Production of alkaline xylanase by an alkaliphilic Bacillus sp. isolated from an alkalinesoda lake

An alkaline xylanase-producing alkaliphilic Bacillus sp. AR-009 was isolated from analkaline soda lake in Ethiopia. The enzyme was optimally active at pH 9 and was stable over abroad pH range. The optimum temperature for xylanase activity, assayed at pH 9, was60°–65°C. Measured at pH 8 and 9, the enzyme had good stability at 55° and60°C. At both pH values, over 80% of its original activity was retained after heating for2·5 h at 55°C. At 60°C, the enzyme maintained 63% of its original activity after2·5 h incubation while at pH 9 it retained 54% of its original activity after 1 h heating. Theseproperties qualify the enzyme to be novel and potentially important for application in someindustrial processes.     

Microbial communities of printing paper machines

The microbial content of printing paper machines, running at a temperature of 45–50 °C and at pH 4·5–5, was studied. Bacteria were prevalent colonizers of the machine wet end and the raw materials. A total of 390 strains of aerobic bacteria were isolated and 86% of these were identified to genus and species by biochemical, chemotaxonomic and phylogenetic methods. The most common bacteria found at the machine wet end were Bacillus coagulans and other Bacillus species, Burkholderia cepacia , Ralstonia pickettii , and in pink slimes, accumulating in the wire area and press section, species of Deinococcus, Aureobacterium and Brevibacterium . Paper-making chemicals also contained species of Aureobacterium , B. cereus , B. licheniformis , B. sphaericus , Bordetella, Hydrogenophaga , Klebsiella pneumoniae , Pantoea agglomerans , Pseudomonas stutzeri , Staphylococcus and sometimes other enteric bacteria, but these did not colonize the process water. Yeasts and moulds were not present in significant numbers . A total of 131 strains were tested for their potential to degrade paper-making raw materials; 91 strains were found to have degradative activity, mainly species of Burkholderia and Ralstonia , Sphingomonas and Bacillus , and enterobacteria produced enzymes which degraded paper-making chemicals. Stainless steel adhering strains occurred in slimes and wire water and were identified as Burkholderia cepacia , B. coagulans and Deinococcus geothermalis . Coloured slimes were formed on the machine by species of Deinococcus , Acinetobacter and Methylobacterium (pink), Aureobacterium , Pantoea and Ralstonia (yellowish) and Microbulbifer -related strains (brown). The impact of the strains and species found in the printing paper machine community on the technical quality of paper, machine operation, and as a potential biohazard (Hazard Group 2 bacteria), is discussed.     

A highly thermostable amylase from a newly isolated thermophilic Bacillus sp. WN11

A thermostable amylase-producing Bacillus sp. WN11 was isolated from Wondo Genet hot spring in Ethiopia. The enzyme had a temperature optimum of 75–80 °C. Over 80% of its peak activity was in the pH range of 5–8, with an optimum at 5·5. Thermal stability of the enzyme at 105 °C was higher with the addition of starch. The stabilizing effect of starch was concentration-dependent, showing better stability with increasing concentration of starch. At liquefying temperature (105 °C), addition of Ca²⁺ did not result in further improvement of the stabilizing effect of starch. This indicates that in the presence of starch, WN11 amylase does not require Ca²⁺ as a stabilizer at liquefying temperatures as high as 105 °C.     

Characterization of a Thermostable α-Amylase from Bacillus licheniformis NCIB 6346

With one exception (NCIB 9668), the extracellular amylases from 10 strains of Bacillus licheniformis were thermostable and retained more than 98% of their original activity after incubation at 85°C for 60 min. The enzyme from B. licheniformis NCIB 6346 was purified 30-fold by ion-exchange chromatography and was characterized. It had an endo-action on starch yielding maltopentaose as the major product, and was identified as an α-amylase. The purified enzyme had a molecular weight of 62 650, was stable between pH 7 and 10 and was maximally active at 70-90°C at pH 7.0. It closely resembled commercial thermostable α-amylases in its general properties and it is concluded that B. licheniformis provides a good source of these enzymes.     

Purification and properties of an extracellular leucine aminopeptidase from the Bacillus sp. N2

A halophilic bacterium was isolated from fermented anchovy sauce and identified as Bacillus species. An extracellular leucine aminopeptidase from Bacillus sp. N2 was purified to homogeneity using four successive purification steps. The enzyme has a native molecular mass of about 57 000 Da using FPLC gel filtration analysis and a molecular mass of 58 000 Da using SDS-polyacrylamide gel electrophoresis. This monomeric leucine aminopeptidase showed maximum enzyme activity at pH 9·5. The optimum temperature was 50 °C when L -Leu- p -nitroanilide was the substrate. The leucine aminopeptidase was inactivated by 1,10-phenanthroline, dithiothreitol and sodium dodecyl sulphate. Enzyme activity was increased by addition of Co²⁺. It is likely that Co²⁺ plays an important role in the catalysis or stability of the Bacillus sp. N2 leucine aminopeptidase. Sodium chloride (0–4·5 mol l⁻¹) increased the hydrolytic activity towards L -Leu- p -nitroanilide. The N-terminal amino acid sequence was Glu-Arg-Glu-Leu-Pro-Phe-Lys-Ala-Lys-His-Ala-Tyr-Ser-Thr-Ile. The purified enzyme had a high specificity for L -Leu- p -nitroanilide.     

Characterization of lactosporin, a novel antimicrobial protein produced by Bacillus coagulans ATCC 7050

Aims:  To characterize the antimicrobial protein produced by Bacillus coagulans used in the probiotic dietary supplement (Lactospore^® Probiotic, Sabinsa Corp., Piscataway, NJ, USA).
Methods and Results:  Bacillus coagulans ATCC 7050 was grown at 37°C for 18 h. The cell free supernatant was concentrated 10-fold (lactosporin preparation, LP). The antimicrobial activity of LP was confirmed against Micrococcus luteus ATCC 10420 in a well diffusion assay. The proteinaceous nature of LP was determined following exposure to different enzymes. The activity of LP was pH-dependent but stable to heat. The isoelectric point of LP was determined to be 3·5–4·0. PCR analyses showed no similarity between lactosporin and known antimicrobial proteins produced by the Bacillus spp.
Conclusions:  Lactosporin is a novel antimicrobial protein. Initial characterization indicates that it may fall outside of the conventional classification of class I and II bacteriocins. Loss of activity after exposure to a number of proteolytic enzymes and lipase suggest that lactosporin may posses a lipid moiety which contributes to its inhibitory activity.
Significance and Impact of the Study:  The unique characteristics of lactosporin, including its antimicrobial activity against pathogenic micro-organisms, indicate that it may have potential for application in foods and personal care products.     

Hemicellulases of Bacillus species: preliminary comparative studies on production and properties of mannanases and galactanases

A range of Bacillus subtilis strains and other Bacillus species were screened for mannanase, β-mannosidase and galactanase activities. Maximum mannanase activity, 106.2 units/ml, was produced by B. subtilis NRRL 356. β-Mannosidase and galactanase activities from all strains were relatively low. The effect of carbon and nitrogen source on mannanase and galactanase production by B. brevis ATCC 8186, B. licheniformis ATCC 27811, B. polymyxa NRRL 842 and B. subtilis NRRL 356 was investigated. Highest mannanase production was observed in the four strains tested when the mannan substrate, locust bean gum, was used as carbon source. Induction was most dramatic in the case of B. subtilis NRRL 356 where only basal enzyme levels were produced in the presence of other carbon sources. β-Mannosidase was induced in the four Bacillus cultures by locust bean gum. Results indicated that galactose acted as an inducer for production of galactanase. Organic and inorganic nitrogen sources resulted in induction of high mannanase titres in B. subtilis. Highest galactanase activity was produced by each organism in media containing sodium nitrate as nitrogen source. Mannanases from B. brevis, B. licheniformis, B. polymyxa and B. subtilis retained 100% residual activity after a 3 h incubation at 65°C, 65°C, 60°C and 55°C respectively. Galactanases retained more than 95% activity at 55°C after 3 h. The pH optima of mannanases ranged from 6.5–6.8 whereas galactanases ranged from 5.1 in the case of B. brevis to 7.0 for B. polymyxa.     

Bacillus spp. in the rumen ecosystem. Hemicellulose depolymerases and glycoside hydrolases of Bacillus spp. and rumen isolates grown under anaerobic conditions

Bacillus spp. were isolated from the rumen contents of animals fed on hay. The bacilli were present in the vegetative form in the microbial populations of the liquid phase and in those associated with the particulate material in the digesta. Thirty-six isolates were identified as strains of B. licheniformis (14), B. circulans (14), B. coagulans (2), B. laterosporus (3) and three isolates were facultative anaerobes that resembled B. pumilus. All were able to utilize isolated Lolium perenne hemicellulose B as a carbon source when grown aerobically or anaerobically at 39°C. A survey of 17 Bacillus species (24 strains including 5 rumen isolates) confirmed that enzymes capable of releasing reducing sugars from hemicelullosic polysaccharides were present in many anaerobically grown bacilli; in addition, the range and specific activities of 20 glycoside hydrolases were also monitored in these crude enzyme preparations. The presence and possible role of Bacillus spp. in the rumen digesta particle-associated microbial population is discussed.     

Effects of sporulation pH on the heat resistance and the sporulation of Bacillus cereus

Spores of Bacillus cereus ATCC 7004, 4342 and 9818 were obtained in nutrient agar at several pH from 5·9 to 8·3. The optimum pH for sporulation was around 7, but good production of spores was obtained in the range 6·5–8·3. With all three strains, D -values clearly dropped with sporulation pH, decreasing by about 65% per pH unit. z -Values were not significantly modified ( P > 0·05) by this factor. Mean z -values of 7·13 °C ± 0·16 for strain 7004, 7·67 °C ± 0·04 for 4342 and 8·80 °C ± 0·64 for 9818 were obtained.     

High-temperature alkaline alpha-amylase from Bacillus iicheniformis TCRDC-B13

A bacterial strain, Bacillus licheniformis, has been isolated and identified which produces high-temperature alkaline alpha-amylase. Cultural conditions, such as types of carbon and nitrogen sources, temperature, pH, and time of reaction, have been optimized for production of alpha-amylase in shake flask and fermenter. The enzyme produced was quite active even at 100 degrees C; however, it showed optimum activity at 90 degrees C. It exhibited optimum activity in the broad pH range 5.5-10. The effects of Na(+) and Ca(2+) ions on enzyme activity was also studied.     

Biocidal activity of Bacillus species for Anopheles larvae

It is generally accepted that Bacillus thuringiensis (B.t.) is specifically toxic to some insects but does not pose any threat to the environment, operators, or consumers. There are several other Bacillus species which can be used as effective bioinsecticides. In this study four different species of Bacillus, i.e., B. coagulans, B. megaterium, B. brevis, and B. sphaericus were isolated from soil samples collected from Kala Shah Kakoo and Kasur areas, in the suburbs of Lahore. Isolated Bacillus species were administered to mosquito larvae to evaluate their biocidal activity. B. coagulans I from Kala Shah Kakoo showed 93% mortality, while B. coagulans III from Kasur showed 70% mortality. Bacterial isolates most toxic to Anopheles larvae showed optimum growth at 37 degrees C and pH 7. These isolates have a great potency to controlling anopheline population.     

Isolation, screening and characterization of thermophilic Bacillus species isolated from dairy products

Proteolytic thermophilic bacterial cultures (171 strains) were isolated from different milk and milk products. After screening these isolates for protease production in a liquid medium, fifty that exhibited enzyme activity in excess of 100 units/ml were selected and identified. Twenty-nine were Bacillus stearothermophilus (constituting 58% of the total), twelve were B. coagulans , five were B. circulans and four were B. licheniformis . Skim milk powder contributed the maximum number of B. stearothermophilus (64.7%) followed by raw milk (63.2%) and pasteurized milk (44.4%). When the culture supernatant liquids from the selected isolates were given heat treatment, five cultures retained 100% protease activity at 65°C for 30 min. Protease of B. stearothermophilus RM-67 had the maximum heat resistance because it retained 87.5% of its activity at 70°C for 30 min.     

Numerical analysis and DNA base compositions of some thermophilic Bacillus species.

Morphological, physiological, and biochemical characteristics and the DNA base compositions of 133 thermophilic Bacillus strains were determined. A total of 54 of these strains were received as identified species (mainly Bacillus stearothermophilus, Bacillus coagulans, Bacillus brevis, and Bacillus licheniformis) from international culture collections, and 79 newly isolated strains, which were isolated mainly from sugar diffusion juices of Italian plants, were also examined. Numerical taxonomy techniques (simple matching coefficient and unweight pair grouping using the mathematical average) and DNA G + C values showed that the strains aggregated into nine clusters. Both B. licheniformis and B. brevis were well separated from the other organisms. B. stearothermophilus and B. coagulans were confirmed as separate clusters and exhibited greater heterogeneity than previously shown. The B. stearothermophilus strains clustered into four groups, three of which have been recognized previously by other authors; the members of the fourth group had distinctive characteristics, including considerable biochemical inertness, an inability to grow at temperatures greater than 60 degrees C, and a high G + C content. Within the B. coagulans cluster the strains with characteristics very similar to those of the new species Bacillus smithii clustered together. However, the remaining strains were still clearly separated into two groups; one of these groups was considered B. coagulans sensu stricto, and the other was distinguished by morphological and biochemical criteria, such as spores which do not swell the sporangia, utilization of citrate, a higher proteolytic activity, and acidification of some carbohydrates. Our results were confirmed by comparing them with distinctive characteristics of recently described thermophilic Bacillus species.     

Bactericidal activity of carvacrol towards the food-borne pathogen Bacillus cereus

Carvacrol, a natural plant constituent occurring in oregano and thyme, was investigated for its bactericidal effect towards the food-borne pathogen Bacillus cereus . Carvacrol showed a dose-related growth inhibition of B. cereus . At concentrations of 0·75 mmol l⁻¹ and above, total inhibition of the growth was observed. Below this concentration, carvacrol extended the lag-phase, reduced the specific growth rate and reduced the maximum population density. Incubation for 40 min in the presence of 0·75–3 mmol l⁻¹ carvacrol decreased the number of viable cells of B. cereus exponentially. Spores were found to be approximately 2·3-fold less sensitive to carvacrol than vegetative cells. Bacillus cereus cells showed reduced susceptibility towards carvacrol at pH 7·0 compared with different values between pH 4·5 and 8·5. The culture and exposure temperatures had a significant influence on the survival of vegetative cells. The highest death rate of cells was observed at an exposure temperature of 30 °C. Membrane fluidity was found to be an important factor influencing the bactericidal activity of carvacrol.     

Partial purification, characterization and regulation of cellulolytic enzymes from Trichoderma longibrachiatum

A net purification of 9·46-, 18·6- and 16·7-fold for filter paper (FP) hydrolytic activity, carboxymethyl (CM) cellulase and β-glucosidase, respectively was achieved through ion exchange and gel chromatographies. The purified enzyme preparation showed an optimal pH of 5·0 for CM cellulase and 5·5 for the other two components. The enzyme activities increased up to 60°–65°C for the three enzyme components and they were stable at 30° or 40°C and pH 4·5 to 5·0 after 20–30 min treatment. The four enzyme components, that is, two FP activities (unadsorbed and adsorbed), a CM cellulase and a β-glucosidase, had K_m values of 47·6 mg, 33·3 mg, 4·0 mg and 0·18 mmol/l with V _max of 4, 1·28, 66·5 and 1·28 units per mg protein. The molecular weights as determined with SDS-PAGE were found to be 44000, 38000, 55000 and 63000 for the above four enzyme components in the same sequence. A distinct type of synergistic action was observed between these components by their action on dewaxed cotton. Glycerol at 1% strongly repressed the formation of all the cellulolytic enzymes. The role of proteolytic enzymes in in vitro inactivation of cellulases was not apparent.     

Purification and characterization of glucoamylase of Aspergillus terreus NA-170 mutant

A catabolite-derepressed mutant strain of Aspergillus terreus NA-170 was isolated by multi-step mutagenesis. The mutant produced an appreciable yield of glucoamylase in the culture medium. The enzyme was purified and was shown to be homogeneous. It hydrolysed successive glucose residues from the non-reducing end of starch molecules. The purified enzyme had an optimum pH of 5·0 and was stable over the pH range 3·0–7·0. It was highly active over a broad temperature range, 30–75°C, with optimal activity at 60°C. The molecular weight was 70 000 as determined by Sephadex G-200 filtration. The enzyme showed a decrease in K _m values with increasing chain length of the substrate molecule.     

The Maceration of Vegetable Tissue by a Strain of Bacillus subtilis

Pectate lyase (PAL EC 4.2.2.2), pectinesterase (PE EC 3.1.1.11), L-arabinanase, D-xylanase, D-galactanase and neutral protease activities were identified in culture filtrates prepared from a strain B3 of Bacillus subtilis isolated from carrot. The PAL was purified by ion-exchange chromatography and iso-electric focusing and its properties examined. PAL had a pI of 9·85 and a molecular weight of 33000. Optimum activity occurred at pH 8–9 and 60–65°C. Calcium and to a lesser extent strontium were stimulatory while ethylenediamine tetraacetic acid led to inactivation. Thin layer chromatography separations of the end products of reactions and viscosity measurements suggested that the enzyme acted in a random manner. When examined over a range of pH values both culture filtrate and the purified PAL produced two distinct peaks of maceration (pH 6–6·5 and 8–9) against carrot or potato tissues. Evidence was obtained that although the presence of lyase was the sole external factor responsible for the maceration of carrot at pH 6·0, it acted in conjunction with a heat-labile, high molecular weight factor extractable from carrot tissue. Carrot extracts were unable to macerate carrot but liberated reducing groups from polygalacturonic acid and it is suggested that the factor may be, in part at least, carrot polygalacturonase. Maceration at pH 8·5 was largely accounted for by PAL and PE activities.     

Bioemulsifier production by Bacillus stearothermophilus VR-8 isolate

Bacillus stearothermophilus produced an extracellular bioemulsifier during growth in a medium containing 4% crude oil. Over the temperature range of 45° to 70°C, maximum recovery (0·6 g 1^-1) occurred at 50°C. The emulsifier had its greatest activity on benzene, among the hydrocarbons tested. Acetone precipitated, dialysed emulsifier contained 46% protein, 16% carbohydrate and 10% lipid. The emulsification activity was stable over a broad range of temperature (50–80°C), pH (2–8) and salt concentration (5% NaCl, 5% CaCl₂ and 1% MgCl₂). Thus, this emulsifier was found to be better than liposan (showing emulsifying activity between pH 2–5 and stable up to 70°C) in terms of pH and temperature stability. Additionally, it was also salt tolerant, suggesting its potential use in crude oil tank clean-up and enhanced oil recovery.     

An organic solvent-, detergent-, and thermo-stable alkaline protease from the mesophilic, organic solvent-tolerant Bacillus licheniformis 3C5

Bacillus licheniformis 3C5, isolated as mesophilic bacterium, exhibited tolerance towards a wide range of non-polar and polar organic solvents at 45 degrees C. It produced an extracellular organic solvent-stable protease with an apparent molecular mass of approximately 32 kDa. The inhibitory effect of PMSF and EDTA suggested it is likely to be an alkaline serine protease. The protease was active over abroad range of temperatures (45-70 degrees C) and pH (8-10) range with an optimum activity at pH 10 and 65 degrees C. It was comparatively stable in the presence ofa relatively high concentration (35% (v/v)) of organic solvents and various types of detergents even at a relatively high temperature (45 degrees C). The protease production by B. licheniformis 3C5 was growth-dependent. The optimization of carbon and nitrogen sources for cell growth and protease production revealed that yeast extract was an important medium component to support both cell growth and the protease production. The overall properties of the protease produced by B. licheniformis 3C5 suggested that this thermo-stable, solvent-stable, detergent-stable alkaline protease is a promising potential biocatalyst for industrial and environmental applications.     

The characteristics of a new non-spore-forming cellulolytic mesophilic anaerobe strain CM126 isolated from municipal sewage sludge

A new mesophilic anaerobic cellulolytic bacterium, CM126, was isolated from an anaerobic sewage sludge digester. The organism was non-spore-forming, rod-shaped, Gram-negative and motile with peritrichous flagella. It fermented microcrystalline Avicel cellulose, xylan, Solka floc cellulose, filter paper, L-arabinose, D-xylose, β-methyl xyloside, D-glucose, cellobiose and xylitol and produced indole. The % G + C content was 36. Acetic acid, ethanol, lactic acid, pyruvic acid, carbon dioxide and hydrogen were produced as metabolic products. This strain could grow at 20–44·5°C and at pH values 5·2–7·4 with optimal growth at 37–41·5°C and pH 7. Both endoglucanase and xylanase were detected in the supernatant fluid of a culture grown on medium containing Avicel cellulose and cellobiose. Exoglucanase could not be found in either supernatant fluid or the cell lysate. When cellulose and cellobiose fermentation were compared, the enzyme production rate in cellobiose fermentation was higher than in cellulose fermentation. The optimum pH for both enzyme activities was 5·0, the optimum temperature was 40°C for the endoglucanase and 50°C for the xylanase. Both enzyme activities were inhibited at 70°C. Co-culture of this organism with a Methanosarcina sp. (A145) had no effect on cellulose degradation and both endoglucanase and xylanase were stable in the co-culture.