Fed-batch enhancement of jenseniin G, a bacteriocin produced by Propionibacterium thoenii (jensenii) P126

Jenseniin G is an antibotulinal bacteriocin (antimicrobial peptide) produced by the dairy culture, Propionibacterium thoenii (jensenii) P126. Activity from crude jenseniin G preparations isolated from static cultures was not detected in unconcentrated cultures before day 7. Activity was not detectable until the spent culture medium was concentrated 50-100 fold. Maximum activity (21 AU/ml) was observed in concentrated supernates at day 9. The production of bacteriocin jenseniin G was increased in fed-batch fermentations for 14 d at 32 degrees C in sodium lactate broth (NLB) containing 1.2% sodium lactate. Viable cell numbers in static and fed-batch cultures reached 1.2 and 5.4x10(9), respectively, during late exponential/early stationary phase (3 d). Concentrations of viable cells in fed-batch fermentations remained constant throughout the incubation period; those in static fermentations dropped after day 6 to a final concentration of 1.5x10(7). During fed-batch fermentations, jenseniin G was directly detected at day 5. In fed-batch fermentations, maximum activity in concentrated supernates (384 AU/ml) on day 12 provided an 18 fold increase over yields in static cultures and in fermenter without pH control, and 2.4 fold increase over yields in fermenter at controlled pH at 6.4. Fed-batch fermentation shows promise as a method to obtain high concentrations of industrially significant bacteriocins from dairy propionibacteria.     

Sensitization of gram-negative and gram-positive bacteria to jenseniin G by sublethal injury

Jenseniin G, a bacteriocin produced by Propionibacterium thoenii P126, is active against related propionibacteria and some lactic acid bacteria and is sporostatic to botulinal spores. The objective of this study was to evaluate the effects of sublethal stress on jenseniin G activity. Bacillus cereus, Enterococcus faecalis, Escherichia coli, Listeria monocytogenes, Salmonella Typhimurium, Shigella flexneri, Staphylococcus aureus, and Yersinia enterocolitica were subjected to temperature, acid, and osmotic stresses in the presence of jenseniin G. The bacteriocin reduced the viability of sublethally injured cultures, although the extent of reduction varied with strain and treatment. E. faecalis was the most sensitive to temperature stress; no reduction of viable counts occurred in the absence of jenseniin G, and a 1.5-log reduction occurred in the presence of jenseniin G. B. cereus, L. monocytogenes, and S. aureus were more sensitive to jenseniin G when exposed to heat stress than when exposed to cold stress, whereas E. coli, Salmonella Typhimurium, and S. flexneri were more sensitive to jenseniin G when exposed to cold stress than when exposed to heat stress. When comparing an acid stress test alone to a combination of acid stress and jenseniin G, E. faecalis and L. monocytogenes showed the greatest sensitivities with 4.87- and 2.82-log reductions, respectively, after 7 days. All cultures except for S. aureus were adversely affected by the combination of salt stress and jenseniin G. Salmonella Typhimurium showed the greatest sensitivity to salt stress with jenseniin G (a 1.54-log reduction at day 7) when compared to salt stress alone (a 0.55-log reduction at day 7). Jenseniin G, like bacteriocins produced by other gram-positive species, has broader activity against stressed organisms.     

Streptococcus thermophilus 580 produces a bacteriocin potentially suitable for inhibition of Clostridium tyrobutyricum in hard cheese

A strain of Streptococcus thermophilus that inhibits Clostridium tyrobutyricum has been isolated from raw milk. The active compound produced disappears after a treatment with protease. However, unlike most bacteriocins, it is not thermoresistant, and the activity is completely lost after 1 h at 60 degrees C. Its inhibitory spectrum is limited to other thermophilic streptococci, Brochothrix, and sporulated gram-positive rods. So this bacteriocin could be different from those already described. This bacteriocin-producing strain could be used in thermophilic starter for hard cheese making because the bacteriocin is not active against thermophilic lactobacilli. It is produced in M17 medium during the decreasing temperature phase of the hard cheese-making process temperature cycle and is also produced in milk. Moreover, when Streptococcus thermophilus was cocultured with a Lactobacillus delbrueckii subsp. lactis starter strain, it seems to enhance the bacteriocin production. However the level of activity always decreases drastically during the stationary phase. But inhibition of Clostridium tyrobutyricum spores can be obtained in small-scale curds.     

Lactic acid bacteria isolated from artisanal dry sausages: characterization of antibacterial compounds and study of the factors affecting bacteriocin production

Lactic acid bacteria (LAB) were isolated from artisanal dry sausages sampled from north-eastern region of Chaco, Argentina. Among 141 isolates, 27 showed antimicrobial activity against Listeria innocua, Staphyloccus aureus or Brochothrix spp. One isolate, identified as Lb. curvatus/sakei, produced bacteriocin like substances (BLIS). These BLIS were heat stable, effective after refrigerated storage and freeze/thaw cycles and even active against pathogens when produced under refrigeration at 3% NaCl concentration. The influence of several factors on production of BLIS was assessed in MRS broth added with: EDTA, ascorbic acid, KCl, potassium sorbate, sodium citrate, 3 and 6% NaCl, Tween 20 or Brij 35. These additives showed different effects towards the effectiveness of the bacteriocin produced by Lb. sakei/curvatus against L. innocua and S. aureus. Conditions that provided high cell density favored high bacteriocin production. BLIS production by this LAB strain was greatly influenced by NaCl concentration and the presence of surfactants.     

产细菌素屎肠球菌的筛选鉴定及其抑菌特性

从采自四川红原的传统发酵酸乳中分离得到308 株疑似乳酸菌,通过96 孔板法初筛和平板打孔法复筛,筛选出1 株具有明显抑菌作用的菌株SC-Y112。通过形态学观察、16S rDNA序列同源性分析和ropA管家基因序列同源性分析结合生理生化实验,鉴定该菌株为屎肠球菌（Enterococcus faecium）。通过排酸及排除H2O2影响后,该菌株的发酵上清液仍具有明显抑菌活性,经蛋白酶处理后,抑菌效果明显消失或下降,说明发酵上清液中的抑菌成分具有蛋白质性质。进一步探究该菌株所产细菌素的生物学特性、遗传稳定性及抑菌特性表明,该细菌素在菌株接种后6 h产生,12 h达到最高;菌株在连续传代86 代内,产细菌素能力较为稳定;细菌素在 pH 3.0～7.0的条件下稳定,在100 ℃处理30 min后仍具有抑菌活性;SC-Y112所产细菌素具有广谱抗菌性,对单核细胞性李斯特菌有明显的抑菌活性。     

Inhibition of Propionibacterium acnes lipase by extracts of Indian medicinal plants

Lipases play an important role in pathogenesis of acne by hydrolysing sebum triglycerides and releasing irritating free fatty acids in the pilosebaceous follicles. Lipase is a strong chemotactic and proinflammatory antigen. Therefore, lipase has generated a high interest as a pharmacological target for antiacne drugs. The aim of this study was to identify inhibitory effects of plant extracts on the lipase activity of Propionibacterium acnes. Colorimetric microassay was used to determine lipase activity. Extracts from Terminalia chebula and Embelia ribes showed lower IC(50) value (1 μg mL(-1) ) for lipase inhibition as compared to Vitex negundo and Picrorhiza kurroa (19 and 47 μg mL(-1) , respectively). The active component responsible for lipase inhibition was isolated. This study reports for the first time the novel antilipase activity of chebulagic acid (IC(50) : 60 μmol L(-1) ) with minimum inhibitory concentration value of 12.5 μg mL(-1) against P. acnes. The inhibitory potential of plant extracts was further confirmed by plate assay. The organism was grown in the presence of subinhibitory concentrations of extracts from P. kurroa, V. negundo, T. chebula, E. ribes and antibiotics such as clindamycin and tetracycline. Extract from T. chebula showed significant inhibition of lipase activity and number of P. acnes.     

抗食源性病原菌细菌素的筛选及特性研究

目的 筛选一种抗食源性病原菌的细菌素,并对其稳定性进行研究.方法 以食源性病原菌Bacillus cereus ATCC 14579、Listeria monocytogenes LM201、Listeria monocytogenes LM605为指示菌,采用琼脂扩散法筛选细菌素产生菌,通过离子交换树脂法和高效液相色...     

动物双歧杆菌细菌素bifidocin A群体感应合成调控行为分析

bifidocin A是由Bifidobacterium animalis BB04代谢合成的一种新型广谱高效细菌素。为探讨该细菌素的群体感应合成调控行为,本研究通过监测发酵过程中菌体生长及细菌素抑菌活性变化规律,分析菌体密度和细菌素合成的相关性;基于低产细菌素培养模型体系的构建,检测发酵上清液中是否存在群体感应自诱导肽,判断是否存在细菌素合成相关群体感应系统;并通过对发酵上清液中自诱导肽进行提纯和分子质量测定,初步明确其分子特性。结果表明,当菌体细胞达到活菌数为7.31（lg（CFU/mL））时,细菌素才开始合成;发酵过程中,菌体密度与细菌素的合成呈现正相关性;成功构建了低产细菌素培养模型体系,其培养条件为培养温度37?℃、培养基起始pH?5、培养基浓度1/10改良MRS（Man Rogosa Sharpe）培养基、接种量1%、培养时间24?h;基于此模型体系,确定发酵上清液中确实存在可以诱导细菌素合成的自诱导肽,细菌素bifidocin?A的合成是受群体感应系统调控的;通过对发酵上清液进行超滤管筛分、葡聚糖凝胶柱层析及高效液相色谱层析提纯,获得了高纯度自诱导肽样品;采用基质辅助激光解析电离飞行质谱测定其分子质量为3?587.253?Da。     

Occurrence of nisin Z production in Lactococcus lactis BFE 1500 isolated from wara, a traditional Nigerian cheese product

Screening for bacteriocin production of 500 strains of lactic acid bacteria (LAB) from various African fermented foods resulted in the detection of a bacteriocin producing Lactococcus lactis (BFE 1500) isolated from a dairy product called wara. The bacteriocin inhibited not only the closely related LAB, but also strains of Listeria monocytogenes, Listeria innocua, Clostridium butyricum, Clostridium perfringens, Bacillis cereus and Staphylococcus aureus. It was heat stable even at autoclaving temperature (121 degrees C for 15 min) and was active over a wide pH range (2-10), but highest activity was observed in the lower pH range. The bacteriocin was inactivated by alpha-chymotrypsin and proteinase K, but not by other proteases. Growth kinetic assay indicated stronger growth inhibition by the bacteriocin produced by Lc. lactis BFE 1500 on L. monocytogenes WS 2250 and B. cereus DSM 2301 than with the nisin A producing strain DSM 20729. Polymerase chain reaction indicated the presence of the nisin operon in strain BFE 1500 and sequencing of its structural gene showed that Lc. lactis BFE 1500 produced the natural nisin variant, nisin Z, as indicated by the substitution of asparagine residue instead of histidine at position 27. The genetic determinants for bacteriocin production in strain BFE 1500 are located on a conjugative transposon. The ability of the bacteriocin produced by Lc. lactis BFE 1500 to inhibit a wide range of food-borne pathogens is of special interest for food safety, especially in the African environment with perennial problems of poor food hygiene.     

Isolation of nisin-producing Lactococcus lactis WNC 20 strain from nham,a traditional Thai fermented sausage

A total of 14,020 lactic acid bacteria (LAB) were isolated from nham and screened for bacteriocin production. One Lactococcus lactis strain WNC 20 produced a bacteriocin that not only inhibited closely related LAB, but also some food-borne pathogens including Listeria monocytogenes, Clostridium perfringens, Bacillus cereus and Staphylococcus aureus. Biochemical studies revealed that the bacteriocin was heat-stable even at autoclaving temperature (121 degrees C for 15 min) and was active over a wide pH range (2-10). The bacteriocin was inactivated by alpha-chymotrypsin and proteinase K but not other proteases. The antimicrobial spectrum and some characteristics of this bacteriocin were nearly identical to that of nisin. The gene encoding this bacteriocin was amplified by polymerase chain reaction (PCR) with nisin gene-specific primer. Sequencing of this gene showed identical sequences to nisin Z as indicated by the substitution of asparagine residue instead of histidine at position 27. The ability of the bacteriocin produced by Lc. lactis WNC 20 may be useful in improving the food safety of the fermented product.     

An α-amylase sensitive bacteriocin of Leuconostoc carnosum

Leuconostoc carnosum LA54A isolated from processed meat produces an antimicrobial substance that inhibits the growth of strains of lactic acid bacteria, Listeria monocytogenes and Enterococcus faecalis. The antibacterial substance was sensitive to proteases suggesting that Lc. carnosum is producing a bacteriocin. The bacteriocin was in addition sensitive against the activity of different α-amylases indicating that the molecule consists of a protein and a carbohydrate moiety. The bacteriocin was active over a wide pH range with an optimum between pH 3 and 5. It was stable after heat treatment at 100°C for 15 min. Optimum production of the bacteriocin by Lc. carnosum was during the late logarithmic phase. The purified bacteriocin showed a molecular weight of about 4000 Da when analyzed by SDS-polyacrylamide gel electrophoresis.     

Charakterisierung einiger Bacteriocine im Hinblick auf mögliche Anwendungen im Lebensmittelbereich. 1. Mitt. Stammauswahl

Characterization of some bacteriocins with regard to possible applications in food industry. Part 1. Selection of strains. The ability to produce bacteriocins is common in all genera of lactic acid bacteria. Thirty-four out of 223 strains of lactic acid bacteria from the culture collection of the University Potsdam produced bacteriocins active against one or more indicator strains. Seventeen Gram-positive and Gram-negative strains, frequent occur as spoilage bacteria in food industry, were chosen as indicator strains, and 11 of them were inhibited by one or several bacteriocin producers. Most of the bacteriocin producers belong to the genera Enterococcus or Lactobacillus. Bacteriocins derived from Enterococcus faecium and Pediococcus acidilactici exhibited the widest inhibitory spectrum. The properties of Enterococcus faecium 10.051 and Enterococcus faecium 10.211 bacteriocins were further investigated to evaluate their potential use as natural food preservatives. The bacteriocin produced by Enterococcus faecium 10.211 exhibited a very wide inhibitory spectrum against food-spoiling strains. It was heat stable (100 °C for 60 min) and stable in a wide range of pH (1.2–10.0). The bacteriocin produced by Enterococcus faecium 10.051 showed a smaller inhibitory spectrum, and it was less stable against temperature and pH as the bacteriocin from strain 10.211. Both bacteriocins were inactivated by proteinase K. pronase E, and α-chymotrypsin. Bacteriocin from strain 10.211 will be the object of further investigations for application of bacteriocins in food industry.     

Functional Properties of Pediococcus Species Isolated from Traditional Fermented Cereal Gruel and Milk in Nigeria

Pediococcus species were isolated from ogi, fermented cow and sheep milk. Functional properties such as hydrogen peroxide production, tolerance to simulated gastric transit with pepsin and bile salts, bile salt hydrolytic (BSH) activity, in vitro adherence assay and antimicrobial characteristics were carried out. The strains tolerated bile salts and BSH activity was positive. Pediococcus acidilactici OB4 survived gastric transit after 180min comparable to a probiotic strain, L. acidophilus CNRZ1923. The strains exhibited good adhesion to the three extracellular matrices. Two isolates (P. acidilactici OB4 and P. pentosaceus SM3) produced bacteriocin. Bacteriocins were stable at pH 4-9 and on treatment with lipase, catalase, α-amylase and lysozyme, while their activity was lost on treatment with proteinase K, pronase E, pepsin and trypsin. The bacteriocins produced by P. pentosaceus SM3 was heat stable at 100°C for 10 min while P. acidilactici OB4 was stable at 100°C for 30 min. The bacteriocin produced by P. acidilactici OB4 was identified as PedA while P. pentosaceus SM3 was PedB. The bacteriocins had relative heat stability, high anti-listerial activity and a good spectrum of activity against some pathogenic microorganisms. The results demonstrated possible inclusion in a starter culture fermentation process of food and dairy products and safety characteristics.     

1 株水开菲尔粒中植物乳杆菌的鉴定及产细菌素基因分析

目的：对从水开菲尔粒中分离得到1 株能产生抑菌物质的菌株QF01进行菌种鉴定,并对其产细菌素进行实验、鉴定和基因序列分析。方法：通过牛津杯法测定抑菌能力,采用聚合酶链式反应（polymerase chain reaction,PCR）扩增16S rDNA和细菌素相关基因并测序,利用ProParam tool、TMHMM 2.0、InterProScan、SOPM和SWISS-MODEL在线软件对基因编码产物进行分析。结果：该菌株产的细菌素对大肠杆菌（Escherichia coli JM109）有明显的抑制作用,通过16S rDNA序列分析初步确定该菌株属于植物乳杆菌（Lactobacillus plantarum）。该菌株含有plnD、plnEF、plnV、plnR四种基因,其中plnV基因编码产物有跨膜螺旋结构,其结构存在信号肽特征。此外,从三级结构的模型预测得到4?种基因的编码产物均存在α-螺旋、β-转角、伸展链和无规则卷曲。结论：从水开菲尔粒分离得到的L. plantarum QF01菌株,含有plnD、plnEF、plnV、plnR细菌素基因,对大肠杆菌有很好的抑制作用。     

Antilisterial and amylase-sensitive bacteriocin producing Enterococcus faecium SH01 from Mukeunji,a Korean over-ripened kimchi

A bacteriocinogenic strain identified as Enterococcus faecium SH01 was isolated from mukeunji, a Korean traditional over-ripened kimchi with antimicrobial activities against Listeria monocytogenes KCTC 3569 and Lactobacillus curvatus KFRI 166. The maximum bacteriocin titer (1,280 AU/mL) was detected at the early stationary phase and was maintained for 28 h with no activity loss. The bacteriocin activity, which disappeared after treatment with the proteolytic enzymes α-chymotrypsin, pronase E, proteinase K, and trypsin, was partially inactivated using α-amylase. The activity of bacteriocin SH01 remained after heat treatment (121°C, 15 min) and exposure to pH values from 2–12. The molecular weight of crude bacteriocin SH01 was 3 kDa. The bacteriocin production phenotype (Bac⁺) was linked to a 6 kb plasmid. Bacteriocin SH1 production was not induced by the co-presence of viable cells, heat treatment, or a cell-free indicator supernatant. The mode of action of bacteriocin SH1 was bactericidal.     

Characterization of a 3944 Da bacteriocin, produced by Enterococcus mundtii ST15, with activity against Gram-positive and Gram-negative bacteria

Strain ST15, isolated from soy beans, and identified as Enterococcus mundtii, produces a 3944 Da bacteriocin that inhibits the growth of Lactobacillus sakei, Enterococcus faecalis, Bacillus cereus, Propionibacterium sp., Clostridium tyrobutyricum, Acinetobacter baumanii, Klebsiella pneumoniae, Pseudomonas aeruginosa, Staphylococcus aureus, Streptococcus pneumoniae and Streptococcus caprinus. Bacteriocin ST15 is inactivated by proteinase K, pronase, pepsin, protease and Triton X-114, but not when treated with catalase, alpha-amylase, Triton X-100, SDS, Tween 20, Tween 80, urea and EDTA. No change in activity was recorded after 2 h at pH values between 2.0 and 12.0, and after treatment at 100 degrees C for 90 min. Activity was, however, lost after treatment at 121 degrees C for 20 min. The mode of activity is bactericidal. The highest level of activity (51200 AU ml(-1)) was recorded when cells were grown in MRS broth, pH 6.5. Bacteriocin ST15 differs from other broad-spectrum bacteriocins described for Enterococcus spp. by being active against Gram-negative bacteria and by being smaller.     

Characterization of the 16S-23S and 23S-5S rRNA intergenic spacer regions of dairy propionibacteria and their identification with species-specific primers by PCR.

In this study, the 16S-23S and 23S-5S rRNA intergenic spacer region sequences of Propionibacterium acidipropionici, P. freudenreichii ssp. freudenreichii and ssp. shermanii, P. jensenii and P. thoenii were determined. The sequences were shown to vary greatly between the species. Specific primer pairs were derived from the 16S-23S rRNA spacer sequences and used for the identification of the species by PCR.     

Characterization of bacteriocin N15 produced by Enterococcus faecium N15 and cloning of the related genes

Enterococcus faecium N15 was isolated from nuka (Japanese rice-bran paste), which is utilized as starter in the fermenting of vegetables, and was found to produce a bacteriocin that exhibited a broad spectrum of activity, including activity against Listeria monocytogenes and Bacillus circulans JCM2504. The bacteriocin was sensitive to proteases (alpha-chymotrypsin, proteinase K, trypsin, and pepsin) and alpha-amylase, but it was resistant to lipase. The bacteriocin was resistant to heat treatment at 100 degrees C for 2 h, but its activity was completely lost after autoclaving at 121 degrees C for 15 min. It was active over a wide pH range from 2.0 to 10.0. The bacteriocin showed bactericidal activity against Lactobacillus sake JCM1157 at a concentration of 40 AU/ml. Its molecular weight was estimated by SDS-PAGE to be about 3-5 kDa. PCR primers were designed based on the conserved amino acid sequences of class IIa bacteriocins. A 3-kb DNA fragment was amplified and three open reading frames (ORFs) were found. The first encodes a probable immunity protein of 103 amino acid residues and shows complete homology with the putative immunity protein of E. faecium DPC1146. The second and third ORFs respectively encode a probable transposase gene and an inducing factor. The upstream region of the immunity gene, in which the bacteriocin structural gene is located, was amplified. A homology search revealed that the bacteriocin produced by E. faecium N15 exhibits complete identity to enterocin A, a bacteriocin produced by E. faecium DPC1146. PCR using the primers designed in this study is a rapid and sufficient method of screening for bacteriocin-producing strains.     

In vitro fermentation studies for selection and evaluation of Bacillus strains as starter cultures for the production of okpehe, a traditional African fermented condiment

Selected Bacillus and Enterococcus strains, isolated from traditional okpehe fermentations, were studied for their suitability as starter cultures in laboratory-scale fermentations of Prosopis africana seeds for the production of okpehe, a traditional fermented vegetable product of Nigeria. The strains were selected on the basis of highest proteolytic activity, as determined with the APIZYM (BioMerieux) test. The choice of starter strains was narrowed to Bacillus subtilis strains BFE 5301 and BFE 5372. These were determined as the best starter combination because of rapid growth, high amylolytic and proteolytic activities, high levels of polyglutamic acid production by strain BFE 5372, as well as bacteriocin production by strain BFE 5301. Other mixed culture fermentations did not yield sensorically acceptable products. Although a monoculture fermentation, using only B. subtilis strain BFE 5372, produced okpehe with very good sensory characteristics, the growth of B. cereus could be detected after 48 h fermentation, indicating that this starter did not sufficiently contribute to product safety. Mixed culture fermentation with the combination of bacteriocin-producing starter B. subtilis BFE 5301 and the non-bacteriocin-producing B. subtilis BFE 5372, produced a product with good sensory characteristics, in which growth of B. cereus was delayed. The bacteriocin produced by B. subtilis strain BFE 5301 was identified as subtilisin, using subtilisin-specific primers and PCR amplification of the subtilisin gene. The bacteriocin was heat-stable at 100 degrees C for 10 min and exhibited highest activity at pH values lower or equal to pH 6.0. The bacteriocin was sensitive to the proteolytic enzymes trypsin and alpha-chymotrypsin at concentrations of 10 mg/ml.     

Purification, partial characterisation and mode of action of enterococcin EFS2, an antilisterial bacteriocin produced by a strain of Enterococcus faecalis isolated from a cheese

Enterococcus faecalis strain EFS2, isolated from the surface of a traditional cheese, produced a bacteriocin active against Gram-positive bacteria including Listeria spp. and some Staphylococcus aureus strains. The bacteriocin, named enterococcin EFS2, has been purified to homogeneity by ammonium sulphate precipitation and reversed-phase high performance liquid chromatography (RP-HPLC). The molecular weight was determined by mass spectrometry to be 7149.6. The amino acid composition of enterococcin EFS2 revealed that it contained 67 amino acid residues and had a blocked amino-terminal end. Enterococcin EFS2 induced viability loss, efflux of K⁺ ions and ATP, and cell lysis. Kinetic study of bactericidal activity of enterococcin EFS2 on Listeria innocua strain LIN 11 indicated slower cell destruction than by nisin. At pH 7.0, the activity of enterococcin EFS2 was the highest at 35 °C and was lost at 15 °C. The bacteriocin was more active against L. innocua strain LIN11 in broth adjusted to pH 6.0, 7.0 and 8.0 than to pH 4.5 at 30 °C.