Development of a PCR assay for identification of the Bacillus cereus group species

Aims:  A PCR technique was developed as a reliable and rapid identification method for the Bacillus cereus group species, based on a unique conserved sequence of the motB gene (encoding flagellar motor protein) from B. cereus , Bacillus thuringiensis and Bacillus anthracis .
Methods and Results:  Primer locations were identified against eight strains of the B. cereus group spp. from nucleotide sequences available in the National Centre for Biotechnology Information database. The PCR assay was applied for the identification of 117 strains of the B. cereus group spp. and 19 strains from other microbial species, with special emphasis on foodborne pathogens.
Conclusion:  The designed cross-species primers are group specific and did not react with DNA from other Bacillus and non- Bacillus species either motile or not. The primers system enabled us to detect 10³ CFU of B. cereus cells per millilitre of sample.
Significance and Impact of the Study:  Bacillus cereus group spp. belongs to one of the most prevalent foodborne pathogens. Bacterial growth results in production of different toxins; therefore, consumption of food containing >10⁶ bacteria per gram may result in emetic and diarrhoeal syndromes. A rapid and sensitive bacterial detection method is significant for food safety.     

The combined effects of high pressure and nisin on germination and inactivation of Bacillus spores in milk

Aims:  The aim of this work was to investigate the germination and inactivation of spores of Bacillus species in buffer and milk subjected to high pressure (HP) and nisin.
Methods and Results:  Spores of Bacillus subtilis and Bacillus cereus suspended in milk or buffer were treated at 100 or 500 MPa at 40°C with or without 500 IU ml⁻¹ of nisin. Treatment at 500 MPa resulted in high levels of germination (4 log units) of B. subtilis spores in both milk and buffer; this increased to >6 logs by applying a second cycle of pressure. Viability of B. subtilis spores in milk and buffer was reduced by 2·5 logs by cycled HP, while the addition of nisin (500 IU ml⁻¹) prior to HP treatment resulted in log reductions of 5·7 and 5·9 in phosphate buffered saline and milk, respectively. Physical damage of spores of B. subtilis following HP was apparent using scanning electron microscopy. Treating four strains of B. cereus at 500 MPa for 5 min twice at 40°C in the presence of 500 IU ml⁻¹ nisin proved less effective at inactivating the spores of these isolates compared with B. subtilis and some strain-to-strain variability was observed.
Conclusions:  Although high levels of germination of Bacillus spores could be achieved by combining HP and nisin, complete inactivation was not achieved using the aforementioned treatments.
Significance and Impact of the Study:  Combinations of HP treatment and nisin may be an appealing alternative to heat pasteurization of milk.     

Potential of Bacillus sp. to produce polyhydroxybutyrate from biowaste

Aim:  To test the Bacillus strains for their abilities to produce polyhydroxybutyrate (PHB) from different sugars and biowaste (Pea-shells).
Methods and Results:  Six Bacillus strains were checked for their ability to produce PHB from GM2 medium supplemented with different sugars at the rate of 1% (w/v) and from biowaste and GM2 (BW : M) combinations (3 : 7, 1 : 1, 7 : 3). Glucose supplemented GM2 medium resulted in maximum PHB production of 435 mg l⁻¹ constituting 31–62% w/w of the total cell dry mass. Substituting GM2 medium to the extent of 50% with biowaste (pea-shell slurry) resulted in 945–1205 mg l⁻¹ PHB (55–65% w/w). Optimization for additional nitrogen supplementation, inoculum size resulted in a final PHB production of 3010–3370 mg l⁻¹ equivalent to 300 g kg⁻¹ biowaste (dry wt).
Conclusion:  The Bacillus strains were able to produce PHB from biowaste (Pea-shells) as cheap source of substrate.
Significance and Impact of the Study:  This is the first report on usage of pea-shells as feed for PHB production, opening new possibilities for its use for production of PHB and Bacillus as potential candidate for the purpose.     

A strict anaerobic extreme thermophilic hydrogen-producing culture enriched from digested household waste

Aims:  The aim of this study was to enrich, characterize and identify strict anaerobic extreme thermophilic hydrogen (H₂) producers from digested household solid wastes.
Methods and Results:  A strict anaerobic extreme thermophilic H₂ producing bacterial culture was enriched from a lab-scale digester treating household wastes at 70°C. The enriched mixed culture consisted of two rod-shaped bacterial members growing at an optimal temperature of 80°C and an optimal pH 8·1. The culture was able to utilize glucose, galactose, mannose, xylose, arabinose, maltose, sucrose, pyruvate and glycerol as carbon sources. Growth on glucose produced acetate, H₂ and carbon dioxide. Maximal H₂ production rate on glucose was 1·1 mmol l⁻¹ h⁻¹ with a maximum H₂ yield of 1·9 mole H₂ per mole glucose. 16S ribosomal DNA clone library analyses showed that the culture members were phylogenetically affiliated to the genera Bacillus and Clostridium. Relative abundance of the culture members, assessed by fluorescence in situ hybridization, were 87 ± 5% and 13 ± 5% for Bacillus and Clostridium , respectively.
Conclusions:  An extreme thermophilic, strict anaerobic, mixed microbial culture with H₂-producing potential was enriched from digested household wastes.
Significance and Impact of the Study:  This study provided a culture with a potential to be applied in reactor systems for extreme thermophilic H₂ production from complex organic wastes.     

The Production of Bacillus cereus Enterotoxins Is Influenced by Carbohydrate and Growth Rate

Enterotoxin production is a key factor in Bacillus cereus food poisoning. Herein, the effect of the growth rate (μ) on B. cereus toxin production when grown on sucrose was studied and the Hemolytic BL enterotoxin (HBL) and nonhemolytic enterotoxin (Nhe) production by B. cereus was compared according to carbohydrate at μ = 0.2 h⁻¹. The anaerobic growth was carried out on continuous cultures in synthetic medium supplemented with glucose, fructose, sucrose, or an equimolar mixture of glucose and fructose. Concerning the HBL and Nhe enterotoxin production: (1) the highest enterotoxin production has occurred at μ = 0.2 h⁻¹ when growing on sucrose; (2) HBL production was repressed when glucose was consumed and the presence of fructose (alone or in mixture) cancelled glucose catabolite repression; (3) the consumption of sucrose increased Nhe production, which was not affected by the catabolite repression. Furthermore, analysis of the fermentative metabolism showed that whatever the μ or the carbon source, B. cereus used the mixed acid fermentation to ferment the different carbohydrates. The enterotoxin productions by this strain at μ = 0.2 h⁻¹ are highly influenced by the carbohydrates that do not involve any fermentative metabolism changes.     

Mg2+-free buffer elevates transformation efficiency of Vibrio parahaemolyticus by electroporation

Aims:  The ability to transform Vibrio spp. is limited by the extracellular nuclease that their cells secrete. The reported transformation efficiency of this organism is 10²–10⁵ transformants per microgram DNA. We tried different buffers and conditions, aiming to elevate its transformation efficiency.
Methods and Results:  MgCl₂ and sucrose are often included in the washing and/or electroporation buffers to stabilize the cell membrane. However, Mg²⁺ is required for production and activity of the extracellular nuclease. A simple electroporation buffer lacking Mg²⁺ was found to increase transformation efficiency dramatically, to levels 50-fold more than the buffers containing Mg²⁺. To maintain the stability of the cell membranes, Mg²⁺ was replaced with high concentrations of sucrose, from 272 to 408 mmol l⁻¹. With the new buffers, the transformation efficiency of Vibrio parahaemolyticus was increased to 2·2 × 10⁶ transformants per microgram DNA.
Conclusions:  Mg²⁺ in the buffer adversely affected transformation of V. parahaemolyticus by electroporation. The cell membranes of vibrio can be stabilized by high concentration of sucrose when Mg²⁺ is absent.
Significance and Impact of the Study:  A greater transformation efficiency can facilitate the genetic analysis of an organism and its pathogenicity. Buffers lacking Mg²⁺ can be used for other nuclease-producing organisms.     

Influence of different carbon sources on bacterial cellulose production by Gluconacetobacter xylinus strain ATCC 53524

Aims:  To determine the effect of carbon sources on cellulose produced by Gluconacetobacter xylinus strain ATCC 53524, and to characterize the purity and structural features of the cellulose produced.
Methods and Results:  Modified Hestrin Schramm medium containing the carbon sources mannitol, glucose, glycerol, fructose, sucrose or galactose were inoculated with Ga . xylinus strain ATCC 53524. Plate counts indicated that all carbon sources supported growth of the strain. Sucrose and glycerol gave the highest cellulose yields of 3·83 and 3·75 g l⁻¹ respectively after 96 h fermentation, primarily due to a surge in cellulose production in the last 12 h. Mannitol, fructose or glucose resulted in consistent rates of cellulose production and yields of >2·5 g l⁻¹. Solid state ¹³C CP/MAS NMR revealed that irrespective of the carbon source, the cellulose produced by ATCC 53524 was pure and highly crystalline. Scanning electron micrographs illustrated the densely packed network of cellulose fibres within the pellicles and that the different carbon sources did not markedly alter the micro-architecture of the resulting cellulose pellicles.
Conclusions:  The production rate of bacterial cellulose by Ga . xylinus (ATCC 53524) was influenced by different carbon sources, but the product formed was indistinguishable in molecular and microscopic features.
Significance and Impact of the Study:  Our studies for the first time examined the influence of different carbon sources on the rate of cellulose production by Ga . xylinus ATCC 53524, and the molecular and microscopic features of the cellulose produced.     

Response surface methodology to optimize the nutritional parameters for enhanced production of jasmonic acid by Lasiodiplodia theobromae

Aims:  To find out the cumulative effect of the nutritional parameters and to enhance the production of jasmonic acid (JA) in static fermentation by Lasiodiplodia theobromae using response surface methodology (RSM).
Method and Results:  Malt extract, sucrose, NaNO₃ and MgSO₄.7H₂O were analysed by a 30-trial central composite design using RSM for optimizing their concentrations in the medium and the effect of their mutual interaction on JA production. Sucrose and NaNO₃ were found highly significant in influencing the JA production. Malt extract and MgSO₄.7H₂O showed an effect on the JA production in interaction with other variables. When the optimum values of the parameters obtained through RSM (19·95 g l⁻¹ malt extract, 50 g l⁻¹ sucrose, 7·5 g l⁻¹ NaNO₃ and 3·51 g l⁻¹ MgSO₄.7H₂O) were applied, 32% increase in JA production (299 mg l⁻¹) was observed in comparison with 225 mg l⁻¹ of JA produced with same media components not analysed by RSM and subsequently validated the statistical model.
Conclusions:  Increase in JA production was achieved by optimizing the nutritional parameters.
Significance and Impact of the Study:  This is the first report of using RSM for optimizing a medium for JA production. It resulted in an increase in JA production without augmentation of costly additives.     

Sucrose phosphorylase of the rumen bacterium Pseudobutyrivibrio ruminis strain A

Aims:  To verify the taxonomic affiliation of bacterium Butyrivibrio fibrisolvens strain A from our collection and to characterize its enzyme(s) responsible for digestion of sucrose.
Methods and Results:  Comparison of the 16S rRNA gene of the bacterium with GenBank showed over 99% sequence identity to the species Pseudobutyrivibrio ruminis . Molecular filtration, native electrophoresis on polyacrylamide gel, zymography and thin layer chromatography were used to identify and characterize the relevant enzyme. An intracellular sucrose phosphorylase with an approximate molecular mass of 52 kDa exhibiting maximum activity at pH 6·0 and temperature 45°C was identified. The enzyme was of inducible character and catalysed the reversible conversion of sucrose to fructose and glucose-1-P. The reaction required inorganic phosphate. The K _m for glucose-1-P formation and fructose release were 3·88 × 10⁻³ and 5·56 × 10⁻³ mol l⁻¹ sucrose, respectively – while the V _max of the reactions were −0·579 and 0·9  μ mol mg protein⁻¹ min⁻¹. The enzyme also released free glucose from glucose phosphate.
Conclusion:  Pseudobutyrivibrio ruminis strain A utilized sucrose by phosphorolytic cleavage.
Significance and Impact of the Study:  Bacterium P. ruminis strain A probably participates in the transfer of energy from dietetary sucrose to the host animal.     

Modelling the photosensitization-based inactivation of Bacillus cereus

Aims:  To study and to develop a model for the photo-destruction of the foodborne pathogen Bacillus cereus , initially treated with a precursor of endogenous photosensitizers (5-aminolevulinic acid, ALA).
Materials and methods:  The cells were incubated in the presence of ALA (3 or 7·5 mmol l⁻¹) for incubation times ranging from 2 to 60 min, inoculated onto the surface of LB Agar plates and submitted to light irradiation. The Weibull model was used to describe the survival curves of B. cereus . Quadratic equations were used to describe the effects of ALA concentration and incubation time on the Weibull model parameters.
Results:  ALA-based photosensitization proved to be an effective tool for inactivation of B. cereus . The decrease in viable counts observed after 20 min of irradiation, ranged from 4 to 6 log CFU g⁻¹.
Conclusions:  The developed model proved to be a parsimonious and robust solution to describe the observed data.
Significance and Impact of the Study:  The study demonstrates the effectiveness of photosensitization on B. cereus on agar plates. The model developed may be useful to optimize inactivation treatments by photosensitization.     

Conversion of volatile fatty acids into polyhydroxyalkanoate by Ralstonia eutropha

Aims:  The aims of this study were to optimize condensed corn solubles (CCS) as a medium for growth of Ralstonia eutropha and to determine the effects of individual volatile fatty acids (VFAs) on polyhydroxyalkanoate (PHA) production .
Methods and Results:  A CCS medium of concentration 240 g l⁻¹ with a carbon : nitrogen ratio of 50 : 1 was developed as the optimal medium. Cultures were grown in 1-l aerated flasks at 250 rev min⁻¹ at 30°C for 120 h. Comparable growth rates were observed in CCS vs a defined medium. At 48 h, VFAs were fed individually at different levels. Optimal levels of all the acids were determined to maximize PHA production. An overall comparison of the VFAs indicated that butyric and propionic acids provided the best results.
Conclusion:  An optimized CCS medium supported growth of R. eutropha . Butyric and propionic acids were the most efficient carbon sources to maximize PHA production when added at the 5 g l⁻¹ level.
Significance and Impact of the Study:  The study shows that a byproduct of ethanol industry can be effectively used as a low cost medium for PHA production, thus partly reducing the cost of commercialization of biopolymers.     

Integration and decontamination of Bacillus cereus in Pseudomonas fluorescens biofilms

Aims:  The hypothesis that surrogate planktonic pathogens ( Bacillus cereus and polystyrene microspheres) could be integrated in biofilms and protected from decontamination was tested.
Methods and Results:  Pseudomonas fluorescens biofilms were grown on polyvinyl chloride coupons in annular reactors under low nutrient conditions. After biofilm growth, B. cereus spores and polystyrene microspheres (an abiotic control) were introduced separately. Shear stress at the biofilm surface was varied between 0·15 and 1·5 N m⁻². The amount of surrogate pathogens introduced ranged from approximately 10⁵ CFU ml⁻¹ to 10¹⁰ spheres ml⁻¹. The quantity of surrogate pathogens integrated in the biofilm was proportional to the amount introduced. In 14 of the 16 cases, 0·4–3·0% of the spores or spheres introduced were measured in the biofilms. The other two cases had 10% and 21% of the spores detected. Data suggested that the spores germinated in the system. The amount of surrogate pathogens detected in the biofilms was higher in the mid-shear range. Chlorine treatment reduced the quantity of both surrogate pathogens and biofilm organisms. In one experiment, the biofilms and B. cereus recovered when the chlorine treatment was terminated.
Conclusions:  Planktonic surrogate pathogens can be integrated in biofilms and protected from chlorination decontamination.
Significance and Impact of the Study:  This knowledge assists in understanding the impact of biofilms on harbouring potential pathogens in drinking-water systems and protecting the pathogens from decontamination.     

Nutritional factors determining sclerotial formation of Polyporus umbellatus

Aims:  To find out which nutritional condition is the determining factor for sclerotial formation of Polyporus umbellatus .
Methods and Results:  The nutritional requirements of 15 carbohydrates, ten nitrogen compounds, eight vitamins and eight mineral elements were studied for their effects on mycelial growth and sclerotial formation of Polyporus umbellatus using the one-factor-at-a-time method. Only fructose could induce sclerotial formation of P. umbellatus . An additional test indicated that nitrogen source categories influenced sclerotial formation significantly and that peptone was found to be the best for sclerotial production. Through an orthogonal matrix test, the effects of carbon/nitrogen factors on sclerotial formation were found be in the order: fructose > interaction between fructose and peptone > peptone. The optimal concentration for sclerotial formation was determined to be 50·0 g l⁻¹ fructose and 4·0 g l⁻¹ peptone.
Conclusions:  Carbon source is the factor determining sclerotial formation of Polyporus umbellatus . Nitrogen source can influence such a morphological transformation significantly. The categories of vitamin and mineral element do not have relationship with the sclerotial formation.
Significance and Impact of the Study:  This study provides the preparatory knowledge for the completely artificial culture of Polyporus umbellatus for its sclerotium.     

A new rapid and sensitive detection method for cereulide-producing Bacillus cereus using a cycleave real-time PCR

Aims:  To develop a rapid and sensitive detection method for cereulide-producing Bacillus cereus using a real-time PCR based on the sequence of the cereulide synthesis gene.
Methods and Results:  A total of 56 cereulide-producing B. cereus and 15 cereulide-negative strains were tested. We designed specific primers and probes for the detection of cereulide-producing B. cereus . The new cycleave real-time PCR assay gave positive detections for all of 56 cereulide-producing B. cereus strains, whereas all other strains including 10 systemic infectious disease strains were negative. No cross-reaction was observed and the internal control showed positive for all samples.
Conclusions:  The performance of the assay was highly reproducible and specific for cereulide-producing B. cereus . The positive detection was obtained within only 2 h for cereulide-producing strains. The detection limit of this assay was evaluated as 10⁴ CFU g⁻¹ food sample. The assay also confirmed that strains from systemic infectious cases were cereulide-negative.
Significance and Impact of the Study:  This assay is applicable for contaminated foods as well as specimens from infectious disease cases. We recommend this assay for routine examination of suspected B. cereus food poisonings.     

Regulation of tacrolimus production by altering primary source of carbons and amino acids

Aims:  In the present communication, attempts have been made to regulate the tacrolimus production by supplementing commercial source of carbons and amino acids timely.
Methods and Results:  Tacrolimus production was regulated by supplying vegetable oils and amino acids, individually and in combination. Tacrolimus quantification was done by HPLC. Streptomyces spp. MA6858 B3178 was found to produce 115·3 mg l⁻¹ of tacrolimus. The rotation speed of shake flask, pH of the broth and supply of air were maintained at 7·1, 230 rev min⁻¹ and 2·0 vvm air respectively.
Conclusions:  The effect of carbons on tacrolimus production was noticed to be of diphasic manner. During the first 24 h of culture, monosaccharide is used for the growth of microbe. However, after the lapse of 36 h, addition of soya oil and l -lysine in combination enhanced the tacrolimus production to 115·3 mg l⁻¹. Besides this, pH of broth was also noticed as a critical factor in monitoring tacrolimus biosynthesis.
Significance and Impact of the Study:  The newly isolated mutant Streptomyces spp. MA6858 B3178 having high potential for tacrolimus production as compared to existing data can be well used for the commercialization of tacrolimus.     

Growth and volatile compound production by Brettanomyces/Dekkera bruxellensis in red wine

Aims:  Brettanomyces / Dekkera bruxellensis is a particularly troublesome wine spoilage yeast. This work was aimed at characterizing its behaviour in terms of growth and volatile compound production in red wine.
Methods and Results:  Sterile red wines were inoculated with 5 × 10³ viable cells ml⁻¹ of three B. bruxellensis strains and growth and volatile phenol production were followed for 1 month by means of plate counts and gas chromatography-mass spectrometry (GC-MS) respectively. Maximum population levels generally attained 10⁶–10⁷ colony forming units (CFU) ml⁻¹ and volatile phenol concentrations ranged from 500 to 4000 μg l⁻¹. Brettanomyces bruxellensis multiplication was also accompanied by the production of organic acids (from C₂ to C₁₀), short chain acid ethyl-esters and the 'mousy off-flavour' component 2-acetyl-tetrahydropyridine.
Conclusions:  Different kinds of 'Brett character' characterized by distinct metabolic and sensory profiles can arise in wine depending on the contaminating strain, wine pH and sugar content and the winemaking stage at which contamination occurs.
Significance and Impact of the Study:  We identified new chemical markers that indicate wine defects caused by B. bruxellensis. Further insight was provided into the role of some environmental conditions in promoting wine spoilage.     

Utilization of amino acids and dipeptides by Lactobacillus plantarum from orange in nutritionally stressed conditions

Aims:  To investigate amino acid and dipeptide utilization by Lactobacillus plantarum N4 isolated from orange peel, in a nutritionally depleted medium based on MRS (Mann, Rogosa, Sharpe).
Methods and Results:  In MRS with 0·1 g l⁻¹ of meat extract and without peptone and yeast extract, growth increased when essential and stimulatory amino acids and nonessential amino acid were added to the medium. Replacement of the essential amino acid, leucine, and the nonessential amino acid, glycine, by leucyl-leucine (Leu-Leu) and/or glycyl-glycine (Gly-Gly) significantly enhanced growth. Essential amino acids were mainly consumed and the dipeptides were almost completely used at the end of growth. Leucine and glycine accumulated internally from the peptides were higher than from the free amino acids. Glucose utilization increased in the media containing dipeptides compared with the medium containing free amino acids.
Conclusions:  In a N-depleted medium, Leu-Leu and/or Gly-Gly were more effective than the respective amino acids in supporting growth of the micro-organism. The more efficient internal accumulation of glycine and especially leucine from dipeptides confirmed the ability of the strain to assimilate mainly complex nitrogen molecules rather than simple ones.
Significance and Impact of the Study:  The ability of Lact. plantarum N4 to efficiently use dipeptides could contribute to spoilage development in the natural medium of the organism, orange juice.     

Modelling the number of viable vegetative cells of Bacillus cereus passing through the stomach

Aims:  Model the number of viable vegetative cells of B. cereus surviving the gastric passage after experiments in simulated gastric conditions.
Materials and Methods:  The inactivation of stationary and exponential phase vegetative cells of twelve different strains of Bacillus cereus , both mesophilic and psychrotrophic strains isolated from food and faeces from healthy and ill individuals, in simulated gastric conditions was determined using decimal reduction times at low pH ( D _pH). Subsequently inactivation rates were calculated. Inclusion of the inactivation rates into models describing the course of the gastric pH after the consumption of meal of solid food and the transfer of food from the stomach to the small intestine resulted in numbers of viable Bacillus cereus vegetative cells able to pass the stomach.
Conclusions:  According to the model, 3–26% of the ingested vegetative cells from Bacillus cereus may survive the gastric passage, dependent on the growth phase of the vegetative cells, the type of strains, and the age of the consumer.
Significance and Impact of the Study:  Vegetative cells of Bacillus cereus may be involved in the onset of diarrhoeal disease to a greater extent than expected since up to 26% of the ingested cells survive simulated gastric conditions.     

Modification of culture conditions for production of the anti-tubercular hirsutellones by the insect pathogenic fungus Hirsutella nivea BCC 2594

Aims:  This work aimed to improve the production of anti-tubercular hirsutellones by the insect pathogenic fungus Hirsutella nivea BCC 2594.
Methods and Results:  The fungus was cultivated under different carbon/nitrogen sources and aerations (shake vs static flasks) to improve the production of the anti-tubercular alkaloids, hirsutellones A–D. Under the basal conditions, static cultivation at 25°C in minimum salt medium, only hirsutellone B and C were detected with maximum concentrations of 139·00 and 18·27 mg l⁻¹. Substitution of fructose for glucose and peptone for yeast extract increased the titres of hirsutellones A, B and C about two- to threefold. However, hirsutellone D was not detected in this medium. Culture agitation induced the production of hirsutellone D. As a result, the significant amounts of hirsutellones A–D were obtained with the concentration of 29·93, 169·63, 22·65 and 15·71 mg l⁻¹ within 15 days.
Conclusions:  Improved titres of hirsutellones in H. nivea BCC 2549 were achieved with an agitated (200 rev min⁻¹) fructose–peptone medium at 25°C.
Significance and Impact of the Study:  Improved yields of hirsutellones B–D will enable medicinal chemistry modifications leading to a development of a potential candidate for tuberculosis therapy.