CYP109E1 is a novel versatile statin and terpene oxidase from Bacillus megaterium

CYP109E1 is a cytochrome P450 monooxygenase from Bacillus megaterium with a hydroxylation activity for testosterone and vitamin D3. This study reports the screening of a focused library of statins, terpene-derived and steroidal compounds to explore the substrate spectrum of this enzyme. Catalytic activity of CYP109E1 towards the statin drug-precursor compactin and the prodrugs lovastatin and simvastatin as well as biotechnologically relevant terpene compounds including ionones, nootkatone, isolongifolen-9-one, damascones, and β-damascenone was found in vitro. The novel substrates induced a type I spin-shift upon binding to P450 and thus permitted to determine dissociation constants. For the identification of conversion products by NMR spectroscopy, a B. megaterium whole-cell system was applied. NMR analysis revealed for the first time the ability of CYP109E1 to catalyze an industrially highly important reaction, the production of pravastatin from compactin, as well as regioselective oxidations generating drug metabolites (6′β-hydroxy-lovastatin, 3′α-hydroxy-simvastatin, and 4″-hydroxy-simvastatin) and valuable terpene derivatives (3-hydroxy-α-ionone, 4-hydroxy-β-ionone, 11,12-epoxy-nootkatone, 4(R)-hydroxy-isolongifolen-9-one, 3-hydroxy-α-damascone, 4-hydroxy-β-damascone, and 3,4-epoxy-β-damascone). Besides that, a novel compound, 2-hydroxy-β-damascenone, produced by CYP109E1 was identified. Docking calculations using the crystal structure of CYP109E1 rationalized the experimentally observed regioselective hydroxylation and identified important amino acid residues for statin and terpene binding.

     

A new <Emphasis Type="Italic">Bacillus megaterium</Emphasis> whole-cell catalyst for the hydroxylation of the pentacyclic triterpene 11-keto-β-boswellic acid (KBA) based on a recombinant cytochrome P450 system

The use of cytochromes P450 for the regio- and stereoselective hydroxylation of non-activated carbon atoms in biotechnological applications reflects an efficient and cost-effective alternative in comparison to classical organic chemistry. The prokaryotic cytochrome P450 CYP106A2 from Bacillus megaterium ATCC 13368 hydroxylates a variety of 3-oxo-Δ⁴ steroids and recently it was identified to carry out a one-step regioselective allylic hydroxylation of the diterpene abietic acid. The anti-inflammatory pentacyclic triterpene 11-Keto-β-boswellic acid (KBA) was found to be a further substrate of CYP106A2, being the first report of a pentacyclic triterpene conversion by a prokaryotic P450. The reaction products were analyzed by HPLC and the corresponding kinetic parameters were investigated. Structure determination of the main product by NMR revealed a 15α-hydroxylation of this substrate. In order to overcome the inability of a recombinant P450 whole-cell system in E. coli for the uptake of acids with terpene structure, we developed for the first time an expression system for cytochromes P450 in B. megaterium (strains MS941 and ATCC 13368). Interestingly, CYP106A2 was only successfully expressed in the plasmid-less B. megaterium strain MS941 but not in ATCC13368. This recombinant system, with the co-expressed heterologous redox chain of the P450, bovine adrenodoxin reductase (AdR), and bovine adrenodoxin (Adx), was applied for the whole-cell conversion of KBA. The formation of 15α-hydroxy-KBA was increased 15-fold in comparison with the naturally CYP106A2-expressing B. megaterium strain ATCC 13368.     

Isolation of spore-forming bacilli from mosquitoes in natural breeding habitats in Iraq

New isolates of spore-forming bacilli from larvae and pupae of 3 species of mosquitoes are recorded in central Iraq.Bacillus sphaericus Meyer and Neide was isolated fromCulex pipiens (L.) larva.Bacillus carotarum Koch andBacillus cereus Frankland & Frankland were isolated fromTheobaldia longiareolata (Macquart) pupae.Bacillus laterosporus Laubach andBacillus thuringiensis (H 18) were isolated fromAedes caspius (Pallas) larvae. In addition, unidentifiedBacillus spp. were isolated fromCx. pipiens, T. longiareolata andAe. caspius larvae. Examination of soil samples collected from mosquito natural breeding habitats revealed isolates ofB. cereus, Bacillus thuringiensis H4a 4b; H 12 and H 16 and an unidentifiedBacillus sp.

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Résumé Des souches bactériennes sporogènes sont isolées de moustiques qui se trouvent dans la région centrale de l'Irak. Les résultats obtenus sont les suivants:Bacillus sphaericus Meyer & Neide [Culex pipiens (L.), larve],Bacillus carotarum Koch etBacillus cereus Frankland & Frankland [Theobaldia longiareolata (Macquart), nymphe],Bacillus laterosporus Laubach etBacillus thuringiensis (H 18) [Aedes caspius (Pallas), larvel]. L'examen des larves deCulex pipiens. T. longiareolata etAe. caspius, ainsi que l'analyse des échantillons du sol prélevés dans la région montrent la présence deBacillus cereus, Bacillus thuringiensis H4a 4b; H12 plus H16 et d'autresBacillus non identifiés.

     

Species-level identification of <Emphasis Type="Italic">Bacillus</Emphasis> strains isolates from marine sediments by conventional biochemical, 16S rRNA gene sequencing and inter-tRNA gene sequence lengths analysis

The aim of this study was to compare the ability of commonly used conventional biochemical tests, sequencing analysis of 16S rRNA genes and tDNA-intergenic spacer length polymorphism (tDNA-PCR) to identify species of the genus Bacillus recovered from marine sediments. While biochemical tests were not sufficiently sensitive to distinguish between the 23 marine strains analyzed, partial 16S rRNA gene sequences allowed a correct identification, clustering them into four species belonging to Bacillus licheniformis (n = 6), Bacillus cereus (n = 9), Bacillus subtilis (n = 7) and Bacillus pumilus (n = 1). The identification results obtained with 16S rRNA sequencing were validated by tDNA-PCR analysis of 23 marine isolates that were identified by the similarities of their fingerprints to those of reference strains. tDNA-PCR fingerprinting was as discriminatory as 16S rRNA sequencing analysis. Although it was not able to distinguish among the species of the B. cereus and B. subtilis groups, it should be considered a rapid and easy approach for the reliable identification of unknown Bacillus isolates or at least for the primary differentiation of Bacillus groups.     

动物用芽孢杆菌微生态制剂中蜡样芽孢杆菌的分离及安全性

【背景】芽孢杆菌是仅次于乳酸菌常用于微生态制剂中的菌种,然而部分芽孢杆菌微生态制剂规范不严,应用存在安全隐患。【目的】调查我国在售动物用芽孢杆菌微生态制剂中蜡样芽孢杆菌携带情况,揭示蜡样芽孢杆菌应用的潜在风险。【方法】对微生态制剂预处理,选择性筛选分离蜡样芽孢杆菌,通过全基因组测序测绘细菌毒素基因谱与耐药基因谱,细胞计数试剂盒-8法测定菌株对细胞的毒性,利用微量肉汤稀释法确定菌株耐药值。【结果】从50份微生态制剂产品中筛选分离得到23株蜡样芽孢杆菌群细菌,它们对氨苄西林、林可霉素和泰妙菌素3种抗生素均耐药,主要毒力基因nhe、hbl、cytK、ces的检出率分别为100%、30%、39%和4%,分离株均有溶血性且39%菌株产生热稳定毒素,不同菌株对非洲绿猴肾细胞呈现出不同程度的毒性。【结论】微生态制剂来源的蜡样芽孢杆菌毒性与耐药性严重,携带毒素基因与耐药基因广泛,多株菌株呈高细胞毒性且产生热稳定毒素。芽孢杆菌微生态制剂存在安全性问题,应加强对蜡样芽孢杆菌的质量安全监管力度,规范微生态制剂的市场秩序,杜绝安全隐患。     

Screening of bacterial cytochrome P450s responsible for regiospecific hydroxylation of (iso)flavonoids

Screening of cytochrome P450 monoxygenases responsible for the regiospecific hydroxylation of flavones, isoflavones and chalcones was attempted using a P450 library constructed from Streptomyces avermitilis MA4680, Bacillus and Nocardia farcinica IFM10152 strains. As electron transfer redox partners with the P450s in Escherichia coli system, putidaredoxin reductase (PdR) and putidaredoxin (Pdx) from Pseudomonas putida were used. Among the 50 soluble P450s in the library screened, three cytochrome P450s, i.e. CYP107Y1, CYP125A2 and CYP107P2 from S. avermitilis MA4680 showed good hydroxylation activities towards flavones and isoflavones. However, low product yields prevented us from identifying complete structure of the products. By using S. avermitilis MA4680 as their expression host, further analysis identified that CYP107Y1(SAV2377), CYP125A2(SAV5841) and CYP107P2(SAV4539) showed good regiospecific hydroxylation activities towards genistein (4',5,7-trihydroxyisoflavone), chrysin (5,7-dihydroxyisoflavone) and apigenin (4',5,7-dihydroxyisoflavone) to produce 3',4',5,7,-tetrahydroxyisoflavone, B-ring hydroxylated 5,7-dihydroxyflavone and 3',4',5,7,-tetrahydroxyflavone, respectively. Analyses of the reaction products were performed using HPLC, ESI-MS-MS and GC-MS and 1H NMR.     

A novel cytochrome P450 mono‐oxygenase from Streptomyces platensis resembles activities of human drug metabolizing P450s

Cytochrome P450 mono‐oxygenases (P450) are versatile enzymes which play essential roles in C‐source assimilation, secondary metabolism, and in degradations of endo‐ and exogenous xenobiotics. In humans, several P450 isoforms constitute the largest part of phase I metabolizing enzymes and catalyze oxidation reactions which convert lipophilic xenobiotics, including drugs, to more water soluble species. Recombinant human P450s and microorganisms are applied in the pharmaceutical industry for the synthesis of drug metabolites for pharmacokinetics and toxicity studies. Compared to the membrane‐bound eukaryotic P450s, prokaryotic ones exhibit some advantageous features, such as high stability and generally easier heterologous expression. Here, we describe a novel P450 from Streptomyces platensis DSM 40041 classified as CYP107L that efficiently converts several commercial drugs of various size and properties. This P450 was identified by screening of actinobacterial strains for amodiaquine and ritonavir metabolizing activities, followed by genome sequencing and expression of the annotated S. platensis P450s in Escherichia coli. Performance of CYP107L in biotransformations of amodiaquine, ritonavir, amitriptyline, and thioridazine resembles activities of the main human metabolizing P450s, namely CYPs 3A4, 2C8, 2C19, and 2D6. For application in the pharmaceutical industry, an E. coli whole‐cell biocatalyst expressing CYP107L was developed and evaluated for preparative amodiaquine metabolite production.     

Acetyl-coenzyme A: arylamine N-acetyltransferases in microorganisms: screening and isolation of an enzyme from Bacillus cereus

The raw extracts of a series of microorganisms were screened for the presence of acetyl-coenzyme A: arylamine N-acetyltransferase (AAAT) using a radioactive assay with ³H-acetyl-coenzyme A and aniline as substrates. Enzyme activities were primarily detected in the soluble fractions of Bacillus and Nocardia species, and in some further soil organisms. Only strains of Bacillus cereus were able to acetylate 4-nitroaniline and 3,5-dimethyl-4-nitroaniline. The fermentation conditions for the production of the enzyme were optimized. The AAAT from one strain of Bacillus cereus was purified 24-fold and characterized.Abbreviations AAAT acetyl-coenzyme A: arylamine N-acetyltransferase - AcP acetylphosphate - CoA coenzyme A - EDTA ethylenediaminetetra-acetic acid - PTA phosphotransacetylase     

Expression of parasporal crystal protein (δ—endotoxin) gene(s) ofBacillus thuringiensis var.israelensis in sporogenic and asporogenic mutant strains ofBacillus cereus

The expression of parasporal crystal protein (δ-endotoxin) coding gene(s) ofBacillus thuringlensis var.israelensis and its association, if any, with sporulation was studied in sporogenicBacillus cereus and its asporogenic mutant strains. Five asporogenous mutants ofBacillus cereus blocked at different stages of sporulation, were isolated from a streptomycin-resistant strain, The transconjugants isolated from the plasmid transfer experiments betweenBacillus thuringiensis var.israelensis and streptomycin resistantBacillus cereus and its asporogenous mutants, showed larvicidal activity. The crystal protein gene(s) are, therefore, expressed both in sporulating and in non-sporulating mutant strains ofBacillus cereus suggesting that the expression of crystal protein gene(s), is independent of sporulation specific functions inBacillus cereus. Part of the work was carried out at Biotechnology Programme, Jadavpur University, Calcutta 700 032, India.     

Type selective inhibition of microbial fatty acid synthases by thiolactomycin

The antibiotic, thiolactomycin, is known to selectively inhibit the Type II straight-chain fatty acid synthase (monofunctional enzyme system, e.g. Escherichia coli enzyme) but not Type I straight-chain fatty acid synthase (multifunctional enzyme system, e.g. Saccharomyces cerevisiae enzyme). We have studied the effect of thiolactomycin on the branched-chain fatty acid synthases from Bacillus subtilis, Bacillus cereus, and Bacillus insolitus. Fatty acid synthase from all three Bacilli was not inhibited or only slightly inhibited by thiolactomycin. E. coli synthase, as expected, was strongly inhibited by thiolactomycin. Branched-chain fatty acid synthase from Bacillus species is a monofunctional enzyme system but, unlike Type II E. coli synthase, it is largely insensitive to thiolactomycin.     

Heterologous expression of CYP102A5 variant from Bacillus cereus CYPPB-1: Validation of model for predicting drug metabolism of human P450 probe substrates

CYP102A5 variant (ADL27534) from isolated Bacillus cereus CYPPB-1 was heterologously expressed in Escherichia coli Top 10 cells. Comparative sequence analysis of purified CYP102A5 variant with respect to reported CYP102A5 (AAP10153) from Bacillus cereus ATCC 14579 revealed amino acid sequence changes at positions P245S and M318I of heme domain. The binding affinities of 15 selected human P450 probe substrates towards isolated CYP102A5 were analyzed in silico using a homology model together with molecular docking techniques to predict the human drug metabolism. In vitro analysis suggested that the purified CYP102A5 metabolizes typical substrates of human CYP2C9, CYP2D6, CYP2E1, and CYP3A4, such as coumarin, propranolol, aniline, chlorzoxazone, p-nitrophenol, and nifedipine. The calculated K _M values for propranolol, chloroxazone, coumarin, aniline, and 4-nitrophenol were calculated to be 0.962?±?0.041, 1.254?±?0.057, 2.859?±?0.083, 2.732?±?0.106, and 2.528?±?0.11 mM, respectively. Importantly, taking a ChemScore cutoff value of ?31 kJ/mol, substrate binding at active site and in vitro activity as the distinguishing lines between “substrates” and “nonsubstrates” revealed one false-positive and one false-negative results out of the 15 compounds examined. This is the first report on validation of CYP102A family homology model for in silico prediction of human drug metabolism.     

Molecular phylogenetic diversity of Bacillus community and its temporal–spatial distribution during the swine manure of composting

In order to obtain the diversity and temporal–spatial distribution of Bacillus community during the swine manure composting, we utilized traditional culture methods and the modern molecular biology techniques of polymerase chain reaction–restriction fragment length polymorphism (PCR-RFLP) and –denaturing gradient gel electrophoresis (PCR-DGGE). Bacillus species were firstly isolated from the composting. Based on temperature changes, the temporal–spatial characteristics of total culturable Bacillus were remarkable that the number of the culturable Bacillus detected at the high-temperature stage was the highest in each layer of the pile and that detected in the middle layer was the lowest at each stage of composting respectively. The diversity of cultivated Bacillus species isolated from different composting stages was low. A total of 540 isolates were classified by the RFLP method and partial 16S rDNA sequences. They affiliated to eight species including Bacillus subtilis, Bacillus cereus, Bacillus thuringiensis, Bacillus anthracis, Bacillus megaterium, Bacillus licheniformis, Bacillus pumilus, and Bacillus circulans. The predominant species was B. subtilis, and the diversity of culturable Bacillus isolated in the middle-level samples at temperature rising and cooling stages was the highest. The DGGE profile and clone library analysis revealed that the temporal–spatial distribution of Bacillus community was not obvious, species belonging to the Bacillus were dominant (67%) with unculturable bacteria and B. cereus was the second major culturable Bacillus species. This study indicated that a combination of culture and culture-independent approaches could be very useful for monitoring the diversity and temporal–spatial distribution of Bacillus community during the composting process.     

Plant‐associated Bacillus spp. alter life‐history traits of the specialist insect Brevicoryne brassicae L.

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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.     

Utilization of a polyphasic approach in the taxonomic reassessment of antibiotic- and enzyme-producing <Emphasis Type="Italic">Bacillus</Emphasis> spp. isolated from the Philippines

Summary The taxonomy of 58 locally isolated antibiotic- and enzyme-producing Bacillus isolates deposited at the Philippine National Collection of Microorganisms (PNCM)-BIOTECH was reassessed in this study using a polyphasic approach since they had been only partially identified prior to deposition in the culture collection. The isolates had 41.1–69% G + C, and possessed the characteristic diaminopimelic acid (DAP) and fatty acid methyl ester (FAMEs) properties of Bacillus species. Molecular analysis using specific PCR primers differentiated the isolates into two major groups, the Bacillus cereus group and the Bacillus subtilis group. To further differentiate these isolates, they were subjected to 39 phenotypic tests. Using the dichotomous key constructed for Bacillus, 45 isolates maintained their original identities, five were named at the species level, and 12 were re-identified and renamed. These results showed that the classical phenotypic tests allowed the reclassification of the isolates, while modern techniques of chemotaxonomy and the molecular approach led only to genus and cluster classification and confirmation.     

Germanium accumulation by bacteria

Germanium accumulation was investigated in 23 bacterial strains. Bacillus strains accumulated the most Ge. Increasing the pH of the incubation medium from 7 to 8.5, as well as substituting catechol for glucose resulted in increased Ge accumulation. The apparent K _s and V _max of Ge accumulation in Bacillus cereus NRC 3045 were found to be 4.0 g/l and 2.2 mg/g dry wt/h, respectively. When cells from three different Bacillus strains were incubated in the presence of 2,4-dinitrophenol or toluene, Ge accumulation was completely inhibited. At 6° C, two out of three Bacillus strains showed a large decrease in Ge accumulation. In addition, non-viable Bacillus cells killed by UV irradiation did not accumulate Ge. These results strongly suggest that Ge accumulation by some Bacillus strains may be an energy-dependent process.     

Phytase,Phosphatase Activity and P-Nutrition of Soybean as Influenced by Inoculation of <Emphasis Type="Italic">Bacillus</Emphasis>

The efficiency of different Bacillus isolates on rhizosphere soil enzyme activities and P-nutrition of soybean was carried out under microcosm conditions. Significant increase in enzyme activities viz., fluorescein diacetate activity, phosphatase and phytase activity and consequent effects on P-nutrition were observed with the inoculation of Bacillus isolates over uninoculated control. Among the isolates, BD-3-1B, KHBD-6, BDKH-3, Bacillus amyloliquefacians, and Bacillus cereus were found to be promising. The phytic acid-P as a percentage of total P content in soybean seeds decreased with the inoculation of Bacillus isolates as compared to un-inoculated control. A decrease in phytic-P in soybean seeds not only results in better digestibility and increased feed efficiency. Pearson correlation studies revealed a significant positive association between acid, alkaline phosphatases, phytase activity on available P content in soil and P content in seeds with the inoculation of Bacillus isolates, indicating role of these enzymes in P mobilization and acquisition by soybean.     

Characterization and structure-guided engineering of the novel versatile terpene monooxygenase CYP109Q5 from Chondromyces apiculatus DSM436

One of the major challenges in chemical synthesis is the selective oxyfunctionalization of non-activated C-H bonds, which can be enabled by biocatalysis using cytochrome P450 monooxygenases. In this study, we report on the characterization of the versatile CYP109Q5 from Chondromyces apiculatus DSM436, which is able to functionalize a wide range of substrates (terpenes, steroids and drugs), including the ring of β-ionone in non-allylic positions. The crystal structure of CYP109Q5 revealed flexibility within the active site pocket that permitted the accommodation of bulky substrates, and enabled a structure-guided approach to engineering the enzyme. Some variants of CYP109Q5 displayed a switch in selectivity towards the non-allylic positions of β-ionone, allowing the simultaneous production of 2- and 3-hydroxy-β-ionone, which are chemically challenging to synthesize and are important precursors for carotenoid synthesis. An efficient whole-cell system finally enabled the production of up to 0.5 g l⁻¹ hydroxylated products of β-ionone; this system can be applied to product identification in further biotransformations. Overall, CYP109Q5 proved to be highly evolvable and active. The studies in this work demonstrate that, using rational mutagenesis, the highly versatile CYP109Q5 generalist can be progressively evolved to be an industrially valuable specialist for the synthesis of specific products.     

CYP106A2—A versatile biocatalyst with high potential for biotechnological production of selectively hydroxylated steroid and terpenoid compounds

CYP106A2 from Bacillus megaterium ATCC13368, was identified in the 1970s as one of the first bacterial steroid hydroxylases responsible for the conversion of progesterone to 15β-hydroxyprogesterone. Later on it has been proven to be a potent hydroxylase of numerous 3-oxo-Δ⁴ as well as 3-hydroxy-Δ⁵-steroids and has recently also been characterized as a regioselective allylic bacterial diterpene hydroxylase. The main hydroxylation position of CYP106A2 is thought to be influenced by the functional groups at C3 position in the steroid core leading to a favored 15β-hydroxylation of 3-oxo-Δ⁴-steroids and 7β-hydroxylation of 3-hydroxy-Δ⁵-steroids. However, in some cases the hydroxylation is not strictly selective, resulting in the formation of undesired side-products. To overcome the unspecific hydroxylations or, on the contrary, to gain more of these products in case they are of industrial interest, rational protein design and directed evolution have been successfully performed to shift the stereoselectivity of hydroxylation by CYP106A2. The subsequently obtained hydroxylated steroid and terpene derivatives are especially useful as drug metabolites and drug precursors for the pharmaceutical industry, due to their diverse biological properties and hardship of their chemical synthesis. As a soluble prokaryotic P450 with broad substrate spectrum and hydroxylating capacity, CYP106A2 is an outstanding candidate to establish bioconversion processes. It has been expressed with respectable yields in Escherichia coli and Bacillus megaterium and was applied for the preparative hydroxylation of several steroids and terpenes. Recently, the application of the enzyme was assessed under process conditions as well, depicting a successfully optimized process development and getting us closer to industrial scale process requirements and a future large scale application. This article is part of a Special Issue entitled: Cytochrome P450 biodiversity and biotechnology, edited by Erika Plettner, Gianfranco Gilardi, Luet Wong, Vlada Urlacher, Jared Goldstone.     

DNA sequence conservation between the Bacillus anthracis pXO2 plasmid and genomic sequence from closely related bacteria

Background  

Complete sequencing and annotation of the 96.2 kb Bacillus anthracis plasmid, pXO2, predicted 85 open reading frames (ORFs). Bacillus cereus and Bacillus thuringiensis isolates that ranged in genomic similarity to B. anthracis, as determined by amplified fragment length polymorphism (AFLP) analysis, were examined by PCR for the presence of sequences similar to 47 pXO2 ORFs.