Characterization of the three selected probiotic strains for the application in food industry

Previously selected bacterial probiotic strains Enterococcus faecium L3, Lactobacillus plantarum L4 and Lactobacillus acidophilus M92 have shown their potential as functional starter cultures in silage, white cabbage and milk fermentation. Therefore, the phenotypic and genotypic characteristics important for their application in food industry were investigated. Pulsed-field gel electrophoresis (PFGE) of NotI digested genomic DNA, in combination with physiological traits determined by API tests, made a useful tool for identification of these probiotic strains and differentiation among them. Lyophilized probiotic cells remained viable during 75 days of storage at −20, +4 and +15°C, while fresh concentrated cells remained viable only at −20°C with addition of glycerol as cryoprotectant. After the lyophilization with addition of skim milk as lyoprotectant, the viability of L. acidophilus M92, L. plantarum L4 and E. faecium L3 was reduced by only 0.37, 0.44 and 0.50 log, respectively. Furthermore, probiotic strains L. acidophilus M92, L. plantarum L4, and E. faecium L3, demonstrated anti-Salmonella activity, and L. acidophilus M92 having also antilisterial activity demonstrated by in vitro competition test. Overnight cultures and cell-free supernatants of the three probiotic strains exerted also an antagonistic effect against the Gram-positive and Gram-negative test microorganisms examined, demonstrated by the agar-well diffusion test. The inhibition of Listeria monocytogenes, Salmonella typhimurium, Yersinia enterocolitica, and Acinetobacter calcoaceticus obtained, achieved by the neutralized, 5-fold concentrated supernatant of L. plantarum L4, may be the result of its bacteriocinogenic activity. On the basis of these results, the application of the three examined probiotic strains may become a point of great importance in respect of food safety.     

The effect of bile salts on survival and morphology of a potential probiotic strain Lactobacillus acidophilus M92

Bile tolerance is an important criterion in the selection of microbial strains for probiotic use. The survival and morphological changes of a potential probiotic strain, Lactobacillus acidophilus M92, in the presence of bile salts were examined. Lactobacillus acidophilus M92 has shown a satisfactory degree of tolerance against oxgall and individual bile salts tested, especially to taurocholate. The higher resistance of L. acidophilus M92 against taurine-conjugated bile salts relative to deconjugated and glycine-conjugated bile salts was attributed to its reaction to the stronger acidity of the former. Furthermore, bile salt hydrolase (BSH) was active when L. acidophilus M92 was grown in the presence of sodium taurocholate. The rate of BSH activity was highest at the exponential growth phase. It was hypothesised that BSH activity may be important for the bile salt resistance of this strain. The colonial and cellular morphology may also be a valuable parameter in the selection of bile salt-resistant Lactobacillus strains for probiotic use. Smooth (S) and rough (R) colonies, appeared in the original L. acidophilus M92 bacterial culture and demonstrated a different degree of bile tolerance. Rough colonies were more sensitive to bile salts than smooth ones. The R colony cells assumed a round form, probably induced by gaps in the cell wall caused by the cytotoxicity of glycodeoxycholate. This revised version was published online in July 2006 with corrections to the Cover Date.     

Rapid Identification of <Emphasis Type="Italic">Lactobacillus</Emphasis><Emphasis Type="Italic">acidophilus</Emphasis> by Restriction Analysis of the 16S–23S rRNA Intergenic Spacer Region and Flanking 23S rRNA Gene

A rapid molecular approach was developed for the initial identification of Lactobacillus acidophilus strains which are difficult to identify using a single biochemical test. The 16S–23S rRNA intergenic spacer regions and flanking 23S rRNA genes of 19 strains of lactobacilli were amplified and the nucleotide sequences and restriction site polymorphisms were analyzed. AluI was the most useful of the restriction enzymes analyzed and produced reproducible digestion profiles in the L. helveticus, L. plantarum, and L. casei groups, as well as in L. acidophilus. This restriction fragment length polymorphism method may be useful for the identification of L. acidophilus strains in dairy products.     

Effects of <Emphasis Type="Italic">Lactobacillus plantarum</Emphasis> MA2 isolated from Tibet kefir on lipid metabolism and intestinal microflora of rats fed on high-cholesterol diet

The objective of this study was to evaluate the effects of Lactobacillus plantarum MA2, an isolate from Chinese traditional Tibet kefir, on cholesterol-lowering and microflora of rat in vivo. Rats were fed on cholesterol-enriched experimental diet, supplemented with lyophilized L. plantarum MA2 powder, with a dose of 10¹¹ cells/day per mice. The results showed that L. plantarum MA2 feeding significantly lowered serum total cholesterol, low-density lipoprotein cholesterol, and triglycerides level, while there was no change in high-density lipoprotein cholesterol. In addition, liver total cholesterol and triglycerides was also decreased. However, fecal cholesterol and triglycerides was increased significantly (P < 0.05) in comparison with the control. Also, L. plantarum MA2 increased the population of lactic acid bacteria and bifidobacteria in the fecal, but it did not change the number of Escherichia coli as compared to control. Moreover, pH, moisture, and organic acids in the fecal were also measured. The present results indicate the probiotic potential of the L. plantarum MA2 strain in hypocholesterolemic effect and also increasing the probiotic count in the intestine.     

Comparison of pH and Bile Resistance of Lactobacillus acidophilus Strains Isolated from Rat, Pig, Chicken, and Human Sources

Summary To provide a useful screening method for selecting probiotics, we compared the pH and bile resistance of four strains of Lactobacillus acidophilus, KCTC3140, KCTC3146, KCTC3154, and KCTC3179, isolated from a rat, pig, chicken, and human, respectively. When we compared the pH resistance of these strains at pH 2, 3, 4, 5 and 7, we found that L. acidophilus isolated from the rat, chicken, and pig showed little or no decrease in viable cell numbers, except at 240 min, whereas the numbers of L. acidophilus KCTC3179 from the human decreased significantly. All four strains were slightly suppressed over time and showed bile resistance, even at 3%. At 5% oxgall, the number of KCTC3179 rapidly decreased at 30 min. These results indicate that lactic acid bacteria selected for probiotic use should be screened at pH 2 for 120 min and/or at an oxgall concentration of 5% for 30 min.     

Characterisation of IS153, an IS3-family Insertion Sequence Isolated from Lactobacillus sanfranciscensis and its use for Strain Differentiation

An insertion sequence has been identified in the genome of Lactobacillus sanfranciscensis DSM 20451^T as segment of 1351 nucleotides containing 37-bp imperfect terminal inverted repeats. The sequence of this element encodes two out of phase, overlapping open reading frames, orfA and orfB, from which three putative proteins are produced. OrfAB is a transframe protein produced by –1 translational frame shifting between orf A and orf B that is presumed to be the transposase. The large orfAB of this element encodes a 342 amino acid protein that displays similarities with transposases encoded by bacterial insertion sequences belonging to the IS3 family.In L. sanfranciscensis type strain DSM 20451^T multiple truncated IS elements were identified. Inverse PCR was used to analyze target sites of four of these elements, but except of their highly AT rich character not any sequence specificity was identified so far. Moreover, no flanking direct repeats were identified. Multiple copies of IS 153 were detected by hybridization in other strains of L. sanfranciscensis. Resulting hybridization patterns were shown to differentiate between organisms at strain level rather than a probe targeted against the 16S rDNA. With a PCR based approach IS 153 or highly similar sequences were detected in L. acidophilus, L. casei, L. malefermentans, L. plantarum, L. hilgardii, L. collinoides L. farciminis L. sakei and L. salivarius, L. reuteri as well as in Enterococcus faecium, Pediococcus acidilactici and P. pentosaceus.     

Antagonistic activity of Lactobacillus acidophilus RY2 isolated from healthy infancy feces on the growth and adhesion characteristics of enteroaggregative Escherichia coli

Enteroaggregative Escherichia coli (EAggEC) infection is an important cause of acute diarrhea, affecting children in developing countries and travelers visiting tropical or subtropical areas. Three probiotics can exert bacteriostatic or bactericidal effects on human and animal intestinal pathogens, the efficiency of probiotics on EAggEC infection remains unclear. In this study, the antagonistic activity of probiotic bacteria isolated from infant faeces was examined against several EAggEC stains. While three isolates, Lactobacillus acidophilus RY2, Lactobacillus salivarius MM1 and Lactobacillus paracasei En4 were shown to significantly inhibit the growth of EAggEC. In addition, the antagonistic activity of the Lactobacillus species was maintained despite heating (100 °C, 15 min) of cell free culture supernatant (CFCS). The antagonistic activity of the CFCS however, could be reduced following lactate dehydrogenase treatment and at pH 7.2. Furthermore, in an adhesion–inhibition assay, L. acidophilus RY2 was shown to be more effective than L. salivarius MM1 and L. paracasei EN4. This study suggests that L. acidophilus RY2 could be used as a probiotic organism against EAggEC.     

Measurement of particle diameter of <Emphasis Type="Italic">Lactobacillus acidophilus</Emphasis> microcapsule by spray drying and analysis on its microstructure

Lactobacillus acidophilus, as a probiotic, is widely used in many functional food products. Microencapsulation not only increases the survival rate of L. acidophilus during storage and extends the shelf-life of its products, but also optimal size microcapsule makes L. acidophilus have an excellent dispersability in final products. In this paper, L. acidophilus was microencapsulated using spray drying (inlet air temperature of 170°C; outlet air temperature of 85–90°C). The wall materials used in this study were β-cyclodextrin and acacia gum in the proportion of 9:1 (w/w), and microcapsules were prepared at four levels of wall materials (15, 20, 25 and 30% [w/v]) with a core material concentration of 6% (v/v). The microcapsule diameters were measured by Malvern’s Mastersizer-2000 particle size analyzer. The results showed that the particle diameters of microcapsule were mostly within 6.607 μm and 60.256 μm and varied with 2.884–120.226 μm (the standard smaller microcapsule designated as <350 μm). Through comparison of microcapsule size and uniformity with different concentration of wall materials, we concluded that the optimal concentration of wall material was 20% (w/v), which gave microcapsule with a relatively uniform size (averaging 22.153 μm), and the number of surviving encapsulated L. acidophilus was 1.50 × 10⁹ c.f.u./ml. After 8 weeks storage at 4°C, the live bacterial number was above 10⁷ c.f.u./ml, compared with unencapsulated L. acidophilus, 10⁴–10⁵ c.f.u./ml. Through the observation of scanning electron microscopy, we found that the shapes of microcapsule were round and oval, and L. acidophilus cells located in the centre of microcapsule.     

Application of novel starter cultures for sourdough bread production

Sourdough application has been extensively increased in the last years due to the consumers demand for food consumption without the addition of chemical preservatives. Several starter cultures have been applied in sourdough bread making targeting the increase of bread self-life and the improvement of sensorial character. More specific, Lactobacillus acidophilus and Lactobacillus sakei as single and mixed cultures were used for sourdough bread making. Various sourdough breads were produced with the addition of sourdough perviously prepared with 10% w/w L. acidophilus, 10% w/w L. sakei and 5% w/w L. acidophilus and 5% w/w L. sakei at the same time. Various chemical parameters were determined such as lactic acid, total titratable acidity and pH. The results revealed that the produced sourdough bread made with sourdough containing the mixed culture was preserved for more days (12 days) than all the other breads produced in the frame of this study, since it contained lactic acid in higher concentrations. The respective total titratable acidity varied between 10.5 and 11 ml NaOH N/10. The same sourdough bread had a firmer texture, better aroma, flavor and overall quality compared to other sourdough breads examined in this study, as shown by sensory evaluation tests and results obtained through SPME GC–MS analysis, which revealed significant differences among the different bread types.     

不同来源植物乳杆菌基因组结构和功能差异的比较研究

[目的] 本试验研究不同来源植物乳杆菌（Lactobacillus plantarum）基因特点以及在不同环境下其基因多样性,探究2株L.plantarum A8和P9在肠道生境及植物表面适应性的异同,为优良菌株的开发提供理论基础。[方法] 本研究对从动物肠道和植物表面分离获得的L.plantarum A8和L.plantarum P9的基因组进行分析,利用第二代测序技术（NextGeneration Sequencing,NGS）,基于Illumina NovaSeq测序平台,同时利用第三代单分子测序技术,基于PacBio Sequel测序平台,对L.plantarum A8和L.plantarum P9进行测序。采用Carbohydrate-active enzymes（CAZy）、Koyto encyclopedia of genes and genomes（KEGG）和Clusters of orthologous genes（COG）数据库对基因组进行功能注释;采用CGView软件绘制菌株的基因组环形图谱。应用比较基因组学与已经公开发表的其他L.plantarum基因组进行比较分析。[结果] 由研究可知L.plantarum A8和L.plantarum P9基因组大小存在差异,通过构建系统发育树发现2株菌与其他来源的L.plantarum分在同一分支,并且L.plantarum P9与母乳来源的L.plantarum WLPL04菌株距离最近,而L.plantarum A8与L.paraplantarum DSM10667距离最近。通过基因家族分析可知,2株菌共有基因为2643个,其中包括一些抗应激蛋白如热休克蛋白、冷休克蛋白。L.plantarum A8和P9独特基因分别为321和336个,L.plantarum A8中独特基因主要参与DNA复制、ABC转运系统（ABC transfer system）、PTS系统（phosphotransferase system）、磺酸盐转运系统、氨基酸生物合成等代谢通路;L.plantarum P9的独特基因以参与碳水化合物的运输和代谢基因居多,例如rpiA基因、lacZ基因、FruA基因等。[结论] 通过比较基因组学方法解析L.plantarum的基因组信息,发现动物肠道来源的L.plantarum具有较好的氨基酸转运能力,植物表面附着的L.plantarum菌株具有较好碳水化合物利用能力,从而为益生菌的开发与利用提供理论依据。     

The effects of using lactic acid bacteria inoculants in maize silage on the formation of biogenic amines

Silages from five ripened varieties of silage maize with dry matter contents ranging between 275 and 410 g/kg were prepared in five laboratory experiments. Whole-plant maize was fermented at 22°C and silages were then stored at the same temperature for 4 months. Spontaneously fermented silages were prepared as control variants and compared with silages inoculated with commercial strains of Lactobacillus plantarum, Lactobacillus buchneri and a mixed preparation Microsil containing L. plantarum, Lactobacillus casei, Enterococcus faecium and Pediococcus pentosaceus. The starter cultures were applied at doses 5·10⁵ and 5·10⁶ CFU/g of chopped maize. Seven biogenic amines and polyamines were extracted from silages with perchloric acid and determined as N-benzamides by micellar electrokinetic capillary chromatography. Common chemical criteria of silage quality were also determined. All three inoculants, mainly at the higher dose, decreased significantly contents of tyramine, putrescine and cadaverine, three undesirable amines occurring at the highest levels. L. plantarum was the most effective. Contents of histamine and tryptamine were low in all experimental silages. Also relatively low were levels of polyamines spermidine and mainly of spermine.     

Effect of hematin on the activities of nitrite reductase and catalase in lactobacilli

The effect of the addition of hematin on the activities of nitrite reductase and catalase was studied with cell suspensions of strains of lactobacillus species. In cells of Lactobacillus plantarum grown under aerobic or anaerobic conditions nitrite reductase was present. This activity was not exhibited by cells of L. curvatus and only rarely by L. sake. In addition, catalase activity was detected in aerobically grown cells only, with all strains of L. plantarum and L. sake; again L. curvatus was devoid of this activity. Ammonia was formed as the main product of nitrite reduction by L. plantarum. With lactate as the electron donor, the end products of carbohydrate catabolism were carbon dioxide, acetoin and acetate. The activities of nitrite reductase and catalase in strains of lactobacillus species may be used for optimizing the quality of starter cultures applied for the production of raw sausages.     

植物乳杆菌CCFM8724抑制双菌生物膜的成分初探

[背景] 植物乳杆菌是一种重要的益生菌,本实验室前期研究表明植物乳杆菌CCFM8724发酵液可抑制变异链球菌和白色念珠菌双菌生物膜,但植物乳杆菌发酵液中起作用的具体物质尚不清楚。[目的] 评价植物乳杆菌CCFM8724发酵液抑菌成分的特性,初步探究其物质基础。[方法] 探索温度、pH等因素对抑菌物质的影响,采用气相色谱-质谱（Gas Chromatography-Mass Spectrometry,GC-MS）联用技术分析植物乳杆菌代谢物的组成,进一步通过有机溶剂萃取、超滤等方法初步分离纯化发酵液中抑制双菌生物膜的成分,并采用液相色谱-质谱（Liquid Chromatography-Mass Spectrometry,LC-MS）联用技术进行鉴定。[结果] 通过多元统计分析,发现植物乳杆菌发酵液的主要差异标志物为有机酸（如苯乳酸、乙酸、羟基己酸和甘油酸等）,经过初步提取鉴定并进行功能验证,其中有效成分主要为有机酸和环肽类化合物。[结论] 植物乳杆菌CCFM8724发酵液主要通过多种有机酸和环肽类的协同作用抑制变异链球菌和白色念珠菌生物膜,该研究为植物乳杆菌发酵液进一步的分离纯化和有效成分的生产应用提供理论依据。     

Gut immune stimulation by non pathogenic Gram(+) and Gram(-) bacteria. Comparison with a probiotic strain

We analyzed the gut immune stimulation induced by Gram-positive bacteria: non probiotic Lactobacillus acidophilus CRL 1462 and Lactobacillus acidophilus A9; two potentially probiotic strains: L. acidophilus CRL 924 and Lactobacillus delbrueckii subsp. bulgaricus CRL 423; comparatively with a probiotic strain: Lactobacillus casei CRL 431. We also studied Gram-negative bacteria: Escherichia coli 129 and E. coli 13-7 in BALB/c mice. All the strains increased the number of IgA+ cells. We analyzed the cytokines IFNγ, TNFα, IL-17, IL-12, IL-6 and MIP-1α. The Gram(+) strains increased the number of IL-10+ cells. Gram(−) strains did not increase IL-10+ cells, but they increased the number of IL-12+ cells. The probiotic strain increased mainly IFNγ and TNFα. In the study of the receptors TLR-2, TLR-4 and CD-206, we demonstrated that only the probiotic strain increased the number of CD-206+ cells. All the Gram(+) strains increased the number of TLR-2+ cells and the Gram(−) strains of the TLR-4+ cells. The probiotic strain induced the release of IL-6 by a preparation enriched in intestinal epithelial cells (IEC). Gram(+) and Gram(−) bacteria activated different immune receptors and induced a different cytokine profile. The probiotic strain showed a great activity on the immune cells and the enriched population in IEC, activating mainly cells of the innate immune system.     

短乳杆菌与植物乳杆菌的发酵特性

【背景】目前对于酸菜发酵的研究主要关注点是植物乳杆菌(Lactobacillus plantarum),有关短乳杆菌(Lactobacillus brevis)在酸菜方面的研究报道很少。【目的】为了挖掘短乳杆菌的发酵性能并开发酸菜发酵剂,将2株短乳杆菌分别与1株植物乳杆菌进行组合并发酵酸菜,分析短乳杆菌对酸菜发酵品质的影响。【方法】分别测定短乳杆菌与植物乳杆菌的单菌株生长产酸性能、耐酸性及亚硝酸盐降解力,并将两菌种组合后发酵酸菜,分析1-7d内酸度、乳酸菌活菌数、亚硝酸盐含量及酸菜质构特性的变化趋势。【结果】相较于短乳杆菌Lb-9-2,短乳杆菌Lb-5-3的生长和产酸速率较慢、酸耐受力较弱,但其亚硝酸盐降解力较强。两株短乳杆菌分别与植物乳杆菌Lp-9-1组合后产酸力显著增强,并在3 d时达到最低pH值(约3.10);植物乳杆菌Lp-9-1的添加使酸菜中总体乳酸菌生长延迟,在5 d时达到最高活菌数;组合菌种的样品中亚硝酸盐含量在1-7 d内变化较为平缓,前5天内两个组合之间差异不显著;接种乳酸菌会降低酸菜硬度和弹性,发酵3d时Lb-5-3/Lp-9-1组合的硬度最大,感官评价得分最高。【...     

Characterization of wine Lactobacillus plantarum by PCR-DGGE and RAPD-PCR analysis and identification of Lactobacillus plantarum strains able to degrade arginine

Summary Screening of strains isolated from red wine undergoing malolactic fermentation allowed the identification of lactic acid bacteria able to degrade arginine. A denaturing gradient gel electrophoresis approach, using the rpoB gene as the molecular target, was developed in order to characterize the isolated strains. Several strains were identified as Lactobacillus plantarum and were typed by RAPD-PCR with several randomly designed primers. Almost all of the␣L. plantarum strains identified were able to produce citrulline and ammonia, suggesting that the ability of␣L.␣plantarum to degrade arginine is a common feature in wine. During the characterization of the newly identified L.␣plantarum strains, the presence of genes coding for the arginine deiminase (ADI) pathway was observed in the strains able to produce citrulline, while the lack of this genes was observed in strain unable to produce citrulline. These results suggest that the degradation of arginine in L. plantarum is probably strain-dependent.     

镇江香醋核心酿造微生物醋酸杆菌和乳酸杆菌共培养对生长代谢的影响

[目的] 研究镇江香醋酿造过程核心功能微生物醋酸杆菌属与乳酸杆菌属菌株之间的相互作用关系。[方法] 本文以分离到的镇江香醋酿造中的核心微生物2株醋酸杆菌和8株孔酸杆菌为研究对象,构建醋酸杆菌和乳酸杆菌共培养发酵体系,比较异位与原位条件下,纯培养及共培养中菌株的生长和代谢（包括还原糖、乙醇和总酸等含量）差异;采用GC-MS检测原位共培养中挥发性物质的变化,分析微生物间的交互作用对镇江香醋主要风味物质形成的潜在影响。[结果] 醋酸杆菌和乳酸杆菌之间的交互作用具有种间特异性和环境特异性,A.pasteurianus G3-2和L.helveticus M3-1、L.plantarum M10-1、L.pontis M17-5及L.reuteri GE7-1在异位及原位模拟共培养中整体的生长和代谢优于纯培养;A.pomorum G15-6和L.paracasei E1-1在异位和原位共培养下还原糖利用率和总酸的产生率都低于纯培养,和L.helveticus M3-1、L.reuteri GE7-1、L.plantarum M10-1、L.fermentum M10-3、L.casei E10-1、L.pontis M17-5、L.hilgardii M3-4共培养在异位和原位模拟中代谢不一致。根据GC-MS分析显示,A.pasteurianus G3-2和L.helveticus M3-1及L.reuteri GE7-1原位模拟共培养时异戊酸、乙酸乙酯、甲酸辛酯等风味物质的含量明显优于纯培养,其中一种重要风味物质2,3-丁二酮只在共培养时被检出,其含量分别达到了9.87 mg/L及14.28 mg/L。[结论] 镇江香醋醋醅中的醋酸杆菌和乳酸杆菌之间的交互作用能够影响菌株生长和主要代谢产物生成,这一研究有助于深入剖析镇江香醋风味形成的酿造机理,为理性调控酿造菌群以改善镇江香醋风味品质奠定了理论基础。     

Characterization of a <Emphasis Type="Italic">Lactobacillus plantarum</Emphasis> Strain Able to Produce Tyramine and Partial Cloning of a Putative Tyrosine Decarboxylase Gene

The aim of this article was to analyze the ability of wine Lactobacillus plantarum strains to form tyramine. Preliminary identification of L. plantarum strains was performed by amplification of the recA gene. Primers pREV and PlanF, ParaF and PentF were used respectively as reverse and forward primers in the polymerase chain reaction tests as previously reported. Furthermore, the gene encoding for the tyrosine decarboxylase (TDC) was partially cloned from one strain identified as L. plantarum. The strain was further analyzed by 16S rDNA sequence and confirmed as belonging to L. plantarum species. The tyrosine decarboxylase activity was investigated and tyramine was determined by the high-performance liquid chromatography method. Moreover, a negative effect of sugars such as glucose and fructose and L-malic acid on tyrosine decarboxylase activity was observed. The results suggest that, occasionally, L. plantarum is able to produce tyramine in wine and this ability is apparently confined only to L. plantarum strains harboring the tdc gene.     

Adaptation of lactic acid bacteria to unfavorable growth conditions

The adaptation of lactic acid bacteria (LAB) to unfavorable growth conditions, e.g., depletion of nutrient sources, overthreshold cell density of a population, or antibiotic impact, was shown to include: (1) formation of cyst-like dormant cells (CDC) providing for survival and species preservation and (2) realization of intra-population phenotypic variability, which is demonstrated by development of non-dominant colonies on plates inoculated with CDC suspensions. In Lactobacillus plantarum, the dormant cells, which retained viability and heat resistance for a long time, were formed in 10- and 20-fold concentrated suspensions of the stationary phase cells. In 4-month cell suspensions, two types of cells were present, CDC and L-forms. The CDC of Lactococcus lactis were formed in (1) post-stationary cultures grown under glucose limitation and (2) in stationary phase cultures resuspended in starvation medium (without glucose). Populations of CDC stored for different periods of time varied in the ability for phase variation; as a result, both variants exhibited a shift of the population’s CDC spectrum to the transition of the dominant S-colony type to the R-type up to complete substitution (by day 25). In Lactobacillus acidophilus AT-41, CDC appeared in (1) post-stationary cultures grown on a nitrogen-limited medium; (2) autolyzing cultures treated with ampicillin or erythromycin; and (3) concentrated (10- and 20-fold) suspensions of stationary-phase cells. At plating of L. acidophilus CDC, the substitution of the S-type for the dominant R-type in variants (1) (day 30), (2) (100 μg/ml ampicillin, day 10), and (3) (day 25) was 68.6%, 30.1%, and 61.2%, respectively. The S-variant of L. acidophilus was used for development of a novel lactofermented product based on vegetable (beet) juice fermentation, which sustained high titer of viable cells (2 × 10⁶ cells/ml).     

Lactobacillus gasseri LF221 and K7 — from isolation to application

The article presents research findings on two human strains with probiotic activity. On the basis of API 50 CHL fermentation pattern, PCR by species-specific primers and sequencing of the V2–V3 region of 16S rRNA both strains designated as LF221 and K7 were identified as members of the Lactobacillus gasseri species. Two LF221 bacteriocins, acidocin LF221 A and B were purified and sequenced. They were classified as members of the two-component class II bacteriocins. Among basic probiotic properties, the survival under conditions in gastro-intestinal tract, ability to adhere to cultured intestinal enterocytes and pig’s mucosa and stimulation of the immune response were demonstrated. In in vivo study of 24 weaned piglets, the survival rate of K7 Rif^r and LF221 Rif^r was quantified by selective enumeration on MRS agar with rifampicin. The survival of both strains was good (2.9 × 10⁵ cfu of K7 Rif^r /g faeces; 4.8 × 10⁵ cfu of LF221 Rif^r /g) and the LF221 Rif^r /K7 Rif^r viable cells were found either in the mucosa of duodenum, jejunum or in the ileum. The possible effect of K7 to inhibit adhesion of E. coli O8:K88 to enterocytes was studied on Caco-2 cultured cells, on tissue obtained from small intestines of pigs and in vivo on gnotobiotic piglets. Lactobacilli were found to be effective in reducing E. coli adhesion to enterocytes in Caco-2 model, but not on mucosa of pig’s jejunum under ex vivo conditions. Competitive exclusion, production of organic acids and stimulation of immune response, were involved in inhibition of E. coli by K7 strain in gnotobiotic piglets. Any inflammatory change in intestines of piglets treated with K7 was observed, which confirmed its safe use. Among the technological parameters the survival and activity of the strains during cheese-making are presented. Presented at the Second Probiotic Conference, Košice, 15–19 September 2004, Slovakia.