Organization and characterization of three genes involved in d-xylose catabolism in Lactobacillus pentosus

Summary A cluster of three genes involved in d-xylose catabolism (viz. xylose genes) in Lactobacillus pentosus has been cloned in Escherichia coli and characterized by nucleotide sequence analysis. The deduced gene products show considerable sequence similarity to a repressor protein involved in the regulation of expression of xylose genes in Bacillus subtilis (58%), to E. coli and B. subtilis d-xylose isomerase (68% and 77%, respectively), and to E. coli d-xylulose kinase (58%). The cloned genes represent functional xylose genes since they are able to complement the inability of a L. casei strain to ferment d-xylose. NMR analysis confirmed that ¹³C-xylose was converted into ¹³C-acetate in L. casei cells transformed with L. pentosus xylose genes but not in untransformed L. casei cells. Comparison with the aligned amino acid sequences of d-xylose isomerases of different bacteria suggests that L. pentosus d-xylose isomerase belongs to the same similarity group as B. subtilis and E. coli d-xylose isomerase and not to a second similarity group comprising d-xylose isomerases of Streptomyces violaceoniger, Ampullariella sp. and Actinoplanes. The organization of the L. pentosus xylose genes, 5-xylR (1167 bp, repressor) — xylA (1350 bp, D-xylose isomerase) — xylB (1506 bp, d-xylulose kinase) — 3 is similar to that in B. subtilis. In contrast to B. subtilis xylR, L. pentosus xylR is transcribed in the same direction as xylA and xylB.     

Biofilm formation and antimicrobial sensitivity of lactobacilli contaminants from sugarcane-based fuel ethanol fermentation

Industrial ethanol fermentation is subject to bacterial contamination that causes significant economic losses in ethanol fuel plants. Chronic contamination has been associated with biofilms that are normally more resistant to antimicrobials and cleaning efforts than planktonic cells. In this study, contaminant species of Lactobacillus isolated from biofilms (source of sessile cells) and wine (source of planktonic cells) from industrial and pilot-scale fermentations were compared regarding their ability to form biofilms and their sensitivity to different antimicrobials. Fifty lactobacilli were isolated and the most abundant species were Lactobacillus casei, Lactobacillus fermentum and Lactobacillus plantarum. The majority of the isolates (87.8%) were able to produce biofilms in pure culture. The capability to form biofilms and sensitivity to virginiamycin, monensin and beta-acids from hops, showed inter- and intra-specific variability. In the pilot-scale fermentation, Lactobacillus brevis, L. casei and the majority of L. plantarum isolates were less sensitive to beta-acids than their counterparts from wine; L. brevis isolates from biofilms were also less sensitive to monensin when compared to the wine isolates. Biofilm formation and sensitivity to beta-acids showed a positive and negative correlation for L. casei and L. plantarum, respectively.     

The impact of heterologous catalase expression and superoxide dismutase overexpression on enhancing the oxidative resistance in <Emphasis Type="Italic">Lactobacillus casei</Emphasis>

Two heme-dependent catalase genes were amplified from genomic DNA of Lactobacillus plantarum WCFS1 (KatE1) and Lactobacillus brevis ATCC 367 (KatE2), respectively, and a manganese-containing superoxide dismutase from Lactobacillus casei MCJΔ1 (MnSOD) were cloned into plasmid pELX1, yielding pELX1-KatE1, pELX1-KatE2 and pELX1-MnSOD, then the recombinant plasmids were transferred into L. casei MCJΔ1. The strains of L. casei MCJΔ1/pELX1-KatE1 and L. casei MCJΔ1/pELX1-KatE2 were tolerant at 2 mM H₂O₂. The survival rates of L. casei MCJΔ1/pELX1-KatE1 and L. casei MCJΔ1/pELX1-KatE2 were 270-fold and 300-fold higher than that of the control strain on a short-term H₂O₂ exposure, and in aerated condition, the survival cells counts were 146- and 190-fold higher than that of the control strain after 96 h of incubation. Furthermore, L. casei MCJΔ1/pELX1-MnSOD was the best in three recombinants which was superior in the living cell viability during storage when co-storage with Lactobacillus delbrueckii subsp. lactis LBCH-1.     

Characterization of the levanase gene of Bacillus subtilis which shows homology to yeast invertase

Summary The structural gene for the enzyme levanase of Bacillus subtilis (SacC) was cloned in Escherichia coli. The cloned gene was mapped by PBS1 transduction near the sacL locus on the B. subtilis chromosome, between leu4 and aroD. Expression of the enzyme was demonstrated both in B. subtilis and in E. coli. The presence of sacC allowed E. coli to grow on sucrose as the sole carbon source. The complete nucleotide sequence of sacC was determined. It includes an open reading frame of 2,031 bp, coding for a protein with calculated molecular weight of 75,866 Da, including a putative signal peptide similar to precursors of secreted proteins found in Bacilli. The apparent molecular weight of purified levanase is 73 kDa. The sacC gene product was characterized in an in vitro system and in a minicellproducing strain of E. coli, confirming the existence of a precursor form of levanase of about 75 kDa. Comparison of the predicted aminoacid sequence of levanase with those of the two other known -D-fructofuranosidases of B. subtilis indicated a homology with sucrase, but not with levansucrase. A stronger homology was detected with the N-terminal region of yeast invertase, suggesting the existence of a common ancestor.     

Evaluation of Numerical Analysis of Random Amplified Polymorphic DNA (RAPD)-PCR as a Method to Differentiate Lactobacillus plantarum and Lactobacillus pentosus

Lactobacillus plantarum and Lactobacillus pentosus grouped into one protein profile cluster at r ≥ 0.70, separate from Lactobacillus casei, Lactobacillus sake, and Lactobacillus curvatus. Similar sugar fermentation reactions were recorded for representative strains of L. plantarum and L. pentosus. Representative strains, including the type of each species, were selected from the different protein profile clusters and their genetic relatedness determined by using numerical analysis of random amplified polymorphic DNA (RAPD)-PCR. The type strains of L. plantarum (ATCC 14917^T) and L. pentosus (NCFB 363^T) displayed different RAPD profiles and grouped into two independent clusters, well separated from L. casei, L. curvatus, and L. sake. Numerical analysis of RAPD-PCR proved a reliable and accurate method to distinguish between strains of L. plantarum and L. pentosus.     

Antagonistic activity of two potential probiotic bacteria from fish intestines and investigation of their effects on growth performance and immune response in rainbow trout (Oncorhynchus mykiss)

The probiotic activity of two bacterial strains, Lactobacillus casei and Lactobacillus plantarum, isolated from common carp intestines was studied using antagonistic tests in vitro against Yersinia ruckeri. Randomly assigned to triplicate groups were 450 rainbow trout (mean weight, 20 ± 3 g) fed three different diets: a commercial feed, or the same feed incorporated into either 5 × 10⁷ CFU g^?1 of L. casei or L. plantarum. After a 30‐day feeding trial, 30 fish in each group were challenged with Yersinia ruckeri by intraperitoneal injection. Growth parameters were significantly increased in both treatment groups. Immune parameters such as lysozyme activity, alternative complement activity and total immunoglobulin level were significantly higher in the L. casei group than in fish fed the control diet, while no significant differences were revealed between the L. plantarum and control groups. Mortality rates of fish fed L. casei and L. plantarum were lower than in fish fed the control diet after challenging with Y. ruckeri.     

Zum Abbau derl-Äpfelsäure durch Milchsäurebakterien

Zusammenfassung Es wird die Aktivität von intaktenL. plantarum-Zellen verschiedener Arten gegenüberl-Äpfelsäure, Oxalessigsäure und Brenztraubensäure getestet. Bei der Dissimilation vonl-Äpfelsäure lassen sich zwei pH-Optima unterscheiden, 2,6–3,0 für eine MDH-Aktivität und 3,6–4,0 für eine Malic-Enzym-Aktivität. Stoffwechselprodukte der Brenztraubensäure-Decarboxylierung sind außer Kohlendioxid Äthylalkohol und Acetoin bzw. Diacetyl.L. plantarum ist außerdem zur Oxydation der Brenztraubensäure befähigt. Ausl-Äpfelsäure entsteht kein Acetoin (Stamm L).

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The dissimilation ofl-malic acid by lactic acid bacteriaIV. The activity of intact cells ofLactobacillus plantarum particularly considering the decarboxylation of pyruvic acid

Summary The decomposition ofl-malic, oxaloacetic and pyruvic acids by intact cells of three strains ofL. plantarum is investigated. The dissimilation ofl-malic acid shows two pH-optima, at pH2.6–3.0 for a malatedehy drogenase activity and at pH 3.6–4.0 for a malic enzyme activity. The decarboxylation of pyruvic acid yields CO₂, ethyl alcohol, acetoin and diacetyl.L. plantarum is also able to oxidize pyruvic acid. The acetoin produced byL. plantarum Strain L does not originate froml-malic acid.

     

Penetration of poultry meat byPseudomonas andLactobacillus spp.

The penetration of poultry muscle strips byPseudomonas putida, P. fragi, Lactobacillus plantarum andL. casei was studied at 37°C. The first three bacteria penetrated along the muscular septa whileLactobacillus casei did not invade the poultry muscle strips at all. The penetration by both pseudomonads occurred throughout the 3 cm muscle strip butL. plantarum showed minor penetration up to 2 cm only.     

Behaviour of different Lactobacillus species in the production of lactic acid by the fermentation of whey

The behaviour of different Lactobacillus casei and Lactobacillus plantarum species in the fermentation of Manchego whey was experimentally studied and the results were statistically analyzed using a hypothesis contrast method. The steadiness of the velocity of the production of lactic acid during the fermentation process allowed the use of this variable to compare the different microorganisms. From this comparison it was inferred that the individuals of the same population behave alike and that the L. casei population produces lactic acid at a higher rate than the L. plantarum population. A competitive effect among the members of the L. casei population was also observed.     

Étude de quelques bacilles homolactiques isolés de vins

Résumé Les auteurs ont étudié 750 bactéries lactiques isolées de vins, en utilisant les tests et le système de classification de Rogosa et Sharpe. Parmi ce grand nombre de souches vingt-trois appartiennent au groupe des bacilles homolactiques et font l'objet du présent travail. Elles se répartissent de la façon suivante: 9 souches de Lactobacillus plantarum, 2 souches de Lactobacillus casei var. casei, 4 souches de Lactobacillus casei var. alactosus et 8 souches de Streptobacterium non classées, différentes des espèces précédentes.Les auteurs discutent la valcur de cette classification, lorsqu'on se place au point de vue technologique. Ils montrent qu'elle s'applique mal aux bactéries lactiques isolées de milieux fermentés acides comme le vin. Elle a peu d'intérêt pratique, car elle ne permet pas de repérer une souche et de prévoir par sa position systématique les constituants du vin que cette souche est susceptible de métaboliser.

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A study of some homofermentative lactic acid bacteria isolated from wines

Summary The authors have studied 750 strains of lactic acid bacteria isolated from wines. In this study the test and classification of Rogosa and Sharpe were used. Of the strains mentioned 23 belonged to the homolactie bacteria, including 9 strains of Lactobacillus plantarum, 2 strains of Lactobacillus casei var. casei, 4 strains of Lactobacillus casei var. alactosus, and 8 strains of a non-identified Streptobacterium species.The authors discuss the value of the classification mentioned from the point of view of wine technology. They conclude that it cannot be applied in the case of lactic acid bacteria isolated from acid fermentation products such as wine. It is only of little practical interest because it does not render the identification of the strains possible, nor does it permit a prediction of the wine constituents which the strains concerned are able to metabolize.

     

The role of quinate and shikimate in the metabolism of lactobacilli

The metabolism of (–)-quinate and shikimate by one heterofermentative strain,actobacillus pastorianus, and by one homofermentative strain,Lactobacillus plantarum, has been studied using growing and washed cells. Both organisms reduced quinate and shikimate under anaerobic conditions in the presence of suitable hydrogen donors including fructose, glucose andd(–) andl(+)-lactates. The end-product ofL.pastorianus metabolism was dihydroshikimate butL.plantarum carried the reduction a stage further tocis-3,4-dihydroxycyclohexanecarboxylate and formed, simultaneously, catechol. The enzymes involved in these reductions are induced; their importance in the metabolism of lactobacilli is discussed.     

Adhesion of the probiotic strains <Emphasis Type="Italic">Enterococcus mundtii</Emphasis> ST4SA and <Emphasis Type="Italic">Lactobacillus plantarum</Emphasis> 423 to Caco-2 cells under conditions simulating the intestinal tract,and in the presence of antibiotics and anti-inflammatory medicaments

Adhesion of Enterococcus mundtii ST4SA and Lactobacillus plantarum 423 to Caco-2 (human carcinoma epithelial) cells was visualized by fluorescent staining. Both strains showed good adhesion compared to L. casei MB1, L. casei Shirota, L. johnsonii La1 and L. rhamnosus GG. No correlation was found between hydrophobicity, aggregation and adhesion to Caco-2 cells. Presence of antibiotics and anti-inflammatory medicaments reduced adhesion of bacterial strains to Caco-2 cells. Proteins sensitive to pepsin, trypsin and pronase are involved in the adhesion of E. mundtii ST4SA and L. plantarum 423 to Caco-2 cells. Adhesion of Listeria monocytogenes ScottA to Caco-2 cells was not prevented by E. mundtii ST4SA and L. plantarum 423. Cell-free culture supernatants of strains ST4SA and 423, containing the antimicrobial peptides plantaricin 423 and peptide ST4SA, prevented the invasion of L. monocytogenes ScottA into Caco-2 cells.     

Detection of polygalacturonases and pectin esterases in lactic acid bacteria

Of 80 strains of lactic acid bacteria tested, only Lactobacillus casei strains HNK10 and L1–8, Lactobacillus plantarum Lc5 and Lactococcus lactis NN01 produced polygalacturonases (EC 3.2.1.) and/or pectin-esterases (EC 3.1.1.). Crude extracellular extracts of strain L1–8 were able to clarify pectin.     

Production of a Heterologous Nonheme Catalase by Lactobacillus casei: an Efficient Tool for Removal of H2O2 and Protection of Lactobacillus bulgaricus from Oxidative Stress in Milk

Lactic acid bacteria (LAB) are generally sensitive to H₂O₂, a compound that they can paradoxically produce themselves, as is the case for Lactobacillus bulgaricus. Lactobacillus plantarum ATCC 14431 is one of the very few LAB strains able to degrade H₂O₂ through the action of a nonheme, manganese-dependent catalase (hereafter called MnKat). The MnKat gene was expressed in three catalase-deficient LAB species: L. bulgaricus ATCC 11842, Lactobacillus casei BL23, and Lactococcus lactis MG1363. While the protein could be detected in all heterologous hosts, enzyme activity was observed only in L. casei. This is probably due to the differences in the Mn contents of the cells, which are reportedly similar in L. plantarum and L. casei but at least 10- and 100-fold lower in Lactococcus lactis and L. bulgaricus, respectively. The expression of the MnKat gene in L. casei conferred enhanced oxidative stress resistance, as measured by an increase in the survival rate after exposure to H₂O₂, and improved long-term survival in aerated cultures. In mixtures of L. casei producing MnKat and L. bulgaricus, L. casei can eliminate H₂O₂ from the culture medium, thereby protecting both L. casei and L. bulgaricus from its deleterious effects.     

Predominance of malolactic fermentation overd-glucose utilization inLactobacillus plantarum andLactobacillus curvatus wine strains

Summary Two selected wine strains of the genusLactobacillus (L. plantarum 197 andL. curvatus 783) were tested for their ability to complete malolactic fermentation (MLF) in a synthetic medium (PBM-broth) supplemented withL-malic acid (7.5–74.6 mM) andD-glucose (5.5–55 mM). The 24 directed fermentation assays, 12 for each bacterial strain, were carried out at 20°C and pH 3.5. MLF was completed (residualL-malic acid 0.2 mM) in eight days in 19 of the 24 fermentation assays, even in the presence of 74.6 mML-malic acid or 55.5 mMD-Glucose utilization was generally simultaneous to MLF but was completed (residual concentrations 0.2 mM) only in 6 of the 24 fermentation assays. These results support the use of these strains in directed MLF assays at the very differentL-malic acid andD-glucose concentrations tested.     

Batch fermentation with entrapped growing cells ofLactobacillus casei

Summary Growing cells ofLactobacillus casei were entrapped in-carrageenan/locust bean gum (LBG) (2:1 or 2.75%:0.25% w/w respectively) mixed gel beads (two ranges of diameter: 0.5–1.0 and 1.0–2.0 mm) to fermentLactobacillus Selection (LBS) medium and produce biomass. The results showed significant influence of initial cell loading of the beads and bead size on the fermentation rate. The highest cell release rates were obtained with 2.75%:0.25%-carrageenan/LBG small diameter gel beads. However, 17 h fermentation of LBS medium with immobilized cells resulted in substantial softening of the gel matrix, prohibiting reuse of immobilized biocatalysts as inoculum in subsequent batch fermentation. A dynamic shear rheological study showed that the gel weakness was related to chemical interactions with the medium. Results indicated that part of the matrix-stabilizing K⁺ ions diffused back to the medium. Stabilization of the gel was obtained by adding potassium ions to the LBS medium;L. casei growth was not altered by this supplementation. Fermentation of LBS medium supplemented with KCl byL. casei showed higher cell counts in the broth medium with immobilized cells than with free cells, reaching 10¹⁰ cells/ml after about 10 h with entrapped cells in 0.5–1.0 mm diameter beads and 17 h with free cells. Counts in the gel beads after fermentation were higher than 10¹¹ cells/ml and bead integrity was maintained throughout fermentation.     

Optimization of fermented Perilla frutescens seeds for enhancement of gamma-aminobutyric acid and bioactive compounds by Lactobacillus casei TISTR 1500

Abstract

Select LAB, including Lactobacillus fermentum TISTR 950, Lactobacillus plantarum TISTR 2265 and Lactobacillus casei TISTR 1500 were investigated for their ability to enhance GABA, TPC and the antioxidant activity of perilla seed juice. L. casei TISTR 1500 produced higher GABA and TPC contents and presented higher antioxidant activity than other strains. Furthermore, the optimal fermentation condition to perilla seeds inoculated with L. casei TISTR 1500 to improve the GABA, TPC and antioxidant activity was performed using 3³ full factorial design. The final optimal values for perilla fermentation was found at fermentation time of 4.82 days (4 days 19?h 40?min), initial substrate of 5% (w/v) and fermentation temperature of 30.07?°C. Under the optimal fermentation condition, an observed values of GABA, TPC, ABTS, DPPH and FRAP were 71.46 µg/g, 3175.00 µg GAE/g, 1991.40 µg TEAC/g, 9178.29 µg TEAC/g and 7753.34 µg TEAC/g, respectively, which was 3.3, 0.9, 2.9, 10.8 and 10.2 times higher than that of unfermented perilla seeds, and 2.1, 0.8, 0.9, 10 and 9.2 times of fermented perilla seeds before the optimization. These results may provide the foundation to further target in industrial application for the production of plant-based and develop functional perilla seed products containing GABA.

• Highlights

• Improved GABA, TPC and antioxidant contents were found using Lactobacillus casei TISTR 1500

• Full factorial design applied to optimize fermented perilla seeds by lactic acid fermentation

• The optimized conditions dramatically increased GABA and TPC contents

     

Structural and functional analysis of two cryptic plasmids from Lactobacillus pentosus MD353 and Lactobacillus plantarum ATCC 8014.

Summary The DNA sequences of a 2.4 kb plasmid (p353-2) from Lactobacillus pentosus MD353 and a 1.9 kb plasmid (p8014-2) from Lactobacillus plantarum ATCC 8014 show 81.5% overall similarity. Both plasmids carry elements (replication protein gene, plus-origin and minus-origin of replication), which are typical of plasmids that replicate via a rolling-circle mechanism of replication (RCR). Direct evidence for an RCR mechanism was obtained by showing the accumulation of single-stranded plasmid intermediates in the presence of rifampicin. A minus-origin of replication was defined for plasmids p353-2 and p8014-2 based on DNA sequence analysis and on its ability to convert single-stranded into double-stranded plasmid DNA. Plasmids pLPE323, pLPE350 and pLPC37 that are derived from the p353-2 or p8014-2 replicon are structurally and segregationally stable in L. pentosus MD353, L. plantarum ATCC 8014 and in Lactobacillus casei ATCC 393. The presence of Escherichia coli or DNA fragments in vectors derived from p353-2 or p8014-2 does not affect the structural stability but results in segregational instability of the vectors. The instability increases with increasing size of the inserted DNA fragment. Since vectors based on these replicons can be efficiently propagated in a wide variety of Lactobacillus species, they are highly suitable for cloning and expression of foreign DNA in Lactobacillus, provided that selective pressure is applied.This paper is dedicated with great appreciation to Dr. Frits Berends on the occasion of his retirement as Head of the Biochemistry Department of the TNO Medical Biological Laboratory     

High-frequency transformation ofLactobacillus casei with plasmid pHY300PLK by electroporation

To optimize the conditions for transformation ofLactobacillus casei ATCC 27092 cells with plasmid pHY300PLK, a shuttle vector forEscherichia coli andBacillus subtilis, by electroporation, we investigated the effects of the electrical parameters (voltage and resistance), the concentration of plasmid DNA, the cell age and density, the electroporation buffer, and other factors. Under optimal conditions of 2.0 kV, 100 ohm, and 25F, a transformation efficiency as high as 1.4×10⁷ transformants per g of plasmid DNA was obtained, with a survival rate of about 50%.L. casei YIT 9021, one of the PL-1 phage mutants of the ATCC 27092 strain, was also transformed with the same plasmid under optimal conditions. The transformants were confirmed to harbor the same intact plasmid molecules by agarose gel electrophoretic analysis.     

Biosynthesis of poly (γ-glutamic acid) from l-glutamine,citric acid and ammonium sulfate in Bacillus subtilis IFO3335

Poly(-glutamic acid) (PGA) production in Bacillus subtilis IFO3335 was studied. PGA was only slightly produced from medium (100 ml) containing 2 g citric acid and 0.5 g ammonium sulfate in B. subtilis IFO3335. When 0.01 g/100 ml l-glutamine was added to this medium, a large amount of PGA (0.45 g/100 ml), without any by-products such as polysaccharides, was produced. The changes in cell growth, and PGA, glutamic acid, citric acid and ammonium sulfate concentrations in this medium during cultivation were investigated. It was found that PGA was effectively produced for the short time of 20 h after an induction period and that glutamic acid was scarcely excreted during PGA production. PGA could be effectively produced using this medium containing l-glutamine, citric acid and ammonium sulfate. It is suggested that a small amount of l-glutamine added to the medium activated enzymes in the pathway of PGA synthesis in B. subtilis IFO3335. It can be presumed that the enzyme catalyzing the reaction from 2-oxoglutaric acid to l-glutamic acid was glutamate synthase in this bacterium.