Biocatalytic asymmetric hydroxylation of hydrocarbons by free and immobilized Bacillus megaterium cells

Screening of soil bacteria with allylbenzene resulted in a Bacillus megaterium strain, which hydroxylates simple hydrocarbons in high enantiomeric excess (ee up to 99%). Benzylic and nonbenzylic hydroxylation products were obtained, without the usually observed high preference for the benzylic position. The immobilization of the B. megaterium cells in alginate gel effectively improved the stability of the cells and increased the amounts of products formed, without loss of enantioselectivity. The product ratio ( vs. β hydroxylation) was shifted towards benzylic hydroxylation, which suggests that at least two hydroxylating enzymes with distinct regioselectivity are involved. Comparison to free-cell fermentations in small- and large-scale bioreactors (up to 2000 ml) showed that the use of immobilized cells is advantageous, as they are easier to handle and yield higher amounts of oxidation products.     

Biocatalytic preparation of (S)-phenyl glycidyl ether using newly isolated Bacillus megaterium ECU1001

A bacterial strain (ECU1001) capable of utilizing phenyl glycidyl ether as sole carbon source and energy source was isolated from soil samples through two steps of screening and was identified as a Bacillus megaterium. The epoxide hydrolase from Bacillus megaterium ECU1001 was biosynthesized in parallel with cell growth and a maximum activity of 31.0 U/l was reached after 30 h of culture when the biomass (DCW) was 9.1 g/l. A temperature of 35°C and pH 8.0 were optimal for the bioconversion. The lyophilized whole cells of Bacillus megaterium ECU1001 could preferentially hydrolyze the (R)-enantiomer of phenyl glycidyl ether, yeilding (S)-epoxide and (R)-diol with high enantioselectivity (E=47.8). The (S)-enantiomer of the epoxide remained in the reaction mixture with >99.5% ee (enantiomeric excess) at a conversion of 55.9%. The substrate concentration could be increased up to 60 mM without affecting the ee and (S)-phenyl glycidyl ether could be obtained with an optical purity of 100% ee and 25.6% yield. Therefore, the method is potentially useful for the preparative resolution of epoxides.     

Nonionic detergent-induced activation of an esterase from Bacillus megaterium 20-1

An esterase-producing Bacillus megaterium strain (20-1) was isolated from a soil sample collected in South Korea. The cloned gene showed that the esterase 20-1 composed of 310 amino acids corresponding to a molecular mass (M_r) of 34,638. Based on the M_r and the protein sequence, the esterase 20-1 belonged to the H lipase/esterase group. The optimum temperature and pH of the purified His-tagged enzyme were 20–35 °C and 8.0, respectively. The esterase 20-1 showed a ‘nonionic detergent-induced activation’ phenomenon, which was a detergent type- and concentration-dependent process. In comparison with the native enzyme, the Tween 80-treated enzyme had relatively a similar k_cat value of 274 s⁻¹ but a very low K_m value of 0.037 mM for PNPC (C₆), therefore, it showed a 14-fold increase in k_cat/K_m value.     

Modification of the fatty acid specificity of cytochrome P450 BM-3 from Bacillus megaterium by directed evolution: a validated assay

Cytochrome P450 BM-3 (CYP102) catalyzes the subterminal hydroxylation of fatty acids with a chain length of 12–22 carbons. The paper focuses on the regioselectivity and substrate specificity of the purified wild-type enzyme and five mutated variants towards caprylic, capric, and lauric acid. The enzymes were obtained by random mutagenic fine-tuning of the mutant F87A(LARV). F87A(LARV) was selected as the best enzyme variant in a previous study in which the single mutant F87A was subjected to rational evolution to achieve hydroxylation activity for short chain length substrates using a p-nitrophenolate-based spectrophotometric assay.

The best mutants, F87V(LAR) and F87V(LARV), show a higher catalytic activity towards ω-(p-nitrophenoxy)decanoic acid (10-p-NCA) than F87A(LARV). In addition, they proved capable of hydroxylating ω-(p-nitrophenoxy)octanoic acid (8-p-NCA) which the wild-type enzyme is unable to do. Both variants catalyzed hydroxylation of capric acid, which is not a substrate for the wild-type, with a conversion rate of up to 57%. The chain length specificity of the mutants in fatty acid hydroxylation processes shows a good correlation with their activity towards p-NCA pseudosubstrates. The p-NCA assay therefore, allows high-throughput screening of large mutant libraries for the identification of enzyme variants with the desired catalytic activity towards fatty acids as the natural substrates.     

A T7 RNA polymerase-dependent gene expression system for Bacillus megaterium

Gene expression systems based on the RNA polymerase of the bacteriophage T7 are often the ultimate choice for the high level production of recombinant proteins. During the last decade, the Gram-positive bacterium Bacillus megaterium was established as a useful host for the intra- and extracellular production of heterologous proteins. In this paper, we report on the development of a T7 RNA polymerase-dependent expression system for B. megaterium. The system was evaluated for cytosolic and secretory protein production with green fluorescent protein (GFP) from Aequoria victoria as intracellular and Lactobacillus reuteri levansucrase as extracellular model protein. GFP accumulated rapidly at high levels up to 50 mg/l shake flask culture intracellularly after induction of T7 RNA polymerase gene expression. The addition of rifampicin for the inhibition of B. megaterium RNA polymerase led to an increased stability of GFP. L. reuteri levansucrase was also successfully produced and secreted (up to 20 U/l) into the culture supernatant. However, parallel intracellular accumulation of the protein indicated limitations affiliated with the Sec-dependent protein translocation process.     

Purification and characterization of carboxymethylcellulase isolated from a marine bacterium, Bacillus subtilis subsp. subtilis A-53

The microorganism hydrolyzing carboxymethylcellulose (CMC) was isolated from seawater, identified as Bacillus subtilis subsp. subtilis by analyses of 16S rDNA and partial sequences of the gyrA gene, and named as B. subtilis subsp. subtilis A-53. The molecular weight of the purified carboxymethylcellulase (CMCase) was estimated to be about 56 kDa with the analysis of SDS-PAGE. The purified CMCase hydrolyzed carboxymethylcellulose (CMC), cellobiose, filter paper, and xylan, but not avicel, cellulose, and p-nitrophenyl-β-d-glucospyranoside (PNPG). Optimal temperature and pH for the CMCase activity were determined to be 50 °C and 6.5, respectively. More than 70% of original CMCase activity was maintained at relative low temperatures ranging from 20 to 40 °C after 24 h incubation at 50 °C. The CMCase activity was enhanced by EDTA and some metal ions in order of EDTA, K⁺, Ni²⁺, Sr²⁺, Pb²⁺, and Mn²⁺, but inhibited by Co²⁺ and Hg²⁺.     

H NMR study of the interaction of N,N′,N″-triacetyl chitotriose with Ac-AMP2, a sugar binding antimicrobial protein isolated from Amaranthus caudatus

The interaction between Ac-AMP2, a lectin-like small protein with antimicrobial and antifungal activity isolated from Amaranthus caudatus, and N,N′,N″-triacetyl chitotriose was studied using ¹H NMR spectroscopy. Changes in chemical shift and line width upon increasing concentration of N,N′,N″-triacetyl chitotriose to Ac-AMP2 solutions at pH 6.9 and 2.4 were used to determine the interaction site and the association constant K_a. The most pronounced shifts occur mainly in the C-terminal half of the sequence. They involve the aromatic residues Phe¹⁸, Tyr²⁰ and Tyr²⁷ together with their surrounding residues, as well as the N-terminal Val-Gly-Glu segment. Several NOEs between Ac-AMP2 and the N,N′,N″-triacetyl chitotriose resonances are reported.     

Lysis of Aphanizomenon flos-aquae (Cyanobacterium) by a bacterium Bacillus cereus

A phytoplankton-lytic (PL) bacterium, Bacillus cereus, capable of lysing the bloom-forming cyanobacterium Aphanizomenon flos-aquae was isolated from Lake Dianchi of Yunnan province, China. This bacterium showed lytic activities against a wide range of cyanobacteria/algae, including A. flos-aquae, Microcystis viridis, Microcystis wesenbergi, Microcystis aeruginosa, Chlorella ellipsoidea, Oscillatoria tenuis, Nostoc punctiforme, Anabaena flos-aquae, Spirulina maxima, and Selenastrum capricornutum. Chlorophyll a contents, phycocyanin contents, and photosynthetic activities of the A. flos-aquae decreased evidently in an infected culture for a period. Bacterium B. cereus attacked rapidly A. flos-aquae cells by cell-to-cell contact mechanism. It was shown that the lysis of A. flos-aquae began with the breach of the cyanobacterial cell wall, and the cyanobacterial cell appeared abnormal in the presence of the PL bacterium. Moreover, transmission electron microscope examinations revealed that a close contact between the bacterium and the cyanobacterium was necessary for lysis. Some slime extrusions produced from B. cereus assisted the bacterial cells to be in close association with and lyse the cyanobacterial cells. These findings suggested that this bacterium could play an important role in controlling the Aphanizomenon blooms in freshwaters.     

Succinoylation of sago starch in the N,N-dimethylacetamide/lithium chloride system

The modification reaction of sago starch with succinic anhydride (SA) using pyridine (PY) and/or 4-dimethyaminopyridine (DMAP) as catalyst and N,N-dimethylacetamide (DMA)/lithium chloride (LiCl) system as solvent was studied. A series of succinylated starch derivatives were prepared with a degree of substitution (DS) ranging from 0.14 to 1.54. The structure of the resulting polymers determined by means of ¹³C NMR spectroscopy indicated that substitution preferably occurs at the C₂ and C₆ hydroxyl groups. The thermal stability of the material was decreased by chemical modification. Effects of reactant molar ratio, reaction time, and the concentrations of DMAP and LiCl on the reaction efficiency are discussed.     

Production of extracellular protease from halotolerant bacterium, Bacillus aquimaris strain VITP4 isolated from Kumta coast

A newly isolated halotolerant Bacillus sp. VITP4 was investigated for the production of extracellular protease. 16S rRNA gene analysis identified it as Bacillus aquimaris. Enzyme secretion corresponded with growth (G_t, 38 min) in the basal Zobell medium, reaching a maximum during stationary phase (630 U/ml, 48 h). Protease production was investigated in different salt concentrations (0–4 M). While growth was optimum in the basal medium, higher levels of protease activity were observed in 0.5 M salt medium (728 U/ml, 48 h) and 1 M salt medium (796 U/ml, 78 h) with 21% and 32% increase in production, respectively. Salt concentrations above 2.5 M did not support bacterial growth. The optimum pH and temperature for production were pH 7.5 and 37 °C, respectively. A combination of peptone and yeast extract yielded optimum protease secretion. Inorganic nitrogen sources proved to be less favourable. Production was reduced in the presence of readily available carbon sources owing to catabolic repression. Effect of various salts (1–6%) indicated favourable bacterial growth in these conditions for producing proteolytic molecules with increased activity. The study assumes significance in the ability of the halotolerant bacterium to survive in a wide range of salinity and yield optimum levels of extracellular protease.     

Microbial transformation of spirolaxine, a bioactive undecaketide fungal metabolite from the basidiomycete Sporotrichum laxum

Incubation of (+)-spirolaxine (= (3R)-5-hydroxy-7-methoxy-3-{5-[(2R,5R,7R)-2-methyl-1,6-dioxaspiro[4.5]dec-7-yl]pentyl}-2-benzofuran-1(3H)-one; 1a) with Bacillus megaterium afforded two new mono- and one new dihydroxylated metabolite(s), all OH groups being introduced on the non-activated six-membered ring. In contrast, exposure of 1a to Cunninghamella echinulata gave rise to hydroxylation on the five-membered ring of the parent structure. The structures and absolute configurations of the new products 1b-e were deduced on the basis of MS and NMR data. The metabolite 1b was investigated, in comparison to 1a, for its cytotoxicity (sulforhodamin-B test) and for its antiproliferative activity towards bovine microvascular endothelial cells (BMEC).     

流式细胞术揭示出枯草芽孢杆菌多态异质性

新近的研究发现,微生物群体异质性现象普遍存在,与微生物群体许多关键功能密切相关.微生物群体中的多种异质性状态需要单细胞水平的分析技术才能被揭示,流式细胞术是获取异质性状态精确分布的重要工具.但微生物细胞尺寸微小、生物分子含量少、常常缺乏特异性试剂等都限制着传统流式细胞技术在微生物研究领域的应用.本论文采用新型的低背景、高灵敏度和高分辨率流式细胞仪,以增强的前向散射光、侧向散射光以及紫外光激发的细菌自发荧光水平这三个无需任何荧光标记就可以检测的信号为参数,首次揭示出不同生长状态的枯草芽孢杆菌具有复杂、动态的异质性状态分布.这一方法鉴定出的枯草芽孢杆菌多种状态及其与生理功能相关的、高度关联的变化,可能对该菌的生理变化规律及其分子机理的认识提供新的机遇.本论文也讨论了这一采用新型高灵敏度、高分辨率流式细胞仪测量非标记细胞参数的方法对于广泛开展各种微生物多态性研究具有巨大潜力.     

枯草芽孢杆菌中高效响应N-乙酰神经氨酸生物传感器的构建

枯草芽孢杆菌(Bacillus subtilis)是公认的食品安全菌株,目前已被用于多种高附加值产品的生物合成,包括被广泛用作营养化学品和药物中间体的N-乙酰神经氨酸(N-acetylneuraminic acid, NeuAc)。响应目标产物的生物传感器被广泛用于代谢工程中的动态调控和高通量筛选等方面,以提高生物合成效率。但是,枯草芽孢杆菌中缺乏可高效响应NeuAc的生物传感器。因此,本文首先测试和优化了能将胞外NeuAc转运进胞内的转运蛋白,获得了一系列具有不同转运能力的菌株,以用于后续响应NeuAc的生物传感器的验证;随后将响应NeuAc的转录因子Bbr_NanR的结合位点插入枯草芽孢杆菌组成型启动子的不同位置,筛选具有活性的杂合启动子;接下来,通过在具有NeuAc转运能力的枯草芽孢杆菌中表达Bbr_NanR,选择能响应NeuAc的杂合启动子,并进一步通过优化Bbr_NanR表达量获得了一系列动态范围广、激活倍数高的生物传感器,其中生物传感器P535-N2能灵敏地响应胞内NeuAc浓度的变化,具有最大的动态范围,为(180–20 245) AU/OD;P566-N2则具有最高的激活倍数,为122倍,是已报道的枯草芽孢杆菌中响应N-乙酰神经氨酸的生物传感器的2倍。本文构建的响应NeuAc的生物传感器可用于高产NeuAc的酶突变体和枯草芽孢杆菌菌株的筛选,为枯草芽孢杆菌生物合成NeuAc提供了高效、灵敏的分析和调控工具。     

Production of PHB by a Bacillus megaterium strain using sugarcane molasses and corn steep liquor as sole carbon and nitrogen sources

Poly(hydroxybutyric acid) (PHB) and other biodegradable polyesters are promising candidates for the development of environment-friendly, totally biodegradable plastics. The use of cane molasses and corn steep liquor, two of the cheapest substrates available in Egypt, may help to reduce the cost of producing such biopolyesters. In this work, the effect of different carbon sources was studied. Maximum production of PHB was obtained with cane molasses and glucose as sole carbon sources (40.8, 39.9 per mg cell dry matter, respectively). The best growth was obtained with 3% molasses, while maximum yield of PHB (46.2% per mg cell dry matter) was obtained with 2% molasses. Corn steep liquor was the best nitrogen source for PHB synthesis (32.7 mg per cell dry matter), on the other hand, best growth was observed when ammonium chloride, ammonium sulphate, ammonium oxalate or ammonium phosphate were used as nitrogen sources.     

酶法拆分制备(R)-苯基缩水甘油醚及缓冲体系对产物光学纯度的影响

新筛选出一株能选择性水解外消旋苯基缩水甘油醚(GPE)的菌株Bacillus megateriumZJUZQ-001,研究了其动力学拆分苯基缩水甘油醚条件,包括时间、温度、缓冲液类型和离子强度的影响。相比其他体系,硼酸缓冲液(100 mmol/L,pH 8.2)e.e._s值可以从91.2%提高到99.5%,E值从25.0提高到46.8,底物浓度从60 mmol/L增加到90 mmol/L。     

Cloning and expression of the gene for neutral protease of Bacillus amyloliquefaciens in Bacillus subtilis

A Bacillus amyloliquefaciens neutral protease gene was cloned and expressed in Bacillus subtilis.The chromosomal DNA of B. amyloliquefaciens strain F was partially digested with restriction endonuclease Sau3AI, and 2 to 9 kb fragments isolated were ligated into the BamHI site of plasmid pUB110. Then, B. subtilis strain 1A289 was transformed with the hybrid plasmids by the method of protoplast transformation and kanamycin-resistant transformants were screened for the formation of large halo on a casein plate. A transformant that produced a large amount of an extracellular neutral protease harbored a plasmid, designated as pNP150, which contained a 1.7 kb insert.The secreted neutral protease of the transformant was found to be indistinguishable from that of DNA donor strain B. amyloliquefaciens by double immunodiffusion test and SDS-polyacrylamide gel electrophoresis.The amount of the neutral protease activity excreted into culture medium by the B. subtilis transformed with pNP150 was about 50-fold higher than that secreted by B. amyloliquefaciens. The production of the neutral protease in the transformant was partially repressed by addition of glucose to the medium.     

一株聚酯型聚氨酯降解菌高地芽孢杆菌YX8-1的分离及鉴定

聚氨酯(polyurethane,PUR)塑料在日常生活中发挥着重要作用,但同时PUR废弃物也带来严重的环境污染问题。生物(酶)降解是一种环境友好、成本低廉的PUR废弃物回收方法,其关键在于获得高效的降解菌株或酶。本研究从垃圾填埋场的聚氨酯废弃物表面分离出了一株聚酯型PUR降解菌株YX8-1。基于菌落和显微形态观察、16S rDNA和DNA旋转酶(DNA gyrase)基因gyrA系统发育分析及基因组序列比对,将该菌鉴定为高地芽孢杆菌(Bacillus altitudinis)。高效液相色谱(high performance liquid chromatography,HPLC)及液相色谱-质谱联用(liquid chromatography-tandem mass spectrometry,LC-MS/MS)结果显示菌株YX8-1能降解自行合成的聚酯型PUR寡聚物(PBA-PU),并产生单体化合物4,4′-亚甲基二苯胺。此外,菌株YX8-1能在30 d内使商品化的聚酯型PUR海绵失重32%。本研究为PUR废弃物的生物降解提供了菌株资源,也为挖掘相关降解酶打下了基础。     

Industrial scale of optimization for the production of carboxymethylcellulase from rice bran by a marine bacterium, Bacillus subtilis subsp. subtilis A-53

Rice bran and yeast extract were found to be the best combination of carbon and nitrogen sources for the production of carboxymethycellulase (CMCase) by Bacillus subtilis subsp. subtlis A-53. Optimal concentrations of rice bran and yeast extract for the production of CMCase were 5.0% (w/v) and 0.10% (w/v), respectively. Optimal temperature and initial pH of medium for cell growth of B. subtilus subsp. subtilis A-53 were 35 °C and 7.3, whereas those for the production of CMCase by B. subtilus subsp. subtilis A-53 were 30 °C and 6.8. Optimal agitation speed and aeration rate in a 7 L bioreactor were 300 rpm and 1.0 vvm, respectively. The optimal agitation speed and aeration rate for the production of CMCase by B. subtilus subsp. subtilis A-53 were lower than those for cell growth. The highest productions of CMCase by B. subtilus subsp. subtilis A-53 in 7 and 100 L bioreactors were 150.3 and 196.8 U mL⁻¹, respectively.     

Evidence for the production of chemical compounds analogous to nod factor by the silicate bacterium Bacillus circulans GY92

Silicate bacteria are generally placed in the species Bacillus circulans and are widely used in biological fertilisers and biological leaching. The bacteria can form conspicuous amounts of extracellular polysaccharides in nitrogen-free media or in the presence of substrates with large C/N ratios. Using high performance liquid chromatography, we have shown that B. circulans produced a new peak/compound when induced with the plant-to-bacteria signal molecule genistein. This material co-eluted with the lipo-chitooligosaccharide (Nod Bj-V (C18:1, MeFuc)) of Bradyrhizobium japonicum. This compound exhibited root hair deformation activity on soybean, which is characteristic of lipo-chitooligosaccharides (LCOs). We propose that this might be an LCO or closely related compound with similar biological activity.