Model predictive controller for biodegradable polyhydroxyalkanoate production in fed-batch culture

The diketone compound, benzil is reduced to (S)-benzoin with living Bacillus cereus cells. Recently, we isolated a gene responsible for benzil reduction, and Escherichia coli cells in which this gene was overexpressed transformed benzil to (S)-benzoin. Although this benzil reductase showed high identity to the short-chain dehydrogenase/reductase (SDR) family, enzymological features were unknown. Here, we demonstrated that many B. cereus strains had benzil reductase activity in vivo, and that the benzil reductases shared 94-100% amino acid identities. Recombinant B. cereus benzil reductase produced optically pure (S)-benzoin with NADPH in vitro, and the ketone group distal to a benzene ring was asymmetrically reduced. B. cereus benzil reductase showed 31% amino acid identity to the yeast open reading frame YIR036C protein and 28-30% to mammalian sepiapterin reductases, sharing the seven residues consensus for the SDR family. We isolated the genes encoding yeast YIR036C protein and gerbil sepiapterin reductase, and both recombinant proteins also reduced benzil to (S)-benzoin in vitro. Green fluorescent protein-tagged B. cereus benzil reductase distributed in the bipolar cytoplasm in B. cereus cells. Asymmetric reduction with B. cereus benzil reductase, yeast YIR036C protein and gerbil sepiapterin reductase will be utilized to produce important chiral compounds.     

Evaluation of in vitro Cr(VI) reduction potential in cytosolic extracts of three indigenous Bacillus sp. isolated from Cr(VI) polluted industrial landfill

Three efficient Cr(VI) reducing bacterial strains were isolated from Cr(VI) polluted landfill and characterized for in vitro Cr(VI) reduction. Phylogenetic analysis using 16S rRNA gene sequencing revealed that the newly isolated strains G1DM20, G1DM22 and G1DM64 were closely related to Bacillus cereus, Bacillus fusiformis and Bacillus sphaericus, respectively. The suspended cultures of all Bacillus sp. exhibited more than 85% reduction of 1000 microM Cr(VI) within 30 h. The suspended culture of Bacillus sp. G1DM22 exhibited an ability for continuous reduction of 100 microM Cr(VI) up to seven consecutive inputs. Assays with the permeabilized cells and cell-free extracts from each of Bacillus sp. demonstrated that the hexavalent chromate reductase activity was mainly associated with the soluble fraction of cells and expressed constitutively. The Cr(VI) reduction by the cell-free extracts of Bacillus sp. G1DM20 and G1DM22 was maximum at 30 degrees C and pH 7 whereas, Bacillus sp. G1DM64 exhibited maximum Cr(VI) reduction at pH 6. Addition of 1mM NADH enhanced the Cr(VI) reductase activity in the cell-free extracts of all three isolates. Amongst all three isolates tested, crude cell-free extracts of Bacillus sp. G1DM22 exhibited the fastest Cr(VI) reduction rate with complete reduction of 100 microM Cr(VI) within 100 min. The apparent K(m) and V(max) of the chromate reductase activity in Bacillus sp. G1DM22 were determined to be 200 microM Cr(VI) and 5.5 micromol/min/mg protein, respectively. The Cr(VI) reductase activity in cell-free extracts of all the isolates was stable in presence of different metal ions tested except Hg(2+) and Ag(+).     

Molecular determinants for the stereospecific reduction of 3-ketosteroids and reactivity towards all-trans-retinal of a short-chain dehydrogenase/reductase (DHRS4)

DHRS4, a member of the short-chain dehydrogenase/reductase superfamily, reduces all-trans-retinal and xenobiotic carbonyl compounds. Human DHRS4 differs from other animal enzymes in kinetic constants for the substrates, particularly in its low reactivity to retinoids. We have found that pig, rabbit and dog DHRS4s reduce benzil and 3-ketosteroids into S-benzoin and 3α-hydroxysteroids, respectively, in contrast to the stereoselectivity of human DHRS4 which produces R-benzoin and 3β-hydroxysteroids. Among substrate-binding residues predicted from the crystal structure of pig DHRS4, F158 and L161 in the animal DHRS4 are serine and phenylalanine, respectively, in the human enzyme. Double mutation (F158S/L161F) of pig DHRS4 led to an effective switch of its substrate affinity and stereochemistry into those similar to human DHRS4. The roles of the two residues in determining the stereospecificity in 3-ketosteroid reduction were confirmed by reverse mutation (S158F/F161L) in the human enzyme. The stereochemical control was evaluated by comparison of the 3D models of pig wild-type and mutant DHRS4s with the modeled substrates. Additional mutation of T177N into the human S158F/F161L mutant resulted in almost complete kinetic conversion into a pig DHRS4-type form, suggesting a role of N177 in forming the substrate-binding cavity through an intersubunit interaction in pig and other animal DHRS4s, and explaining why the human enzyme shows low reactivity towards retinoids.     

The succinate:menaquinone reductase of Bacillus cereus: characterization of the membrane-bound and purified enzyme

Utilization of external succinate by Bacillus cereus and the properties of the purified succinate:menaquinone-7 reductase (SQR) were studied. Bacillus cereus cells showed a poor ability for the uptake of and respiratory utilization of exogenous succinate, thus suggesting that B. cereus lacks a specific succinate uptake system. Indeed, the genes coding for a succinate-fumarate transport system were missing from the genome database of B. cereus. Kinetic studies of membranes indicated that the reduction of menaquinone-7 is the rate-limiting step in succinate respiration. In accordance with its molecular characteristics, the purified SQR of B. cereus belongs to the type-B group of SQR enzymes, consisting of a 65-kDa flavoprotein (SdhA), a 29-kDa iron-sulphur protein (SdhB), and a 19-kDa subunit containing 2 b-type cytochromes (SdhC). In agreement with this, we could identify the 4 conserved histidines in the SdhC subunit predicted by the B. cereus genome database. Succinate reduced half of the cytochrome b content. Redox titrations of SQR-cytochrome b-557 detected 2 components with apparent midpoint potential values at pH 7.6 of 79 and -68 mV, respectively; the components were not spectrally distinguishable by their maximal absorption bands as those of Bacillus subtilis. The physiological properties and genome database analyses of B. cereus are consistent with the cereus group ancestor being an opportunistic pathogen.     

Cloning of novel enterotoxin genes from Bacillus cereus and Bacillus thuringiensis.

A novel enterotoxin gene was cloned from Bacillus cereus FM1, and its nucleotide sequence was determined. Previously, a 45-kDa protein causing characteristic enterotoxin symptoms in higher animals had been isolated (K. Shinagawa, p. 181-193, in A. E. Pohland et al., ed., Microbial Toxins in Foods and Feeds, 1990) from the same B. cereus strain, but no report of cloning of the enterotoxin gene has been published. In the present study, a specific antibody to the purified enterotoxin was produced and used to screen the genomic library of B. cereus FM1 made with the lambda gt11 vector. An immunologically positive clone was found to contain the full protein-coding region and some 5' and 3' flanking regions. The deduced amino acid sequence of the cloned gene indicated that the protein is rich in beta structures and contains some unusual sequences, such as consecutive Asn residues. In order to clone enterotoxin genes from Bacillus thuringiensis, two PCR primers were synthesized based on the nucleotide sequence of the B. cereus gene. These primers were designed to amplify the full protein-coding region. PCR conducted with DNA preparations from the B. thuringiensis subsp. sotto and B. thuringiensis subsp. israelensis strains successfully amplified a segment of DNA with a size almost identical to that of the protein-coding region of the B. cereus enterotoxin. Nucleotide sequences of the amplified DNA segments showed that these B. thuringiensis strains contain an enterotoxin gene very similar to that of B. cereus. Further PCR screening of additional B. thuringiensis strains with four primer pairs in one reaction revealed that some additional B. thuringiensis strains contain enterotoxin-like genes.     

Asymmetric reduction of benzil to (S)-benzoin with Penicillium claviforme IAM 7294 in a liquid-liquid interface bioreactor (L-L IBR)

The asymmetric reduction of benzyl to (S)-benzoin with Penicillium claviforme IAM 7294 was applied to a liquid-liquid interface bioreactor (L-L IBR) using a unique polymeric material, ballooned microsphere (MS). The L-L IBR showed superior performance, as compared with suspension, organic-aqueous two-liquid-phase, and solid-liquid interface bioreactor (S-L IBR) systems, affording 14.4 g/l-organic phase of (S)-benzoin (99.0% ee).     

应用16S rDNA克隆文库法分析有机物料腐熟菌剂细菌组成

应用16SrDNA克隆文库法对有机物料腐熟菌剂A和B样品中的细菌组成进行分析研究。结果表明,样品A有14个OTU,主要是融合乳杆菌(Weissella confusa)、枯草芽孢杆菌(Bacillus subtilis)和短小芽孢杆菌(Bacillus pumilus),其比例分别占总克隆文库的28.6%、30.4%和23.2%;样品B有43个OTU,主要是布氏乳杆菌(Lactobacillus buchneri)、香肠乳杆菌(Lactobacillus farciminis)和耐酸乳杆菌(Lactobacillus acetotolerans),占总克隆文库的比例分别为18.03%、18.86%和13.12%;所得出的结果均与产品标注存在差异,样品A未提及细菌的种类,而样品B只标注短小芽孢杆菌。研究表明这一方法在微生物菌剂细菌组成分析及其质量检测中具有良好的应用前景。     

Bacillus cereus CC-1的亚碲酸盐还原特性及产物表征

【背景】含Te(IV)的工业废水对于生物体具有潜在的毒性作用,可将Te(IV)还原为Te⁰的微生物过程具有重要的研究价值。【目的】探索亚硒酸盐还原菌Bacillus cereus CC-1对Te(IV)的还原能力、还原酶位点以及还原产物的特性。【方法】利用前期筛选的亚硒酸盐还原菌Bacillus cereus CC-1还原Te(IV),根据48h内还原率大小确定最适Te(IV)浓度及pH;考察不同阴阳离子对Te(IV)还原率的影响与Te(IV)还原酶位点;利用表征分析确定还原产物的组成、结晶性与形貌。【结果】菌株CC-1能够将Te(IV)还原,Te(IV)初始浓度为0.5 mmol/L,体系pH为7.0时还原率最高。体系中外加阴阳离子对Te(IV)的还原有一定影响,其中磷酸根、硫酸根、醋酸根、钼酸盐对Te(IV)的去除无明显影响;低浓度的硝酸根抑制Te(IV)的去除,随着硝酸根浓度增加,其对Te(IV)的去除的抑制作用减弱;铅离子和铋离子对Te(IV)的还原有抑制作用;铜离子能够提高Te(IV)的去除率。在胞外、细胞膜组分以及细胞内均检测到Te(IV)还原酶的活性...     

Cloning and sequencing of protochlorophyllide reductase.

Putative protochlorophyllide reductase cDNA clones (252 and 113) were isolated from an etiolated-oat (Avena sativa) cDNA library. These were used to indirectly characterize a further clone, p127, isolated from a lambda-phage gt11 cDNA library. The latter (1.15 kb in length) was sequenced, and the derived amino acid sequence was shown to be remarkably similar to that derived from chemical analysis of a CNBr-cleavage fragment of the purified reductase, p127 codes for more than 95% of the reductase protein.     

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.     

耐盐菌Staphylococcus sp. YZ-1和Bacillus cereus CC-1的Cr(VI)脱毒特性与机理

[背景]高盐含铬废水的去除过程中,Cr(Ⅵ)还原菌是研究者关注的重点,但目前对耐盐菌株的Cr(Ⅵ)脱毒特性及机理的分析仍较少。[目的]比较两株耐盐菌株的Cr(Ⅵ)移除特性,并区分Cr(Ⅵ)耐受机制的差异;通过基因组测序分析,从基因层面推测铬耐受相关基因;构建铬还原菌的混菌体系,考察两者对去除污染物的协同作用。[方法]从青海茶卡盐湖分离耐盐菌Staphylococcus sp.YZ-1,与Bacillus cereus CC-1进行基础特性和Cr(Ⅵ)去除性能的比较,并通过全基因组序列的分析验证特性测试的结果。[结果]两株菌都具有铬移除特性,但CC-1的铬移除效率更高,在初始Cr(Ⅵ)浓度为0.1 mmol/L情况下,CC-1能在12h内移除95.3%的Cr(Ⅵ),而YZ-1只能移除40.1%。在进一步实验中发现YZ-1只能对Cr(Ⅵ)进行还原,将其转化为可溶的有机态Cr(Ⅲ),而CC-1能同时对Cr(Ⅵ)进行还原和吸附。全基因组分析发现YZ-1具有编码外排泵蛋白的基因和编码NAD(P)H氧化还原酶的基因,而CC-1具有编码铬转运蛋白ChrA和细胞色素C氧化还原酶的基因。两株菌的混菌体系在处理含Cr(Ⅵ)、Te(Ⅳ)的废水时,菌群能将还原产物聚集成团并沉淀到底部。[结论]菌株YZ-1和CC-1均为耐盐铬还原菌,但YZ-1中的铬还原酶为诱导型酶,CC-1则为组成型酶。基因组数据分析鉴别出两者可能同时存在多种铬耐受机制相关编码基因。混合菌群可以结合YZ-1的自絮凝特性和两者均有的Te(Ⅳ)/Cr(Ⅵ)还原活性,具有潜在的实用价值。     

农业有机废物与城市生活垃圾堆肥高温期微生物种群结构比较

通过PCR、克隆文库方法分析了农业有机废物和城市垃圾堆肥高温期间细菌和真菌种群的多样性.提取堆肥高温期的DNA,PCR扩增,构建各高温期的16S rDNA和18S rDNA克隆文库,结果表明:农业有机废物和城市生活垃圾16S rDNA克隆文库中分别共有18个、21个OTUs,分别属于细菌域的14个、15个不同属,其18S rDNA克隆文库中分别共有8个、9个OTUs,分别属于细菌域的8个、9个不同属,推断农业有机废物堆体的优势菌为Bacillus megaterium、Rhizobium sp.、Phanerochaete chrysosporium、Penicillium sp.同属或同种的菌株;城市生活垃圾堆体的优势菌为Bacillus megaterium、Azospirillum sp.、Phanerochaete chrysosporium同种或同属的菌株.     

Nucleotide sequence of a chromosomal mercury resistance determinant from a Bacillus sp. with broad-spectrum mercury resistance.

A 13.5-kilobase HindIII fragment, bearing an intact mercury resistance (mer) operon, was isolated from chromosomal DNA of broad-spectrum mercury-resistant Bacillus sp. strain RC607 by using as a probe a clone containing the mercury reductase (merA) gene. The new clone, pYW33, expressed broad-spectrum mercury resistance both in Escherichia coli and in Bacillus subtilis, but only in B. subtilis was the mercuric reductase activity inducible. Sequencing of a 1.8-kilobase mercury hypersensitivity-producing fragment revealed four open reading frames (ORFs). ORF1 may code for a regulatory protein (MerR). ORF2 and ORF4 were associated with cellular transport function and the hypersensitivity phenotype. DNA fragments encompassing the merA and the merB genes were sequenced. The predicted Bacillus sp. strain RC607 MerA (mercuric reductase) and MerB (organomercurial lyase) were similar to those predicted from Staphylococcus aureus plasmid pI258 (67 and 73% amino acid identities, respectively); however, only 40% of the amino acid residues of RC607 MerA were identical to those of the mercuric reductase from gram-negative bacteria. A 69-kilodalton polypeptide was isolated and identified as the merA gene product by examination of its amino-terminal sequence.     

Use of a promoter trap to identify Bacillus cereus genes regulated by tomato seed exudate and a rhizosphere resident,Pseudomonas aureofaciens

The goal of this study was to identify genes in Bacillus cereus, a bacterium commonly associated with plant seeds and roots, that are affected by compounds originating from a host plant, tomato, or another rhizosphere resident, Pseudomonas aureofaciens. We constructed a B. cereus chromosomal DNA library in a promoter-trap plasmid, pAD123, which contains a promoterless version of the green fluorescent protein (GFP) gene, gfpmut3a. The library was screened by using fluorescence-activated cell sorting for clones showing a change in GFP expression in response to either tomato seed exudate or culture supernatant of P. aureofaciens strain 30-84. We identified two clones carrying genes that were induced by the presence of tomato seed exudate and nine clones carrying genes that were repressed by P. aureofaciens culture supernatant. A clone chosen for further study contained an open reading frame, designated lipA, that encodes a deduced protein with a lipoprotein signal peptide sequence similar to lipoproteins in B. subtilis. Expression of gusA under control of the lipA promoter increased twofold when cells were exposed to tomato seed exudate and in a concentration-dependent manner when exposed to a mixture of amino acids. When the wild type and a 10-fold excess of a lipA mutant were applied together to tomato seeds, 2 days after planting, the wild type displayed medium-dependent culturability, whereas the lipA mutant was unaffected. This study demonstrates the power of a promoter trap to identify genes in a gram-positive bacterium that are regulated by the biotic environment and resulted in the discovery of lipA, a plant-regulated gene in B. cereus.     

Primary structure of the oligo-1,6-glucosidase of Bacillus cereus ATCC7064 deduced from the nucleotide sequence of the cloned gene

The gene coding for Bacillus cereus ATCC7064 (mesophile) oligo-1,6-glucosidase was cloned within a 2.8-kb SalI-EcoRI fragment of DNA, using the plasmid pUC19 as a vector and Escherichia coli C600 as a host. E. coli C600 bearing the hybrid plasmid pBCE4 accumulated oligo-1,6-glucosidase in the cytoplasm. The cloned enzyme coincided absolutely with B. cereus oligo-1,6-glucosidase in its Mr (65,000), in its electrophoretic behavior on a polyacrylamide gel with or without sodium dodecyl sulfate, in its isoelectric point (4.5), in the temperature dependence of its stability and activity, and in its antigenic determinants. The nucleotide sequence of B. cereus oligo-1,6-glucosidase gene and its flanking regions was determined with both complementary strands of DNA (each 2838 nucleotides). The gene consisted of an open reading frame of 1674 bp commencing with a ATG start codon and followed by a TAA stop codon. The amino acid sequence deduced from the nucleotide sequence predicted a protein of 558 amino acid residues with a Mr of 66,010. The amino acid composition and Mr were comparable with those of B. cereus oligo-1,6-glucosidase. The predicted N-terminal sequence of 10 amino acid residues agreed completely with that of the cloned ligo-1,6-glucosidase. The deduced amino acid sequence of B. cereus oligo-1,6-glucosidase was 72% and 42% similar to those from Bacillus thermoglucosidasius KP1006 (DSM2542, obligate thermophile) oligo-1,6-glucosidase and from Saccharomyces carlsbergensis CB11 alpha-glucosidase, respectively. Predictions of protein secondary structures along with amino acid sequence alignments demonstrated that B. cereus oligo-1,6-glucosidase may take the similar (alpha/beta)8-barrel super-secondary structure, a barrel of eight parallel beta-strands surrounded by eight alpha-helices, in its N-terminal active site domain as S. carlsbergensis alpha-glucosidase and Aspergillus oryzae alpha-amylase.     

Effect of disulphite on protein and pyridine-2,6-dicarboxylic acid synthesis in sporulating cells of bacterial species

The effect of disulphite on protein and pyridine-2,6-dicarboxylic acid (dipicolinic acid, DPA) synthesis was investigated in sporulating cells of Bacillus subtilis E52 and B. cereus W18. Progressive reductions were evident in the protein and DPA concentrations for both sporulating cells with increasing concentrations (100 to 600 micrograms ml-1) of disulphite. A significant (P less than 0.05) reduction in protein synthesis by disulphite was exhibited, culminating in a decrease in protein synthesis ranging from 50% to 1.4%, and 50% to 2.5%, in B. subtilis E52 and B. cereus W18, respectively. The same disulphite concentrations caused a significant (P less than 0.05) decrease in DPA synthesis ranging from 75% to 12.5% and 70% to 5%, for B. subtilis E52 and B. cereus W18, respectively. DPA synthesis was completely prevented at 500 and 600 micrograms ml-1 for B. subtilis E52 and B. cereus W18, respectively. A plausible mechanism for the inhibitory action of disulphite on sporulating cells of the bacteria is proposed.     

Removal of hexavalent chromium in tannery wastewater by Bacillus cereus

Bacillus cereus was used to remove chromium (Cr(VI)) from medium containing tannery wastewater under different conditions. The maximum rate of Cr(VI) removal was attained at a temperature of 37?°C, pH of 7.0-9.0, and biomass of 20 g/L when the initial Cr(VI) concentration was less than 50?mg/L. Under the optimum conditions, the Cr(VI) in tannery wastewater was treated with each cellular component of B. cereus to detect its ability to reduce Cr(VI). The results showed that the removal rate of Cr(VI) for the cell-free extracts could reach 92.70%, which was close to that of the whole cells (96.85%), indicating that the Cr(VI) reductase generated by B.?cereus is primarily intracellular. Additionally, during continuous culture of the B. cereus, the strain showed good consecutive growth and removal ability. After treatment of 20?mg/L Cr(VI) for 48?h, the B. cereus was observed by SEM and TEM-EDX. SEM images showed that the B.?cereus used to treat Cr(VI) grew well and had a uniform cellular size. TEM-EDX analysis revealed large quantities of chromium in the B. cereus cells used to treat Cr(VI). Overall, the results presented herein demonstrate that B. cereus can be used as a new biomaterial to remove Cr(VI) from tannery wastewater.     

Discrimination of Bacillus cereus and Bacillus thuringiensis with 16S rRNA and gyrB gene based PCR primers and sequencing of their annealing sites

AIMS: To evaluate the possibility for discrimination of Bacillus cereus and B. thuringiensis using 16S rRNA and gyrB gene based PCR methods, and to obtain the sequences of the primer annealing sites so that the PCR results may be explained. METHODS AND RESULTS: Based on the sequence difference in the variable region (V1) of 16S rRNA and in the gyrB gene between B. cereus and B. thuringiensis, PCR primers specific to these Bacillus spp. were designed. When these primers were used to discriminate B. cereus and B. thuringiensis, six of 82 B. cereus strains were identified as B. thuringiensis while 67 of 73 B. thuringiensis strains were identified as B. cereus. Sequence analysis of the primer annealing sites showed that there is no clear-cut difference in the V1 region of 16S rRNA, and in the gyrB gene, between B. cereus and B. thuringiensis strains. CONCLUSIONS: Although 16S rDNA based probes and gyrB gene based PCR primers have been suggested for the discrimination of B. cereus and B. thuringiensis strains, when a large number of Bacillus strains was tested, results showed that discrimination between B. cereus and B. thuringiensis is difficult. Therefore, to distinguish B. thuringiensis from B. cereus, a single feature, such as the presence of a parasporal crystal protein or cry gene, may sometimes be reliable. SIGNIFICANCE AND IMPACT OF THE STUDY: Discrimination between B. cereus and B. thuringiensis is a challenging debate to which this paper makes a contribution.     

The identification of a tetracycline resistance gene tet(M), on a Tn916-like transposon,in the Bacillus cereus group

In order to investigate whether resistance genes present in bacteria in manure could transfer to indigenous soil bacteria, resistant isolates belonging to the Bacillus cereus group (Bacillus cereus, Bacillus anthracis and Bacillus thuringiensis) were isolated from farm soil (72 isolates) and manure (12 isolates) samples. These isolates were screened for tetracycline resistance genes (tet(K), tet(L), tet(M), tet(O), tet(S) and tet(T)). Of 88 isolates examined, three (3.4%) isolates carried both tet(M) and tet(L) genes, while four (4.5%) isolates carried the tet(L) gene. Eighty-one (92.1%) isolates did not contain any of the tested genes. All tet(M) positive isolates carried transposon Tn916 and could transfer this mobile DNA element to other Gram-positive bacteria.