Site-Specific and Asymmetric Hydrolysis of Prochiral 2-Phenyl-1,3-propanediol Diacetate by a Bacterial Esterase from an Isolated Strain

Bacillus cereus 809A and Burkholderia sp. 711C were isolated from soil. These strains demonstrate hydrolysis activity towards prochiral 2-phenyl-1,3-propanediol diacetate and accumulated the corresponding chiral monoacetates into the reaction mixture. When 2-phenyl 1,3-propanediol diacetate was used as a substrate, the produced monoacetates with Burkholderia sp. 711C were obtained in a racemic form but that produced by Bacillus cereus 809A showed an excess of the (S)-form. The resting cell reaction revealed that for Bacillus cereus 809A, there was an enrichment of one of the enantiomers of the monoacetate such that the enantiomeric excess (e.e.) of the (S)-form was over 95%. The purified enzyme from Bacillus cereus 809A hydrolyzed diacetate to monoacetate, and the e.e. value of the (S)-form increased by prolonged reaction in a way similar to the resting cell reaction. From N-terminal amino acids, this esterase is conserved in some strains of Bacillus for which the genomic sequences have been reported.     

Stereoselective enzymatic hydrolysis of 2-cyclohexyl-and 2-phenyl-1,3-propanediol diacetate in biphasic systems

Summary A key intermediate (S(–) 2-cyclohexyl-1,3-propanediol monoacetate) was made with high optical purity for the total synthesis of a new angiotensin converting enzyme inhibitor, Fosinopril. The stereoselective hydrolysis of 2-cyclohexyl-1,3-propanediol diacetate (I) and 2-phenyl-1,3-propanediol diacetate (II) was carried out with lipases. Among various lipases evaluated, only porcine pancreatic lipase (PPL) and Chromobacterium viscosum lipase demonstrated efficient conversion and gave the desired enantiomer of monoacetate. In aqueous solution, the desired S(–) monoacetate exhibited an optical purity of 65%–80% (30%–60% enantiomeric excess [e.e.]). However, when the same reactions were conducted in a biphasic system, the product S(–) monoacetate exhibited an optical purity of 99%–100% (98%–100% e.e.). The high purity product was achieved with 65 mol% yield at 1% substrate concentration. Among various solvents evaluated in biphasic systems, efficient hydrolysis was achieved in toluene, cyclohexane, and trichloro-trifluoroethane. The crude PPL was partially purified and two lipase fractions (A and B) were identified. Lipases A and B had a molecular mass of 38 000 and 40 000 daltons, respectively, and both were found to catalyze the hydrolysis of I and II to the appropriate monoacetate in a biphasic system. Offprint requests to: R. N. Patel     

Effects of bacteria isolated from a saprophagous rhabditid nematode Caenorhabditis elegans on the mycelial growth of Agaricus bisporus

P. S. GREWAL AND P. HAND. 1992. The effects of 10 species of bacteria isolated from a saprophagous rhabditid nematode Caenorhabditis elegans on mycelial growth of the cultivated mushroom Agaricus bisporus were studied in agar cultures. Bacterial species showed differential effects on the mycelial growth of A. bisporus and the effects also depended upon the mushroom strain (C43, C54 and U3). Bacillus cereus, Bacillus sp. and Enterobacter amnigenus caused significant inhibition in mycelial growth of all three strains of A. bisporus. Pseudomonas aeruginosa, Ps. fluorescens biovar reactans and Ps. maltophilia resulted in a significant increase in mycelial growth of C54 strain. Enterobacter cloacae caused a mean inhibition of about 83% in the linear mycelial extension of the most commonly cultivated mushroom strain U3. Bacillus cereus, Ent. amnigenus and Ent. cloacae produced volatile inhibitory substance(s). This is believed to be the first report about the inhibitory effects of specific bacteria isolated from a saprophagous nematode on the mycelial growth of A. bisporus.     

Conservation of antigenic determinants in leucine dehydrogenase from thermophilic and mesophilic Bacillus strains

Abstract Antibodies against the purified octameric l -leucine dehydrogenase (LeuDH) from the mesophilic Bacillus cereus have been used to screen 16 thermophilic Bacillus strains for LeuDH. 4 of these strains, Bacillus sphaericus 461 and Bacillus sp. 405, 406, and 411, showed a particularly strong cross reaction of the partial identity type when examined by Ouchterlony double diffusion assay, thus indicating that they were immunologically related to the B. cereus enzyme. The LeuDH from the thermophilic strains were very stable and highly active at elevated temperatures, and gave a downward bend at about 55°C in the Arrhenius plot. The pH optimum for l -leucine deamination was around pH 11 for all strains examined.     

Evidence for non-ribosomal peptide synthetase production of cereulide (the emetic toxin) in Bacillus cereus

Little is known about the process whereby the emetic toxin (or cereulide) of Bacillus cereus is produced. Two cereulide-producing strains of B. cereus were cloned and sequenced following polymerase chain reaction (PCR) amplification with primers that were specific for conserved regions of non-ribosomal peptide synthetase (NRPS) genes. The cloned regions of the B. cereus strains were highly homologous to conserved regions of other peptide synthetase nucleotide sequences. Primers were designed for two variable regions of the NRPS gene sequence to ensure specificity for the emetic strains. A total of 86 B. cereus strains of known emetic or non-emetic activity were screened using these primers. All of the emetic strains (n=30) displayed a 188 bp band following amplification and gel electrophoresis. We have developed an improved method of identifying emetic strains of B. cereus and provided evidence that cereulide is produced by peptide synthetases.     

An improved screening method for microorganisms able to convert crude glycerol to 1,3-propanediol and to tolerate high product concentrations

A new screening method was developed and established to find high-performance bacteria for the conversion of crude glycerol to 1,3-propanediol. Three soil samples from palm oil-rich habitats were investigated using crude glycerol of a German biodiesel plant. Nine promising 1,3-propanediol producers could be found. Because of a special pH buffer system, a fast evaluation on microscale and high 1,3-propanediol concentrations up to 40 g L⁻¹ could be achieved. Three strains demonstrated very high product tolerance and were identified as Clostridium butyricum. Two strains, AKR91b and AKR102a, grew and produced 1,3-propanediol in the presence of 60 g L⁻¹ initial 1,3-propanediol, the strain AKR92a even in the presence of 77 g L⁻¹ 1,3-propanediol. The strains AKR91b and AKR102a tolerated up to 150 g L⁻¹ crude glycerol and produced 80% of the 1,3-propanediol attained from pure glycerol of the same concentration. Further criteria for the choice of a production strain were the pathogenicity (risk class), ability to grow on low-cost media, e.g., with less yeast extract, and robustness, e.g., process stability after several bioconversions. Overall, the strain C. butyricum AKR102a was chosen for further process optimization and scale-up due to its high productivity and high final concentration in a pH-regulated bioreactor.     

An Organic Solvent-Tolerant Alkaline Lipase from Cold-Adapted Pseudomonas mandelii: Cloning,Expression, and Characterization

Various yeast strains were screened for production of 3-hydroxybutyric acid (3-HBA) from 1,3-butanediol (1,3-BD) by a resting cell system. Many yeasts were found to oxidize 1,3-BD to 3-HBA. Among them, Hansenula anomala IFO 0195 produced (S)-(+)-3-HBA of the highest optical purity. Reaction temperature and addition of glucose were significantly effective on the optical .purity and production of the acid. When resting cells of this strain were incubated at 27°C in an optimal reaction mixture containing 60.0 mg/ml 1,3-BD, 2.0% CaC0₃, and 1.0% glucose, 26.7 mg/ml of 3-HBA were produced with 88% enantiomer excess for 2 days. Dominant accumulation of (S)-(+)-3-HBA might be due to enantioselective degradation of (R)-(-)-3-HBA, though both (S)-(+)- and (R)-(-)-1,3-BD are oxidized by the strain.     

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.     

Microbial conversion of glycerol to 1,3-propanediol: physiological comparison of a natural producer, Clostridium butyricum VPI 3266, and an engineered strain, Clostridium acetobutylicum DG1(pSPD5)

Clostridium acetobutylicum is not able to grow on glycerol as the sole carbon source since it cannot reoxidize the excess of NADH generated by glycerol catabolism. Nevertheless, when the pSPD5 plasmid, carrying the NADH-consuming 1,3-propanediol pathway from C. butyricum VPI 3266, was introduced into C. acetobutylicum DG1, growth on glycerol was achieved, and 1,3-propanediol was produced. In order to compare the physiological behavior of the recombinant C. acetobutylicum DG1(pSPD5) strain with that of the natural 1,3-propanediol producer C. butyricum VPI 3266, both strains were grown in chemostat cultures with glycerol as the sole carbon source. The same "global behavior" was observed for both strains: 1,3-propanediol was the main fermentation product, and the qH2 flux was very low. However, when looking at key intracellular enzyme levels, significant differences were observed. Firstly, the pathway for glycerol oxidation was different: C. butyricum uses a glycerol dehydrogenase and a dihydroxyacetone kinase, while C. acetobutylicum uses a glycerol kinase and a glycerol-3-phosphate dehydrogenase. Secondly, the electron flow is differentially regulated: (i) in C. butyricum VPI 3266, the in vitro hydrogenase activity is 10-fold lower than that in C. acetobutylicum DG1(pSPD5), and (ii) while the ferredoxin-NAD+ reductase activity is high and the NADH-ferredoxin reductase activity is low in C. acetobutylicum DG1(pSPD5), the reverse is observed for C. butyricum VPI 3266. Thirdly, lactate dehydrogenase activity is only detected in the C. acetobutylicum DG1(pSPD5) culture, explaining why this microorganism produces lactate.     

Isolation of a bacterium assimilating (R)-3-chloro-1,2-propanediol and production of (S)-3-chloro-1,2-propanediol using microbial resolution

A bacterium capable of assimilating 3-chloro-1,2-propanediol was isolated from soil by enrichment culture. The strain was identified as Alcaligenes sp. by taxonomic studies. The crude extracts of the cells had dehalogenating activities and converted various halohydrins to the corresponding epoxides. 3-Chloro-1,2-propanediol was degraded stereospecifically by the strain, liberating chloride ion. The residual isomer was found to be the (S)-form (99.4% enantiomeric excess). (S)-3-Chloro-1,2-propanediol was obtained from the racemate by use of this strain in 38% yield, and (S)-glycidol (99.4% enantiomeric excess) was subsequently synthesized from the obtained (S)-3-chloro-1,2-propanediol by alkaline treatment.     

Identification of quorum-quenching N-acyl homoserine lactonases from Bacillus species

A range of gram-negative bacterial species use N-acyl homoserine lactone (AHL) molecules as quorum-sensing signals to regulate different biological functions, including production of virulence factors. AHL is also known as an autoinducer. An autoinducer inactivation gene, aiiA, coding for an AHL lactonase, was cloned from a bacterial isolate, Bacillus sp. strain 240B1. Here we report identification of more than 20 bacterial isolates capable of enzymatic inactivation of AHLs from different sources. Eight isolates showing strong AHL-inactivating enzyme activity were selected for a preliminary taxonomic analysis. Morphological phenotypes and 16S ribosomal DNA sequence analysis indicated that these isolates probably belong to the species Bacillus thuringiensis. Enzymatic analysis with known Bacillus strains confirmed that all of the strains of B. thuringiensis and the closely related species B. cereus and B. mycoides tested produced AHL-inactivating enzymes but B. fusiformis and B. sphaericus strains did not. Nine genes coding for AHL inactivation were cloned either by functional cloning or by a PCR procedure from selected bacterial isolates and strains. Sequence comparison of the gene products and motif analysis showed that the gene products belong to the same family of AHL lactonases.     

Molecular characterization of antimicrobial compound produced by Lactobacillus acidophilus AA11

Approximately 63 strains of Lactobacillus acidophilus were isolated from Egyptian home-made cheese and examined for production of antagonism. Only eight strains demonstrated inhibitory activity against spoilage microorganisms (i.e. Staphylococcus aureus and Bacillus cereus) and pathogens (i.e. E. coli, Salmonella sp. and Shigella sp.). Lactobacillus acidophilus AA11 produced higher antimicrobial activity with a wide range of inhibition. The agent AA11 was sensitive to proteolytic enzymes and retained full activity after 30 min at 100 degrees C. Activity against sensitive cells was bactericidal but not bacteriolytic. The compound was produced during growth phase and could be extracted from the culture supernatant fluids with n-butanol. 12% SDS-PAGE analysis of 40% ammonium sulphate precipitated agent showed two peptides with molecular weights of approximately 36 kDa and approximately 29 kDa. No plasmid was identified in Lactobacillus acidophilus AA11 indicating that the genes encoding the inhibitory agent were located on the chromosome. These characteristics identify the inhibitory substance as a bacteriocin, designated acidocin AA11 and confer the agent an application potential as a biopreservative.     

A RAPD-PCR method for the rapid detection of Bacillus cereus

Distinction of Bacillus cereus from other closely related bacilli is challenging and new efficient methods are continually demanded. From our previous work on RAPD profiles of bacilli, we found a possibility that B. cereus strains could be distinguished from other bacilli. In this work, RAPD-PCR profiles of B. cereus strains were obtained using a 10-mer (S30) as a primer, and a B. cereus specific 0.91-kb band was produced from all tested strains. The RAPD-PCR procedure also successfully detected B. cereus from spiked cheonggukjang when B. cereus cells were present at more than 10(2)/g sample.     

Characterization of emetic Bacillus weihenstephanensis, a new cereulide-producing bacterium

Cereulide production has until now been restricted to the species Bacillus cereus. Here we report on two psychrotolerant Bacillus weihenstephanensis strains, MC67 and MC118, that produce cereulide. The strains are atypical with regard to pheno- and genotypic characteristics normally used for identification of emetic B. cereus strains. MC67 and MC118 produced cereulide at temperatures of as low as 8 degrees C.     

Chromium-resistant bacteria and cyanobacteria: impact on Cr(VI) reduction potential and plant growth

Two chromium-resistant bacterial strains, Bacillus cereus S-6 and Ochrobactrum intermedium CrT-1, and two cyanobacterial strains, Oscillatoria sp. and Synechocystis sp., were used in this study. At initial chromate concentrations of 300 and 600 microg K2CrO4 mL(-1), and an inoculum size of 9.6 x 10(7) cells mL(-1), B. cereus S-6 completely reduced Cr(VI), while O. intermedium CrT-1 reduced Cr(VI) by 98% and 70%, respectively after 96 h. At 100 microg K2CrO4 mL(-1), Synechocystis sp. MK(S) and Oscillatoria sp. BJ2 reduced 62.1% and 39.9% of Cr(VI), respectively, at 30 degrees C and pH 8. Application of hexavalent chromate salts adversely affected wheat seedling growth and anatomical characters. However, bacterial inoculation alleviated the toxic effects, as reflected by significant improvements in growth as well as anatomical parameters. Cyanobacterial strains also led to some enhancement of various growth parameters in wheat seedlings.     

Viili中益生菌的分离及其发酵性质研究

目的 利用传统方法和分子生物学方法从viili中筛菌并对其特性进行研究.方法 采用MRS、YPD和脱脂乳营养琼脂3种平板从viili中分离出15株单菌,利用V3区通用引物和乳杆菌特异性引物对各单菌的PCR产物进行变性梯度凝胶电泳(denaturing gradient gel electrophoresis,DGGE)分析,将其归为5种不同菌.结果 16S DNA测序表明,5种单菌分别为Lactobacillus plantarum、Streptococcus thermophilus、Lactobacillus paracasei、Bacillus cereus和Lactobacillus delbrueckii subsp. bulgaricus.混合发酵实验表明:从viili中筛出的5种菌除Bacillus cereus外均有凝乳现象,其中Lactobacillus delbrueckii凝乳能力强,可在5 h内凝乳;Lactobacillus paracasei、Bacillus cereus和Lactobacillus plantarum组合产生的EPS量最多,高达186.71 mg/L,而Streptococcus thermophilus EPS产量仅为33.56 mg/L.结论 传统方法与分子生物学方法DGGE相结合,可以快速准确判断细菌种类;筛选菌特性研究结果表明,细菌之间的相互作用导致凝乳时间和EPS产量发生变化,其复合作用有待于进一步研究.     

Development of real-time PCR assays for detection and quantification of Bacillus cereus group species: differentiation of B. weihenstephanensis and rhizoid B. pseudomycoides isolates from milk

Quantitative real-time PCR (qRT-PCR) offers an alternative method for the detection of bacterial contamination in food. This method provides the quantitation and determination of the number of gene copies. In our study, we established an RT-PCR assay using the LightCycler system to detect and quantify the Bacillus cereus group species, which includes B. cereus, B. anthracis, B. thuringiensis, B. weihenstephanensis, B. mycoides, and B. pseudomycoides. A TaqMan assay was designed to detect a 285-bp fragment of the motB gene encoding the flagellar motor protein, which was specific for the detection of the B. cereus group species, excluding B. pseudomycoides, and the detection of a 217-bp gene fragment of a hypothetical protein specific only for B. pseudomycoides strains. Based on three hydrolysis probes (MotB-FAM-1, MotB-FAM-2, and Bpm-FAM-1), it was possible to differentiate B. weihenstephanensis from the B. cereus group species with nonrhizoid growth and B. pseudomycoides from the whole B. cereus group. The specificity of the assay was confirmed with 119 strains belonging to the Bacillus cereus group species and was performed against 27 other Bacillus and non-Bacillus bacteria. A detection limit was determined for each assay. The assays performed well not only with purified DNA but also with DNA extracted from milk samples artificially contaminated with bacteria that belong to the B. cereus group species. This technique represents an alternative approach to traditional culture methods for the differentiation of B. cereus group species and differentiates B. weihenstephanensis and B. pseudomycoides in one reaction.     

Climatic influence on mesophilic Bacillus cereus and psychrotolerant Bacillus weihenstephanensis populations in tropical, temperate and alpine soil

Bacillus weihenstephanensis strains are psychrotolerant and grow from below 7°C to 38°C. Closely related mesophilic Bacillus cereus strains can grow from above 7°C to 46°C. We classified 1060 B. cereus group isolates from different soil samples with respect to their psychrotolerant and mesophilic genotypes by polymerase chain reaction (PCR) targeting of specific 16S rDNA and cold shock protein A gene signatures. In parallel, growth tests at 7°C were carried out to determine the thermal phenotype. The geographic distribution of psychrotolerant and mesophilic isolates was found to depend significantly on the prevalent annual average temperature. In one tropical, one temperate and two alpine habitats, the proportion of psychrotolerant cspA genotypes was found to be 0%, 45% and 86% and 98%, respectively, with the corresponding annual average temperatures being 28°C, 7°C, 4°C and 1°C. In the tropical habitat, only the mesophilic B. cereus was found, characterized by correspondence of thermal genotype and phenotype. In the alpine habitat, almost only the psychrotolerant B. weihenstephanensis was isolated. In the temperate habitat, mesophilic B. cereus and psychrotolerant B. weihenstephanensis as well as 'intermediate thermal types' occurred, the latter having opposite thermal genotypes and phenotypes or opposing sets of thermal DNA signatures, characterized by the coexistence of mesophilic and psychrotolerant 16S rDNA operon copies within a single isolate. Both sugar utilization and DNA fingerprinting patterns revealed a high, probably non-clonal microsite diversity within the population of the temperate habitat. We interpret our observations in terms of a temperature-dependent selection regime, acting on recombining B. cereus / B. weihenstephanensis populations in soil.     

Bacterial Inhibitors Formed During the Adventitious Growth of Micro-organisms in Chicken Liver and Pig Kidney

Inhibitory activity (detected by Bacillus cereus var. mycoides) , identical with that encountered in survey samples, was induced in homogenized fresh chicken liver or pig kidney samples by incubating at 30°C. relative potency of each of three active components as detected by t.l.c./bio-autography of extracts of freeze-dried material was ascertained. Three strains of Streptococcus faecalis and a Lactobacillus sp. were responsible for production of the inhibitory activity, which was not produced by any of these organisms in synthetic liquid media.