Properties of Bac W42, a bacteriocin produced by Bacillus subtilis W42 isolated from Cheonggukjang

Ten Bacillus strains with antimicrobial activities were isolated from Cheonggukjang produced at different parts in Korea. They all inhibited Listeria monocytogenes ATCC 19111 and nine inhibited Bacillus cereus ATCC 14579. Four isolates (W42, H27, SKE 12, and K21) showing strong inhibiting activities were identified as B. subtilis. B. subtilis W42 was the most inhibiting strain. The antimicrobial activity of culture supernatant from B. subtilis W42 was destroyed completely by proteinase K treatment, indicating that a bacteriocin was the responsible agent. The bacteriocin, Bac W42, was most stable at pH 7 and stable between pH 3-6 and 8-9. Bac W42 was stable up to 80°C. BHI (brain heart infusion) and TSB (tryptic soy broth) were the best media for the activity (320 AU/ml) followed by LB (160 AU/ml). Bac W42 was partially purified by column chromatographies. The specific activity was increased from 1,151.2 AU/ml to 9,043.5 AU/ml and the final yield was 26.3%. Bac W42 was 5.4 kDa in size as determined by SDS-PAGE. Bac W42 showed bactericidal activity against L. monocytogenes ATCC 19111.     

Determination of the growth stages of Lactobacillus paracasei subsp. paracasei M3 from Bulgarian yellow cheese by electroconductivity.

The growth curve and the bacteriocin production by Lactobacillus paracasei subsp. paracasei M3-a strain isolated from Bulgarian yellow cheese, was studied using electroconductivity measurements in the culture medium (MRS). The bacteriocin produced by this bacterium inhibits strains belonging to the Candida species as well as Bacillus subtilis ATCC 6633.The use of the direct impedance technique coupled with statistical treatment of the results for the strain's growth curve allowed the detection of the growth phase-related bacteriocin production. Definition of the average particle size and aggregation estimations for the cells of the bacteriocin-producing strain was also possible. The comparison of results of impedance measurements with results obtained by classic microbiological methods and microscopic observations confirms the good correlation between these methods. In addition, the advantages of an impedance method such as rapidity, simplicity and higher sensitivity are highlighted.     

Evaluation of six methods for extraction and purification of viral DNA from urine and serum samples

The sensitivity and reliability of PCR for diagnostic and research purposes require efficient unbiased procedures of extraction and purification of nucleic acids. One of the major limitations of PCR-based tests is the inhibition of the amplification process by substances present in clinical samples. This study used specimens spiked with a known amount of plasmid pBKV (ATCC 33-1) to compare six methods for extraction and purification of viral DNA from urine and serum samples based on recovery efficiency in terms of yield of DNA and percentage of plasmid pBKV recovered, purity of extracted DNA, and percentage of inhibition. The most effective extraction methods were the phenol/chloroform technique and the silica gel extraction procedure for urine and serum samples, respectively. Considering DNA purity, the silica gel extraction procedure and the phenol/chloroform method produced the most satisfactory results in urine and serum samples, respectively. The presence of inhibitors was overcome by all DNA extraction techniques in urine samples, as evidenced by semiquantitative PCR amplification. In serum samples, the lysis method and the proteinase K procedure did not completely overcome the presence of inhibitors.     

Thermophilin 110: A Bacteriocin of Streptococcus thermophilus ST110

A screen of thermophilic lactic acid bacteria identified Streptococcus thermophilus strain ST110 as the putative producer of a bacteriocin with high level of activity against pediococci. Thermophilin 110 was isolated from culture supernatant after 16 h of growth and partially purified by a chloroform extraction procedure. The bacteriocin inhibited the growth of several lactic acid bacteria and in the case of Pediococcus acidilactici, it induced cell lysis with the concomitant release of OD₂₆₀ - absorbing material and intracellular enzymes. SDS-PAGE analysis revealed two components with estimated sizes between 4.0 kDa and 4.5 kDa, respectively, with possible involvement in bacteriocin activity as indicated by agar overlay assays with P. acidilactici as the target organism. Thermophilin 110 was inactivated by several proteolytic enzymes and also by α-amylase, which indicated the putative requirement of a glycosidic component for activity. The bacteriocin produced by S. thermophilus may be especially useful in the food processing industries to control spoilage caused by pediococci.     

Note: Purification and characterization of the bacteriocin PsVP-10 produced by Pseudomonas sp.

A bacteriocin (bacteriocin PsVP-10) produced by Pseudomonas sp. R-10 was purified by a simple method that included an extraction of the bacteriocin with chloroform, followed by cation exchange chromatography. The purity of the bacteriocin was verified by RP-HPLC. It is a peptide of 2·4 kDa, very stable to heat, to proteolytic enzymes and to pH. It presents a very broad spectrum of antimicrobial activity against Gram-positive and Gram-negative bacteria.     

Optimizing iron supplement strategies for enhanced surfactin production with Bacillus subtilis

Supplement of Fe(2+) into fermentation medium was utilized as a tool to optimize the iron-mediated enhancement of surfactin production from Bacillus subtilis ATCC 21332. Up to 3000 mg L(-)(1) of surfactin was produced using an iron-enriched minimal salt (MS) medium amended with an optimal Fe(2+) dosage of 4.0 mM, leading to 8-fold and 10-fold increase in cell concentration and surfactin yield, respectively, as compared to those without Fe(2+) supplement. In addition to resulting in an optimal production yield of surfactin, a supplement of 4.0 mM of Fe(2+) also propelled maximum overall surfactin production rate to a highest value of 24 mg L(-)(1) h(-)(1). Our results also show that production of surfactin followed a growth-associated kinetic model. The best yield coefficient estimated from the model was ca. 162 mg surfactin (g dry cell)(-)(1). The supernatant of the iron-enriched culture of B. subtilis ATCC 21332 exhibited the ability to emulsify kerosene and achieved a maximum emulsion index (E(24)) of 80% for culture supplemented with 4.0 mM of Fe(2+). Comparison of emulsion index and the corresponding surfactin production indicates that the emulsification activity was essentially contributed by surfactin.     

Triton X-114 phase partitioning for the isolation of a pediocin-like bacteriocin from Carnobacterium divergens

A new procedure combining Triton X-114 phase partitioning and cation exchange chromatography was developed to purify a bacteriocin from a complex culture medium. This pediocin-like bacteriocin, secreted by Carnobacterium divergens and named divercin V41, was entirely recovered in the lower detergent-rich phase whereas all other substances (compounds from culture medium, bacterial metabolites) remained in the upper detergent-poor phase. Subsequent cation-exchange chromatography of the TX-114-rich phase allowed recovery of the pure active bacteriocin and also detergent removing. This new purification method is versatile, fast (only two steps) and can be carried out on whole broth.     

Characterization of minimal bacteriocin operon from Prevotella nigrescens ATCC 25261

AIMS: To characterize a minimal bacteriocin operon of Prevotella nigrescens ATCC 25261. METHODS AND RESULTS: A genomic DNA library of Pr. nigrescens ATCC 25261 was constructed and screened for bacteriocin production by an agar overlay assay. Sequence analysis of the bacteriocin-producing recombinant plasmid, pGP2, has shown that the insert DNA consists of 4868 base pairs, termed nig locus. There is a cluster of four genes within the nig locus, respectively designated nigA, B, C and D. Deleting 160 nucleotides at the 3'-end of nigAB resulted in loss of bacteriocin production, indicating that nigAB may belong to a bacteriocin operon. nigA is thought to be the bacteriocin gene, while nigB may encode an immunity protein. Escherichia coli containing pGP2 expressed the bacteriocin, which is similar in size, antimicrobial activity, and biochemical properties to that purified from Pr. nigrescens ATCC 25261. CONCLUSION: nig Locus is a chromosomal fragment of Pr. nigrescens ATCC 25261, consisting of 4868 base pairs, and has been proved to be important for bacteriocin production. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first report of the successful cloning and expression of the bacteriocin from Pr. nigrescens ATCC 25261 into E. coli. This will facilitate the construction of bacteriocin analogues and permit investigation of their structure/function relationships.     

Characterization of an antibacterial peptide produced by Brevibacterium linens

AIMS: The aim of this research was to investigate the antimicrobial activity produced by Brevibacterium linens ATCC 9175. METHODS AND RESULTS: A bacteriocin produced by the red smear cheese bacterium B. linens ATCC 9175 was identified. The antimicrobial activity was first produced at the exponential growth phase. A crude bacteriocin obtained from the culture supernatant fluid was inhibitory to some indicator strains. It inhibited the growth of Listeria monocytogenes ATCC 7644, B. linens ATCC 9172 and Corynebacterium fimi NCTC 7547, but was inactive against the Gram-negative bacteria and yeast tested. The bacteriocin was stable at 30 degrees C but the activity was lost when the temperature reached 50 degrees C. It was sensitive to the proteolytic action of trypsin, papain and pronase E and was active between pH 6.0 and 9.0. The bacteriocin was bactericidal to L. monocytogenes at 40 AU ml(-1). Bacteriostasis was observed for a low dose of bacteriocin (20 AU ml(-1)). CONCLUSIONS: An antibacterial peptide produced by B. linens was characterized, presenting potential for use as a biopreservative in food systems. SIGNIFICANCE AND IMPACT OF THE STUDY: The identification of a novel bacteriocin active against L. monocytogenes addresses an important aspect of food protection against pathogens and spoilage micro-organisms.     

Detection and characterization of cerein 7, a new bacteriocin produced by Bacillus cereus with a broad spectrum of activity

A bacteriocin-producing strain of Bacillus cereus was identified and isolated from a soil sample. The bacteriocin could be purified by a two-step procedure: ammonium sulfate precipitation of culture supernatants followed by a butanol extraction step, the antibiotic was recovered from the organic phase. The peptidic nature of the bacteriocin was proven by its sensitivity to proteolytic enzymes; its molecular mass, determined by mass spectrometry, was 3940 Da; and its amino-terminal sequence (GWGDVL) is unique in the databases. The compound was active against most Gram-positive but not Gram-negative bacteria. This is to our knowledge the first bacteriocin with these characteristics reported to be produced by B. cereus.     

Purification and characterization of a bacteriocin produced by Lactobacillus acidophilus IBB 801

Lactobacillus acidophilus IBB 801 produces a small bacteriocin, designated acidophilin 801, with an estimated molecular mass of less than 6.5 kDa. It displays a narrow inhibitory spectrum (only related lactobacilli but including the Gram-negative pathogenic bacteria Escherichia coli Row and Salmonella panama 1467) with a bactericidal activity. The antimicrobial activity of cell-free culture supernatant fluid was insensitive to catalase but sensitive to proteolytic enzymes such as trypsin, proteinase K and pronase, heat-stable (30 min at 121 degrees C), and maintained in a wide pH range. The proteinaceous compound was isolated from cell-free culture supernatant fluid and purified. Crude bacteriocin was isolated as a floating pellicle after ammonium sulphate precipitation (40% saturation) and partially purified by extraction/precipitation with chloroform/methanol (2/1, v/v). Further purification to homogeneity was performed by reversed phase Fast Performance Liquid Chromatography. The amino acid composition was determined. Amino acid sequencing revealed that the N-terminal end was blocked.     

Optimization and biochemical characterization of a bacteriocin from a newly isolated Bacillus subtilis strain 14B for biocontrol of Agrobacterium spp. strains

Aims:  The identification of a new compound active against Agrobacterium tumefaciens .
Methods and Results:  The culture conditions of a newly isolated Bacillus subtilis strain, designed 14B, were optimized, as a first step, to produce its bacteriocin (termed Bac 14B) for the biocontrol of Agrobacterium spp., the causal agents of the crown gall disease. Bac 14B was then partially purified and biochemically characterized. Bacillus subtilis 14B was observed to produce an antibacterial compound having a protinaceous nature. As estimated by sodium dodecyl sulfate-polyacrilamide gel electrophoresis (SDS-PAGE), the semi-purified bacteriocin substance was found to be a monomeric protein with a molecular weight of 21 kDa. While the latter's antimicrobial activity was completely stable during exposure to a temperature range of up to 100°C for 2 h, its initial activity was totally lost at 121°C for 20 min. The maximum bacteriocin production (4096 AU ml⁻¹) was recorded after 96 h-incubation in an optimized Luria Bertani medium supplemented with 10 g l⁻¹ glucose, 15 g l⁻¹ K₂HPO₄ and 5 g l⁻¹ MgSO₄ 7H₂O at 30°C in a shaking flask culture. Interestingly, the B. subtilis 14B culture supernatant that contained the bacteriocin under study was proved efficient in reducing both the percentage of galled plants and the number of galls in tomato.
Conclusion:  The findings revealed that B. subtilis 14B and its bacteriocin are efficient in reducing the percentage of infections in plants caused by Ag. tumefaciens .
Significance and Impact of the Study:  The results could be useful for the nurserymen who are particularly interested in the biocontrol of the crown gall disease.     

Purification, amino acid sequence and characterization of Bacthuricin F4, a new bacteriocin produced by Bacillus thuringiensis

AIMS: Purification and characterization of a new bacteriocin, Bacthuricin F4 of Bacillus thuringiensis. METHODS AND RESULTS: A newly isolated B. thuringiensis subsp. kurstaki strain BUPM4, was shown to produce a novel bacteriocin named Bacthuricin F4. The highest bacteriocin activity was found in the growth medium and evidenced in the late exponential growth phase. Bacthuricin F4 could be purified by a two-step procedure: ammonium sulphate precipitation of protein from culture supernatant followed by a reverse phase chromatography. Upon purification, the specific activity was increased 100-fold. This bacteriocin was heat-stable up to 70 degrees C and resisted up to pH 3.0. Bacthuricin F4 was sensitive to proteases demonstrating its proteinaceous nature. Its molecular mass, determined by mass spectrometry was 3160.05 Da. Direct N-terminal sequencing of Bacthuricin F4 revealed the following sequence: DWTXWSXL. The latter was unique in the databases. Bacthuricin F4 was active against Bacillus species while it had little or no effect on Gram-negative bacteria. CONCLUSIONS: A strain BUPM4 of B. thuringiensis subsp. kurstaki, was shown to produce a new bacteriocin named Bacthuricin F4 of both new molecular mass (3160.05 Da) and new amino acid terminal sequence. This is, to our knowledge, the first bacteriocin exhibiting such characteristics reported to be produced by B. thuringiensis. SIGNIFICANCE AND IMPACT OF THE STUDY: The bacteriocin produced by the B. thuringiensis strain BUPM4 respond to both criteria of thermostability and stability to low pHs. Thus, it could be used for the control of the related species of Bacillus harmful for agricultural products.     

Purification and amino acid sequence of a bacteriocin produced by Pediococcus acidilactici.

A bacteriocin produced by Pediococcus acidilactici has been purified to homogeneity by a rapid and simple four-step purification procedure which includes ammonium sulphate precipitation, chromatography with a cation-exchanger and Octyl Sepharose, and reverse-phase chromatography. The purification resulted in an approximately 80,000-fold increase in the specific activity and about a 6-fold increase in the total activity. The amino acid composition and sequencing data indicated that the bacteriocin contained 43-44 amino acid residues. The predicted M(r) and isolectric point of the bacteriocin are about 4600 and 8.6, respectively. Comparing the amino acid sequence of this bacteriocin with the sequences of leucocin A-UAL 187, sakacin P and curvacin A (bacteriocins produced by Leuconostoc gelidum, Lactobacillus sake and Lactobacillus curvatus, respectively) revealed that all four bacteriocins had in their N-terminal region the sequence Tyr-Gly-Asn-Gly-Val-Xaa-Cys, indicating that this concensus sequence is of fundamental importance for this group of bacteriocins. The bacteriocin from P. acidilactici and sakacin P were very similar, having at least 25 common amino acid residues. The sequence similarity was greatest in the N-terminal half of the molecules--17 of the first 19 residues were common--indicating the fundamental importance of this region. Leucocin A-UAL 187 and curvacin A had, respectively, at least 16 and 13 amino acid residues in common with the bacteriocin from P. acidilactici.     

Purification and characterization of brochocin A and brochocin B(10-43), a functional fragment generated by heterologous expression in Carnobacterium piscicola

Brochothrix campestris ATCC 43754 produces a heat-stable, two-component, nonlantibiotic, class IIb bacteriocin, brochocin C (BrcC), that is active against a broad range of gram-positive bacteria, including spores of Clostridium botulinum. An improved purification method was developed for BrcC, in which n-butanol and chloroform extraction are used. Mass spectral characterization of the two components, brochocin A (BrcA) and brochocin B (BrcB), showed that both components are excreted into the medium by B. campestris as mature peptides consisting of 59 and 43 amino acids, respectively. Separate expression clones of BrcA and BrcB were constructed previously in Carnobacterium piscicola LV17C, but the products were not chemically characterized. Purification by the new protocol showed that BrcA is expressed as the mature 59-amino-acid peptide but that BrcB is produced by C. piscicola as a fragment, BrcB(10-43), which is cleaved at an internal Gly-Gly site. This fragment is not antimicrobial by itself, but in combination with BrcA it displays the full activity of the BrcC complex. Circular dichroism measurements revealed a high beta-sheet content in the secondary structure of both BrcA and BrcB(10-43), as well as in a 1:1 BrcA-BrcB(10-43) mixture. Separate expression clones of brcA and brcB were also constructed in Escherichia coli, but these clones only produced multiple fragments of the desired peptides with little or no activity.     

An Escherichia coli cell membrane chromatography-offline LC-TOF-MS method for screening and identifying antimicrobial peptides from Jatropha curcas meal protein isolate hydrolysates

A novel, simple, and rapid method, named cell membrane affinity extraction (CMAE)-offline liquid chromatography time-of-flight mass spectrometry (LC-TOF-MS) was developed for screening and identifying antimicrobial peptides from Jatropha curcas meal protein isolate hydrolysates (JCMPIH) obtained by proteolytic enzyme (pepsin, trypsin, protamex, neutrase, flavourzyme, papain, alcalase, and acid protease) hydrolysis. A cationic antimicrobial peptide (CAILTHKR, JCpep8) was successfully isolated and identified by this method. Antimicrobial assay indicated that JCpep8 was active against the tested microorganisms (Escherichia coli ATCC 25922, Shigella dysenteriae ATCC 51302, Pseudomonas aeruginosa ATCC 27553, Staphylococcus aureus ATCC 25923, Bacillus subtilis ATCC 23631, Streptococcus pneumoniae ATCC 49619) with minimal inhibitory concentration values ranging from 29 to 68 μg/mL. JCpep8 induced significant morphological alterations of the tested microbe surfaces, as shown by transmission electron microscopy, indicating strong membrane disruption. The results showed that CMAE-offline LC-TOF-MS could be a promising method for discovering high-throughput screening antimicrobial peptides from JCMPIH.     

Development and application of a microtiter plate-based autoinduction bioassay for detection of the lantibiotic subtilin

Production of the lantibiotic subtilin in Bacillus subtilis ATCC 6633 is regulated in a quorum sensing-like mechanism with subtilin acting as autoinducer and signal transduction via the subtilin-specific two-component regulation system SpaRK. Here, we report the construction and application of a subtilin reporter strain in which subtilin induced lacZ gene expression in a B. subtilis ATCC 6633 spaS gene deletion mutant is monitored and visualized by the beta-galactosidase in a chromogenic plate assay. A quantitative microtiter plate subtilin bioassay was developed and optimized. Maximal sensitivity of the system was achieved after 6 h of incubation of the reporter strain together with subtilin in a medium containing 300 mM NaCl. This sensitive and unsusceptible method was applied to identify subtilin producing B. subtilis wild type strains from both, culture collections and soil samples. The B. subtilis lantibiotic ericin S with four amino acid exchanges compared to subtilin induces the subtilin reporter strain, in contrast to the structurally closely related Lactococcus lactis lantibiotic nisin. These observations suggest a certain substrate specificity of the histidine kinase SpaK, which however, also would allow the identification of subtilin-isoform producing microorganisms.     

Isolation,partial purification and preliminary characterization of a bacteriocin from Streptococcus mutans Rm-10

An extracellular bactericidal substance was isolated from the supernatant of Streptococcus mutans Rm-10 culture fluid and partially purified with 60% ammonium sulfate precipitation, differential centrifugation, and gel filtration on Sephadex G-200. There was a good correlation of the sensitivity profiles of indicator strains whether assayed on solid medium or with purified material from cell-free culture fluid, indicating that the same inhibitory substance is produced on solid medium and in broth. Vapor from organic solvents such as chloroform, acetone, ethanol, and ether as well as heat treatment at 100 degrees C for 30 min had little effect on the bactericidal factor. It was sensitive to trypsin and pronase and resistant to deoxyribonuclease, ribonuclease, lysozyme, and phospholipase C. The inhibitor was not infective, and electron microscopic studies failed to reveal phage or phage-like particles in concentrated solutions of the bactericidal material. The results indicate that the extracellular bactericidal substance is indeed a bacteriocin. Activity in broth cultures reached a maximum only after exponential growth had ceased. It was active against other streptococcal strains as well as strains of Actinomyces naeslundii, A. viscosus, Bacillus subtilis and Staphylococcus aureus, but not against strains of Fusobacterium nucleatum and Escherichia coli.     

Expanded bed adsorption as a unique unit operation for the isolation of bacteriocins from fermentation media

Expanded bed adsorption using a strong cation exchanger allowed the direct isolation of amylovorin L471, a bacteriocin from Lactobacillus amylovorusDCE 471, from the fermentation medium. The pH of the loading and elution buffer were optimised in a packed bed with cell-free culture supernatant. Bound bacteriocin was eluted with 1.0 M NaCl. The highest recovery (30%) was obtained at the lowest pH (3.6). At higher pH values the recovery was lower, namely 12%, 15% and 7% at pH 4.5, 6.5 and 8.0, respectively. In expanded bed mode, direct isolation of the bacteriocin from the fermentation medium at pH 3.6 (loading and elution) initially resulted in a recovery of 12%. After optimisation of the pH (loading and elution at pH 3.6 and 6.5, respectively), the recovery for amylovorin L471 increased up to 30% and higher. Recovery of enterocin A from Enterococcus faeciumCTC 492 fermentation medium averaged 15% (loading and elution at pH 3.6 and 6.0, respectively). With pediocin, produced by Pediococcus acidilactici ATCC 8042, 26% recovery was obtained at a pH of 6.5 during loading and elution. Low recoveries can be ascribed to non-optimal operation conditions (pH of loading and elution buffer), inactivation of the bacteriocin on a cationic resin, and the formation of more insoluble and less active, strongly hydrophobic bacteriocin aggregates upon further purification.