e purificação das bacteriocinas, a técnica de adsorção-dessorção às células produtoras, e a purificação com a resina XAD-16, baseada em interações hidrofílicas e hidrofóbicas com os peptídeos, seguida de extração em fase sólida, sendo que este último processo de purificação resultou em um extrato com alto teor de pureza, como observado durante as análises por cromatografia líquida de alta eficiência em coluna de fase reversa. Com o auxílio de técnicas de espectrometria de massas, foi detectado nos extratos obtidos a presença das carnobacteriocinas BM1 e B1, assim como o peptídeo antimicrobiano CbnX. Este trabalho é pioneiro na purificação de CbnX, pois anteriormente havia somente a descrição de seu gene, mas não havia sido descrita a purificação do peptídeo. Neste sentido, a linhagem estudada é única até o momento e poderá favorecer estudos de expressão gênica de bacteriocinas, bem como a otimização de processos de bioconservação. / The high demand for healthy and minimally processed foods has increased the search for new antimicrobial agents. Bacteriocins are ribosomally synthesized peptides produced by some bacteria, and are useful for biopreservation and food safety, without the possible toxic effects of classical preservatives widely used in food industry. Carnobacterium maltaromaticum C2 was isolated from Brazilian smoked fish (Surubim, Pseudoplatystoma sp.), and it inhibits Listeria monocytogenes, an important foodborne pathogen. In previous studies, it was demonstrated that this bacterial strain produces bacteriocins. In this study, general aspects of the production of bacteriocins by C. maltaromaticum C2 were evaluated, as well as their purification and characterization. C. maltaromaticum C2 produces bacteriocins between 5 and 25ºC, with the optimum incubation temperature between 20 and 25ºC. Similarly, the production of these compounds was higher in APT (All-purpose Tween) broth. However, for the purification steps, BHI (Brain heart infusion) broth and CAA (Casamino acids) broth were used due to their low interference with the processes. Lactobacillus sakei and L. monocytogenes were inhibited by the partially purified bacteriocins produced C. maltaromaticum C2, and their antimicrobial peptides showed moderate thermal stability when tested at 100ºC by 30 minutes. Two techniques for extraction and purification of the antimicrobial peptides were used, the adsorption-desorption of bacteriocins to the producer cells, and the purification with XAD-16 resin, based on hydrophilic and hydrophobic interactions with the peptides, followed by a step of solid phase extraction. The latter resulted in an extract with high purity, as observed by the analysis with reverse-phase high performance liquid chromatography. With mass spectrometry techniques, carnobacteriocins BM1 and B1 were detected, as well as the antimicrobial peptide CbnX. This is an innovative work because the purification of CbnX had never been reported, except its gene. In this respect, this C. maltaromaticum strain is unique until this moment, and may promote researches on gene expression, as well the optimization of biopreservation processes.

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