RESUMO

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.

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Hyicin 3682, the first bacteriocin reported for Staphylococcus hyicus, is a BsaCOL variant produced by S. hyicus 3682, a strain isolated from bovine milk. Hyicin 3682 is found in the culture supernatant, is bactericidal and its producing strain exhibits a much broader spectrum of antimicrobial activity than the producing strain of BsaCOL against several Gram-positive bacteria, which include foodborne pathogens, food-spoilage microorganisms and bacterial species of medical and veterinary importance. Sequencing of the genome of S. hyicus 3682 provided the nucleotide sequence of the entire gene cluster involved in hyicin 3682 production, which seems to be located on pRJ109, the single plasmid carried by this strain. This gene cluster is expressed and consists of 8525bp and of eight genes (hyiA, hyiB, hyiC, hyiD, hyiP, hyiF, hyiE and hyiG) encoded on the same DNA strand. The mature lantibiotic exhibits 91% identity to BsaCOL and its molecular mass was found to be ∼26Da higher due to two amino acid substitutions. S. hyicus 3682 proved to be only partially immune to its cognate bacteriocin up to 1024 AU/ml. Therefore, hyicin 3682, the first Bsa variant reported in coagulase-negative staphylococci, does exhibit antimicrobial and siblicidal activities.

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Bacillus subtilis RC 218 was originally isolated from wheat anthers as a potential antagonist of Fusarium graminearum, the causal agent of Fusarium head blight (FHB). It was demonstrated to have antagonist activity against the plant pathogen under in vitro and greenhouse assays. The current study extends characterizing B. subtilis RC 218 with a field study and genome sequencing. The field study demonstrated that B. subtilis RC 218 could reduce disease severity and the associated mycotoxin (deoxynivalenol) accumulation, under field conditions. The genome sequencing allowed us to accurately determine the taxonomy of the strain using a phylogenomic approach, which places it in the Bacillus velezensis clade. In addition, the draft genome allowed us to use bioinformatics to mine the genome for potential metabolites. The genome mining allowed us to identify 9 active secondary metabolites conserved by all B. velezensis strains and one additional secondary metabolite, the lantibiotic ericin, which is unique to this strain. This study represents the first confirmed production of ericin by a B. velezensis strain. The genome also allowed us to do a comparative genomics with its closest relatives and compare the secondary metabolite production of the publically available B. velezensis genomes. The results showed that the diversity in secondary metabolites of strains in the B. velezensis clade is driven by strains making different antibacterials.

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Nisina é um peptídeo antimicrobiano natural produzido por Lactococcus lactis subsp. lactis ATCC 11454 durante a fase exponencial de crescimento. A bacteriocina é usada como conservante natural de alimentos, uma vez que mostra atividade antimicrobiana contra bactérias Gram-positivas e esporos. Tem potencial aplicação em inúmeros campos (farmacêutico, veterinário e cosméticos). O objetivo deste trabalho foi estudar a cinética de crescimento bacteriano e a produção de nisina em biorreator, utilizando leite desnatado diluído, como um meio de cultura a baixo custo. Também foram avaliados os consumos de açúcar e proteína, formação de ácido lático e adsorção de nisina nas células produtoras durante os processos de produção de nisina. Pré-cultivos com 107 UFC.mL-1 de Lactococcus lactis foram cultivados em biorreator de 2 L contendo 25 por cento de leite desnatado diluído em água (1,5 L, pH 6,7). Os ensaios foram esenvolvidos a 30°C por 52 horas, variando a agitação e aeração: (i) 200 rpm (0,0, 0,5, 1,0 e 2,0 L.min-1) e (ii) 100 rpm (0,0 e 0,5 L.min-1). A atividade de nisina foi avaliada pelo método de difusão em ágar, utilizando Lactobacillus sakei ATCC 15521 como microrganismo sensível à ação de nisina. A melhor concentração de nisina (62,68 mg.L-1 ou 2511,89 AU.mL-1), foi obtida em 16 horas, 200 rpm e sem aeração (kLa = 5,29 x 10-3 h-1). A adsorção de nisina nas células produtoras foram baixas (6,8 - 15,1 por cento), quando comparadas com a atividade do sobrenadante. Estes resultados mostraram que o meio de cultivo composto por leite desnatado diluído favoreceu o crescimento celular e produção associada ao crescimento da nisina. Foram realizados estudos preliminares de liofilização (bioconservação) e purificação por cromatografia da nisina produzida em biorreator. A liofilização apresentou perda da atividade de nisina (24,8 por cento), enquanto a purificação por cromatografia de interação hidrofóbica com resina Butyl-Sepharose,...

Nisin is a natural antimicrobial peptide produced by Lactococcus lactis subsp. lactis ATCC 11454 during its exponential growth phase. The bacteriocin is used as natural food preservative due to its antimicrobial activity against Gram-positive bacteria and outgrowth of spores. This property allows its application in numerous fields (pharmaceutical, veterinary and cosmetic). The aim of this work was to study the bacterial growth kinetics of L. lactis and respective nisin production in bioreactor, using diluted skimmed milk as an inexpensive medium. During the production, the consumption of sugar and protein, lactic acid formation and nisin adsorption on the producer strain cells were evaluated. Pre-cultivation with 107 UFC.mL-1 of L. lactis were expanded in a 2 L bioreactor containing 25 percent diluted skimmed milk in water (1.5 L, pH 6.7). The assays were performed at 30°C for 52 hours, varying agitation and airflow rate: (i) 200 rpm (0.0, 0.5, 1.0 and 2.0 L.min-1) and (ii) 100 rpm (0.0, 0.5 L.min-1). Nisin activity was evaluated through diffusion assays using Lactobacillus sakei ATCC 15521 as sensitive strain. The best nisin concentration (62.68 mg.L-1 or 2511.89 AU.mL-1), was achieved at 16 hours, 200 rpm and with no airflow rate (kLa = 5.29 x 10-3 h-1). The quantity of nisin adsorbed by the producer cells were low (6.8 -15.1 percent) when compared to the quantity released in the supernatant. These results showed that diluted skimmed milk supported cell growth and growth-associated nisin. Preliminary assays of lyophilization (biopreservation) and purification by chromatography of nisin produced in bioreactor were performed. Lyophilization presented a loss of nisin activity (24.8 percent) while purification by hydrophobic interaction chromatography with Butyl-Sepharose column recovered 40 percent of the activity, showing that both processes can be applied to the bacteriocin.

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