Survival of Lactobacillus casei,Lactobacillus plantarum and Bifidobacterium bifidum in free and microencapsulated forms on Iranian white cheese produced by ultrafiltration

Survival of probiotic strains Lactobacillus casei ( ATCC 39392 ), Lactobacillus plantarum ( ATCC 8014 ) and Bifidobacterium bifidum ( ATCC 29521 ) was investigated either in microencapsulated or in free form in the Iranian white cheese produced by ultrafiltration technique. The results indicated that the survival of encapsulated probiotic bacteria was higher than free cells. Both free and microencapsulated forms were successful in keeping counts of L. casei, L. plantarum and B. bifidum in the cheese high enough for the therapeutic minimum (10⁶–10⁷ cfu/g) after 60 days. Addition of probiotic adjunct also did not alter the chemical composition, but pH was lower in probiotic cheeses.     

Biocontrol of Gray Mold Disease on Strawberry Fruit by Integration of Lactobacillus plantarum A7 with Ajwain and Cinnamon Essential Oils

This study was conducted to evaluate the efficacy of the Lactobacillus plantarum A7 (L. Plantarum), ajwain and cinnamon essential oils (AO and CO, respectively) in suppressing gray mold rot in strawberry fruit. AO and CO showed over 90% inhibition of radial mycelia growth with lower concentration of the oils per plate for all tested pathogens. Combined application of L. plantarum with AO and CO was tested to assess the possible synergistic effects of these 3 elements on the control of tested plant pathogens. In this case both combinations of L. plantarum + AO and L. plantarum + CO inhibited the mycelia growth of the pathogens completely. Results showed that the combined treatment of strawberry fruits with L. plantarum + AO (50 μL) and L. plantarum + CO (100 μL) resulted in remarkably improved control of Botrytis infections, in comparison with application of L. plantarum or essential oils alone. Quality attributes (that is pH, acidity, vitamin C, and total soluble solid) of the strawberry fruits did not change significantly (P < 0.01) when combination of Lactobacillus and essential oils was used. To the best of our knowledge, this is the first report on the effects of combination of a Lactobacillus as an antagonist bacterium with essential oils to increase the shelf life of strawberry.     

Effect of encapsulated Lactobacillus plantarum as probiotic on dry-sausages during chilled storage

The impact of free and encapsulated Lactobacillus plantarum addition on the physicochemical and microbiological properties during chilled storage (60 days) of dry-fermented sausages have been studied. Control (C) treatment was performed without probiotic incorporation, and the reformulation was comprised of L. plantarum as free cells (F) in alginate spheres (EA), in water-in-oil simple emulsion (ESM) and in water-in-oil-in-water double emulsion (EDM). After 60 days of storage, lower (P < 0.05) lipid oxidation was observed in F and EA (0.602–0.625 mg MDA kg⁻¹) while it was higher (P < 0.05) in EDM (1.949 mg MDA kg⁻¹). Treatments C and ESM presented intermediate TBARS levels compared to other treatments at the end of storage. All dry-fermented sausages presented high levels of lactic acid bacteria during the whole chilled storage (8.06–9.29 log CFU g⁻¹ at day 0 and 8.02–9.35 log CFU g⁻¹); however, EA treatment presented the highest L. plantarum viability even at 60 days of storage (8.34 log CFU g⁻¹). Therefore, the strategy of L. plantarum inoculation in alginate spheres seems to be the best strategy for the delivery of probiotics during chilled storage of dry-fermented sausages.     

Effect of Lactobacillus plantarum LS5 on oxidative stability and lipid modifications of Doogh

The oxidative stability and lipid modifications of Doogh prepared with Lactobacillus plantarum LS5 and control Doogh were compared during storage for 22 days. In vitro scavenging activity against 2,2‐diphenyl‐1‐picrylhydrazyl (DPPH) free radicals showed that L. plantarum LS5 had radical scavenging activities (49.6%). Peroxide value, conjugated diene value and anisidine value measurements in Doogh lipid samples in combination with Fourier transform infrared spectroscopy demonstrated that Doogh prepared with L. plantarum LS5 was more stable than the control against formation of primary and secondary oxidation products. Furthermore, higher concentrations of short‐chain fatty acids (butyric and caproic) and unsaturated fatty acids were found in Doogh treated with L. plantarum LS5. Changes in the thermograms of all samples were also observed. Results of differential scanning calorimetry indicated that melting points of lipids from treated Doogh were lower than for the control. It was concluded that L. plantarum LS5 could be used as a natural preservative in functional dairy products and could beneficially affect the consumer by providing dietary sources of antioxidants.     

Effect of Lactobacillus plantarum on the survival of acid‐tolerant non‐O157 Shiga toxin‐producing E. coli (STEC) strains in fermented goat's milk

The ability of goat's milk fermented with a Lactobacillus plantarum strain B411, and in combination with commercial starter culture, to inhibit acid‐adapted (AA) and non‐acid‐adapted (NAA) environmental non‐O157 STEC strains was investigated. Acid‐adapted and NAA non‐O157 STEC strains were not inhibited in the L. plantarum‐fermented goat's milk, while the goat's milk fermented with the combination of L. plantarum and starter culture inhibited AA more than NAA non‐O157 STEC strains. Environmental acid‐tolerant non‐O157 STEC strains were not inhibited by L. plantarum, starter culture or combination of starter culture with L. plantarum unless they were subjected to prior acid adaptation such as backslopping.     

Effects of papain,Lactiplantibacillus plantarum 1-24-LJ and their combinations on bacterial community changes and flavour improvement in Suanzhayu,a Chinese traditional fish

Suanzhayu is a traditional Chinese fermented fish that often faces a long fermentation time (about 1 month) and unstable quality. This study evaluated the combined effects of papain and Lactiplantibacillus plantarum 1-24-LJ, a selected starter culture, on the quality of Suanzhayu. The addition of L. plantarum and/or papain increased the content of alcohols, esters, ketones and umami amino acids (UAAs), but decreased the content of bitter amino acids (BAAs). Besides, Lactobacillus might play a role in reducing harmful bacteria and BAAs content and increasing UAAs content, while Lactococcus and Weissella contributed to the characteristic flavour of Suanzhayu. Overall, no significant improvement in sensory quality was observed with the addition of papain alone, while better quality and faster fermentation processes were obtained with the addition of L. plantarum 1-24-LJ alone or in combination with papain. The results contribute to quality control in Suanzhayu production and the selection of starter cultures.     

Suitability of Bifidobacterium spp. and Lactobacillus plantarum as Probiotics Intended for Fruit Juices Containing Citrus Extracts

A strain of Lactobacillus plantarum and 4 strains of bifidobacteria were inoculated in apple juice and in a commercial beverage labeled as “red‐fruit juice,” containing citrus extracts as natural preservatives; the suitability of the probiotics was evaluated in relation to their resistance to 2 kinds of citrus extracts (biocitro and lemon extract), survival in juices at 4 and 37 °C, and inhibition of Zygosaccharomyces bailii. Cell count of L. plantarum and bifidobacteria over time was fitted through the Weibull equation, for the evaluation of the first reduction time (δ), death time, and microbiological shelf life (the break‐point was set to 7 log cfu/mL). Bifidobacterium animalis subsp. lactis experienced the highest δ‐value (23.21 d) and death time (96.59 d) in the red‐fruit juice at 4 °C, whereas L. plantarum was the most promising strain in apple juice at 37 °C. Biocitro and lemon extract did not exert a biocidal effect toward probiotics; moreover, the probiotics controlled the growth of Z. bailii and the combination of L. plantarum with 40 ppm of biocitro reduced the level of the yeast after 18 d by 2 log cfu/mL.     

Modeling the interactions among Salmonella enteritidis,Pseudomonas aeruginosa,and Lactobacillus plantarum

This paper was to investigate the interactions among Salmonella enteritidis, Lactobacillus plantarum, and Pseudomonas aeruginosa at four combinations of initial concentration. Firstly, fitting the growth curves to obtain growth parameters—lag time (λ), maximal growth rate ( μ_max ), initial concentration (N₀), and maximum population density (N_max) for each strain in monocultures or cocultures. Then interactions among S. enteritidis, P. aeruginosa, and L. plantarum in cocultures at four combinations of initial concentration were quantified by the Lotka–Volterra model with six interaction coefficients. Results indicated that there were no interactions between S. enteritidis and P. aeruginosa; S. enteritidis and P. aeruginosa had an inhibitory effect on L. plantarum, but L. plantarum had no effects on another two. Besides, the higher the initial concentrations of S. enteritidis or P. aeruginosa, the lower the growth potential of L. plantarum. This study provided more accurate predictions for the growth of bacteria under actual food contamination conditions.     

产共轭亚油酸Lactiplantibacillus plantarum ZFM804的筛选及益生特性评价

作者以发酵食品中分离的8株乳酸菌为研究对象,采用紫外分光光度法筛选出产共轭亚油酸（CLA）的菌株,进一步对其体外益生特性进行评价。结果表明,Pediococcus acidilactici ZFM801、Leuconostoc mesenteroides ZFM803、Lactiplantibacillus plantarum ZFM804、Lactiplanti-bacillus plantarum ZFM805、Lactiplantibacillus plantarum ZFM806、Weissella cibaria ZFM810具有产CLA的能力,其中Lactiplantibacillus plantarum ZFM804产CLA能力最高（质量浓度达21.7 mg/L）,且CLA异构体分别为c9,t11-CLA和t10,c12-CLA。益生特性评价结果表明,Lactiplantibacillus plantarum ZFM804对3种致病菌的共凝聚率均高达25%以上。耐受性结果表明,Lactiplantibacillus plantarum ZFM804可耐受质量分数4%的NaCl和质量分数0.1%的胆盐;同时Lactiplantibacillus plantarum ZFM804在模拟胃肠液环境下同样表现出较高的耐受性,且pH 4.5时存活率高达60%以上;其次Lactiplantibacillus plantarum ZFM804对藤黄微球菌、金黄色葡萄球菌具有显著的抑制作用。综上,<Lactiplantibacillus plantarum ZFM804具有高产CLA的潜能和良好的益生特性。     

Hypocholesterolemic Effects of Capsaicinoids and Lactobacillus plantarum Swun5815 Combined by Inhibiting Cholesterol Synthesis and Increasing Bile Acid and Sterols Excretion on Ovariectomized Rats

This study evaluated the hypocholesterolemic effects and potential metabolism of single and combined administrations of capsaicinoids and Lactobacillus plantarum SWUN5815 in ovariectomized rats. Forty female Sprague–Dawley rats were divided into 5 treatment groups. One group was sham‐operated (with 1 mL/100 g BW physiological saline), and the 4 other groups were double‐ovariectomized: OVX–CON (with 1 mL/100 g BW physiological saline), OVX–CAP (with 1 mL/100 g BW physiological saline and fed with food containing 0.08 g/kg capsaicinoids), OVX–L. P. (with 1 mL 2 × 10⁹ cfu/mL/100 g BW L. plantarum SWUN5815), and OVX–CAP + L. P. (with 1 mL 2 × 10⁹ cfu/mL/100 g BW L. plantarum SWUN5815 and fed with food containing 0.08 g/kg capsaicinoids). Rats were sacrificed after 6 weeks of feeding. Results showed that the combination of capsaicinoids and L. plantarum significantly decreased the total cholesterol, triglyceride and low‐density lipoprotein cholesterol of plasma, total cholesterol and lipid accumulation of liver in ovariectomized rats without affecting food intake. Bile acid contents in the fecal excrement and small intestines were significantly increased by the combination compared with the individual effects. However, the mRNA levels of 3‐hydroxy‐3‐methylglutaryl coenzyme A reductase (HMG‐CoA R), farnesoid X receptor (FXR), ileum bile acid binding protein (IBABP), and apical sodium‐dependent bile acids transporter (ASBT) significantly decreased. Liver X receptor also remarkably increased. Therefore, these genes potentially affect cholesterol metabolism by inhibiting cholesterol synthesis and promoting excretion of bile acid. The protective effects of the combination of capsaicinoids and L. plantarum SWUN5815 on the intestines were significant in ovariectomized rats.     

Effects of branched-chain amino acids and Lactobacillus plantarum CGMCC18217 on volatiles formation and textural properties of dry-cured fermented sausage

This study aimed to evaluate the effect of branched-chain amino acids (BCAAs, leucine, isoleucine and valine) combined with Lactobacillus plantarum CGMCC18217 (L. plantarum) on the flavours and quality of fermented sausages. The parameters included pH, water activity, colour, texture, BCAAs metabolites and flavour compounds of fermented sausages in eight different groups (sausages with L. plantarum and individual BCAAs, that is L + Leu, L + Ile and L + Val groups; sausages with individual BCAAs, that is the Leu, Ile and Val groups; sausages only with L. plantarum assigned as the L group; and sausages with no L. plantarum and BCAAs assigned as the CK group). The results showed that the addition of BCAAs and L. plantarum significantly increased the hardness, cohesiveness and springiness of sausages. A total of sixty-nine flavour compounds were identified in fermented sausages. The content of methyl-branched alcohols, aldehydes, acids in the L. plantarum and BCAAs group significantly increased compared with the other groups (P < 0.05). Therefore, our data suggest the addition of L. plantarum and BCAAs potentially improved the texture of fermented sausages and formation of volatile flavours.     

A feasibility study of Lactobacillus plantarum in fruit powders after processing and storage

The aim of this study was to develop fruit powders (apple, banana and strawberry) enriched with a probiotic strain (Lactobacillus plantarum 299v). Two methodologies were proposed: (i) drying of the fruit with probiotic culture incorporated (by convection) or (ii) drying of fruit (by convection) and addition of spray‐dried probiotic culture. In the first methodology, processing caused a notable reduction in probiotic viable counts in apple, but this reduction was lower during drying of banana and strawberry. A large reduction in viable cells was also recorded during storage. In the second methodology, the survival of L. plantarum 299v was considerably higher during spray‐drying, and fruit powders with a microbial content suitable for a probiotic food (10⁸–10⁹ cfu g^?1) were obtained. The fruit powders incorporating L. plantarum 299v can be stored at 4 °C or at room temperature, for at least 3 months. This preliminary study demonstrated that fruit powders are good carriers of probiotic cultures, but the techniques used to produce them should be carefully considered.     

Anti‐adhesive effects of sialic acid and Lactobacillus plantarum on Staphylococcus aureus in vitro

Staphylococcus aureus (S. aureus) is a common food‐borne pathogen that causes severe diseases after adhesion to epithelial cells. Lactobacillus inhibits pathogenic bacterial adhesion and infection. In addition, sialic acid (SA) is widely known for its beneficial biological functions. A new way of reducing the occurrence of diseases and curbing the overuse of antibiotics is ingesting prebiotics and probiotics that regulate the intestinal flora. In this study, we first evaluated the anti‐adhesive effects of several strains of Lactobacillus on S. aureus. The study revealed that the S. aureus adhesion was inhibited by all the strains of Lactobacillus. Besides, the rate of inhibition by L. plantarum Z‐4 was significantly higher than other Lactobacillus species. We then investigated the effects of different SA concentrations (40, 100, 150, 200, and 260 μg/ml) on the growth and adhesion characteristics of L. plantarum and S. aureus. The results showed that SA influences bacterial adhesion by regulating the bacteria's growth characteristics. Finally, the effects of SA combined with Lactobacillus on the adhesion of S. aureus were assessed by competition, exclusion and displacement methods. SA with a concentration of 260 μg/mL combined with L. plantarum had the highest inhibition effect on the competition assays. In addition, the expression of S. aureus adhesion‐related genes was reduced. This provides a new perspective on the application of SA and/or L. plantarum and its potential to resist adhesion of S. aureus.     

The effect of inoculation with Lactobacillus plantarum and addition of glucose at ensiling on the quality of aerated silages

In laboratory silos, into which air was introduced during the first 4 days, the changes during ensilage were examined using the following treatments: A, control; B, glucose addition; and C, glucose addition + L. plantarum inoculation. In four separate experiments using Italian ryegrass or cocksfoot, treatment A gave very poor quality of silages without exception, producing large amounts of higher VFA and no or little lactic acid. Treatment C gave excellent or satisfactory results producing large amounts of lactic acid or no VFA other than acetic acid, while the results of treatment B were variable. Changes in pH values and VBN levels also confirmed the improving effect of the combination of glucose addition and L. plantarum inoculation to the aerated silage.     

Antioxidant activity of prebiotic ginseng polysaccharides combined with potential probiotic Lactobacillus plantarum C88

The potential prebiotic properties of Panax ginseng polysaccharides were studied using ten strains of Lactobacillus plantarum isolated from traditional Chinese fermented foods. These probiotics showed different growth characteristics depending on the extract and strain specificity. L. plantarum C88 showed higher cell densities and growth rate when cultured on P. ginseng polysaccharides. In the in vitro antioxidant assay, P. ginseng polysaccharides combined with L. plantarum C88 were found to possess significant DPPH, ABTS and superoxide anion radicals scavenging activities, and acidic polysaccharides showed better antioxidant activity than neutral polysaccharides. Furthermore, we evaluated the antioxidant effect of acidic P. ginseng polysaccharide combined with L. plantarum C88 strain in natural ageing mice in vivo. Acidic P. ginseng polysaccharide and L. plantarum C88 together inhibited the formation of malondialdehyde (MDA) and increased the activities of superoxide dismutase (SOD), glutathione peroxidase (GSH‐Px), catalase (CAT) and total antioxidant capacities (T‐AOC) in a dose‐dependent manner.     

Cultural conditions and nutritional components affecting the growth and bacteriocin production of Lactobacillus plantarum KC21

This study was conducted to investigate the effect of cultural conditions and nutritional components on the cell growth and bacteriocin production of Lactobacillus plantarum KC21. In cultures without pH control, the bacteriocin activity of L. plantarum KC21 was higher at 30oC, however, the cell growth rate was higher at 37°C. In MRS broth with an initial pH 6.0, the cell growth was lower, but high bacteriocin levels were recorded than at pH 7.0. The bacteriocin activity was maximal in medium containing 1.0 or 1.5% glucose or 1.0% lactose. Yeast extract (0.25 or 0.5%) added to MRS broth increased the bacteriocin activity, moreover, the bacteriocin in the presence of 1.0 or 3.0% NaCl, 0.5% NH₄PO₄, or 0.25 or 0.5% KH₂PO₄ resulted in the activity of 12,800 BU/mL, but excessively high salts concentration hindered the cell growth and bacteriocin production significantly. Besides 1.0 or 2.0 mM MgSO₄ highly increased the bacteriocin activity without affecting the growth of L. plantarum KC21, and ascorbic acid (1.0 or 3.0 ppm) enhanced the bacteriocin activity up to 2 fold.     

Manufacture of low-fat Cheddar cheese by exopolysaccharide-producing Lactobacillus plantarum JLK0142 and its functional properties

This study aimed to evaluate the effect of exopolysaccharide (EPS)-producing Lactobacillus plantarum JLK0142 on the ripening characteristics and in vitro health-promoting benefits of low-fat Cheddar cheese. Three batches of cheese were made by employing a non-EPS–producing cheese starter (control), in combination with Lb. plantarum JLK0142 as an adjunct and the purified EPS as an ingredient. Lactobacillus plantarum JLK0142 survived well in cheese, with counts of 7.99 log cfu/g after 90 d of ripening. All experimental cheeses (with adjunct culture or EPS ingredient) had higher moisture, proteolysis, and sensory scores, and lower hardness and cohesiveness compared with the control cheese. Water-soluble extracts from the experimental cheeses outperformed that of the control in scavenging 1,1-diphenyl-2-picrylhydrazyl (DPPH), 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) diammonium salt (ABTS), and hydroxyl radicals, and inhibiting α-amylase, angiotensin-converting enzyme, and HT-29 tumor cell growth. Therefore, incorporation of the EPS-producing culture of Lb. plantarum JLK0142 is promising for improvement of low-fat cheese quality and bioactivities.     

Lactobacillus plantarum ZLC-18 fermentation improve tyrosinase inhibition activity and antioxidant capacity in soybean hulls

Soybean hulls, the main byproduct in soybean processing, have many biological activities. However, the value of this byproduct is still far from being fully exploited. In this study, we investigated the anti-tyrosinase and antioxidant capacities in soybean hulls fermented by Lactobacillus plantarum ZLC-18 (L. plantarum ZLC-18). We found that L. plantarum ZLC-18 fermentation could markedly improve the anti-tyrosinase and antioxidant activities of soybean hulls. The anti-tyrosinase and antioxidant activities were positively correlated with the total phenolic and flavonoid contents. UPLC–MS analysis suggested that phenolic compounds (daidzin, genistin, vanillic acid and so on) were increased in soybean hulls after fermentation, and some of these compounds were shown to have anti-tyrosinase and antioxidant activities. Our study demonstrates that fermentation is an efficient strategy to enhance the bioactive function of soybean hulls. Moreover, this study provides evidence that soybean hulls can be used as a kind of functional food ingredient, thereby improving their economic benefits.     

Lactobacillus plantarum survival in aerobic., directly brined olives

Storage at 20°improved Lactobacillus plantarum survival in directly brined olives. The best inoculation dates were on the first and fifth days after brining for Cacereña and Hojiblanca cultivars respectively. Lb. plantarum was present throughout the storage period only in Hojiblanca olives covered with initial free-salt solution and inoculated on the fifth day. In the presence of that bacterium, titratable acidity (0.5-1%) and pH (<4.0) reached proper values for olive preservation. Yeast populations, consisting of Pichia membranaefaciens and Pichia fermentans, in Hojiblanca, and Pichia minuta, Pichia fermentans, Pichia membranaefaciens, and Rodotorula spp, in Cacereña, were found in all treatments.     

Metabolism of ferulic acid during growth of Lactobacillus plantarum and Lactobacillus collinoides

BACKGROUND: Food‐isolated lactic acid bacteria can transform ferulic acid (FA) into several products. Since quantification of these metabolites during the different bacterial growth phases is lacking, the aim of this study was to identify and quantify conversion products of FA and to follow the kinetics of FA metabolism during growth of Lactobacillus plantarum and Lactobacillus collinoides. RESULTS: Lactobacillus plantarum and Lactobacillus collinoides were incubated in MRS broth, to which different amounts of FA were added (final concentrations of 0, 0.5, 1.5 and 3 mmol L^?1), at 30 °C until the late stationary phase. Lactobacillus plantarum metabolised FA into 4‐vinylguaiacol (4‐VG) and hydroferulic acid (HFA). Conversion to 4‐VG started simultaneously with the degradation of FA, while formation of HFA started in the mid‐exponential phase. Lactobacillus collinoides only formed 4‐VG, mainly in the stationary phase. No significant effect of the different amounts of FA was seen on the growth and fermentation characteristics of both bacteria. CONCLUSION: The results demonstrate that both bacteria are able to convert FA. However, start of conversion differs between the two strains. The different amounts of FA had no influence on the growth and fermentation characteristics of both bacteria. Copyright © 2012 Society of Chemical Industry