海绵共生萎缩芽孢杆菌C89 PPTase bap基因的异源表达

【背景】磷酸泛酰巯基乙胺基转移酶(PPTase)催化非核糖体肽合成酶(NRPS)中肽酰载体蛋白(PCP)从无活性的脱辅基形态转化为有活性的全辅基形态,从而启动非核糖体肽类化合物的生物合成。【目的】鉴定贪婪倔海绵共生萎缩芽孢杆菌C89中Sfp型PPTase Bap,验证Bap激活NRPS中PCP的能力。【方法】通过BLAST和氨基酸多序列比对鉴定萎缩芽孢杆菌C89中Sfp型PPTase Bap。将bap基因在sfp基因突变株枯草芽孢杆菌168中异源表达,通过重组菌枯草芽孢杆菌168-bap的代谢物检测非核糖体肽类化合物Surfactin。【结果】Bap为Sfp型PPTase,检测到重组菌枯草芽孢杆菌168-bap中Surfactin的产生。【结论】本研究为海洋萎缩芽孢杆菌中NRPS基因簇的异源表达奠定了基础。     

一种快速分离检测产脂肽类生物表面活性剂枯草芽孢杆菌的方法

脂肽(Lipopeptide)是由枯草芽孢杆菌(Bacillus subtilis)等微生物产生的一类具有较强表面活性的生物表面活性剂.枯革杆菌磷酸泛酰巯基转移酶基因(afp)是枯草芽孢杆菌中参与脂肽代谢的功能性基因.采用sfp基因PCR对从环境中得到的一组产生表面活性剂的微生物进行筛选,结合Tricine-SDS-PAGE电泳对PCR结果呈阳性的菌蛛的代谢粗初提物进行检测,初步鉴定得到两株枯草芽孢杆菌.进一步利用16S rDNA序列的系统发育学分析确定这两种菌株为枯草芽孢杆菌,并利用TLC、HPLC鉴定其产物为脂肽类表面活性剂,从而建立了一套快速分离检测产生脂肽类生物表面活性剂的枯草芽孢杆菌方法.     

Production of a lipopeptide antibiotic, surfactin, by recombinant Bacillus subtilis in solid state fermentation

Production of a lipopeptide antibiotic, surfactin, in solid state fermentation (SSF) on soybean curd residue, Okara, as a solid substrate was carried out using Bacillus subtilis MI113 with a recombinant plasmid pC112, which contains lpa-14, a gene related to surfactin production cloned at our laboratory from a wild-type surfactin producer, B. subtilis RB14. The optimal moisture content and temperature for the production of surfactin were 82% and 37 degrees C, respectively. The amount of surfactin produced by MI113 (pC112) was as high as 2.0 g/kg wet weight, which was eight times as high as that of the original B. subtilis RB14 at the optimal temperature for surfactin production, 30 degrees C. Although the stability of the plasmid showed a similar pattern in both SSF and submerged fermentation (SMF), production of surfactin in SSF was 4-5 times more efficient than in SMF. (c) 1995 John Wiley & Sons, Inc.     

Isolation and characterization of a halotolerant <Emphasis Type="Italic">Bacillus</Emphasis><Emphasis Type="Italic">subtilis</Emphasis> BBK-1 which produces three kinds of lipopeptides: bacillomycin L,plipastatin, and surfactin

Twenty-three halotolerant and biosurfactant producing strains were collected from salty conditions in central Thailand. One of the strains designated BBK-1 produced the biosurfactants with the highest activity. BBK-1 was isolated from fermented foods and was identified as B. subtilis based on its physiological characteristics and 16S rRNA gene sequence. We show that the strain grows in media containing NaCl up to 16% (w/v) and produces biosurfactants in NaCl up to 8%. We found that B. subtilis BBK-1 produces three kinds of surface-active lipopeptides simultaneously. By their respective molecular weights and amino acid compositions, it is indicated that these lipopeptides are bacillomycin L, plipastatin, and surfactin. In order to analyze the production mechanism of lipopeptides further in the strain, a generally important biosynthetic gene encoding 4'-phosphopantetheinyl transferase was cloned and sequenced. The gene existed in a single copy in the genome and the deduced amino acid sequence was almost identical to that of Lpa-14 from B. subtilis strain RB14, which co-produces iturin A and surfactin.     

Genes governing swarming in Bacillus subtilis and evidence for a phase variation mechanism controlling surface motility

Undomesticated strains of Bacillus subtilis, but not laboratory strains, exhibit robust swarming motility on solid surfaces. The failure of laboratory strains to swarm is caused by a mutation in a gene (sfp) needed for surfactin synthesis and a mutation(s) in an additional unknown gene(s). Insertional mutagenesis of the undomesticated 3610 strain with the transposon mini-Tn10 was carried out to discover genes needed for swarming but not swimming motility. Four such newly identified swarming genes are reported, three of which (swrA, swrB, and efp) had not been previously characterized and one of which (swrC) was known to play a role in resistance to the antibacterial effect of surfactin. Laboratory strains were found to harbour a frameshift mutation in the swrA gene. When corrected for the swrA mutation, as well as the mutation in sfp, laboratory strains regained the capacity to swarm and did so as robustly as the wild strain. The swrA mutation was an insertion of an A:T base pair in a homopolymeric stretch of eight A:T base pairs, and readily reverted to the wild type. These findings suggest that the swrA insertion and its reversion take place by slipped-strand mispairing during DNA replication and that swarming motility is subject to phase variation.     

Expression of sfp gene and hydrocarbon degradation by Bacillus subtilis

Bacillus subtilis C9 produces a lipopeptide-type biosurfactant, surfactin, and rapidly degrades alkanes up to a chain length of C₁₉. The nucleotide sequence of the sfp gene cloned from B. subtilis C9 was determined and its deduced amino acid sequence showed 100% homology with the sfp gene reported before [Nakano et al. (1992) Mol. Gen. Genet. 232: 313–321]. To transform a non-surfactin producer, B. subtilis 168, to a surfactin producer, the sfp gene cloned from B. subtilis C9 was expressed in B. subtilis 168. The transformed B. subtilis SB103 derivative of the strain 168 was shown to produce surfactin measured by its decrease in surface tension, emulsification activity, and TLC analysis of the surface active compound isolated from the culture broth. Like B. subtilis C9, B. subtilis SB103 containing sfp gene readily degraded aliphatic hydrocarbons (C_10–19), though its original strain did not. The addition of surfactin (0.5%, w/v) to the culture of B. subtilis 168 significantly stimulated the biodegradation of hydrocarbons of the chain lengths of 10–19; over 98% of the hydrocarbons tested were degraded within 24 h of incubation. These results indicate that the lipopeptide-type biosurfactant, surfactin produced from B. subtilis enhances the bioavailability of hydrophobic hydrocarbons.     

Comparative analysis of the development of swarming communities of Bacillus subtilis 168 and a natural wild type: critical effects of surfactin and the composition of the medium

The natural wild-type Bacillus subtilis strain 3610 swarms rapidly on the synthetic B medium in symmetrical concentric waves of branched dendritic patterns. In a comparison of the behavior of the laboratory strain 168 (trp) on different media with that of 3610, strain 168 (trp), which does not produce surfactin, displayed less swarming activity, both qualitatively (pattern formation) and in speed of colonization. On E and B media, 168 failed to swarm; however, with the latter, swarming was arrested at an early stage of development, with filamentous cells and rafts of cells (characteristic of dendrites of 3610) associated with bud-like structures surrounding the central inoculum. In contrast, strain 168 apparently swarmed efficiently on Luria-Bertani (LB) agar, colonizing the entire plate in 24 h. However, analysis of the intermediate stages of development of swarms on LB medium demonstrated that, in comparison with strain 3610, initiation of swarming of 168 (trp) was delayed and the greatly reduced rate of expansion of the swarm was uncoordinated, with some regions advancing faster than others. Moreover, while early stages of swarming in 3610 are accompanied by the formation of large numbers of dendrites whose rapid advance involves packs of cells at the tips, strain 168 advanced more slowly as a continuous front. When sfp+ was inserted into the chromosome of 168 (trp) to reestablish surfactin production, many features observed with 3610 on LB medium were now visible with 168. However, swarming of 168 (sfp+) still showed some reduced speed and a distinctive pattern compared to swarming of 3610. The results are discussed in terms of the possible role of surfactin in the swarming process and the different modes of swarming on LB medium.     

Cloning, sequencing, and characterization of the genetic region relevant to biosynthesis of the lipopeptides iturin A and surfactin in Bacillus subtilis

Bacillus subtilis B3 was found to produce lipopeptides iturins and fengycin that have activity against several plant pathogens such as Fusarium graminearum, Rhizoctonia solani, Rhizoctonia cerealis, and Pyricularia grisea. A 3642-bp genomic region of B. subtilis B3 comprising srfDB3, aspB3, lpaB3, and yczEB3 genes that resulted in biosynthesis of surfactin in B. subtilis 168 was cloned, sequenced, and characterized. Among them, the srfDB3 gene encodes thioesterase, which is required for biosynthesis of surfactin in B. subtilis; the aspB3 gene encodes a putative aspartate aminotransferase-like protein; the lpaB3 encodes phosphopantetheinyl transferase, which shows high identity to the product of lpa-14 gene regulating the biosynthesis of iturin A and surfactin in B. subtilis RB14; the yczEB3 encodes a YczE-like protein with significant similarities in signal peptide and part of the ABC transport system. The genetic regions between the srfD gene and lpa gene from B. subtilis B3 and B. subtilis A13, which produces iturin A, contain an approximate 1-kb nucleotide fragment encoding an aspartate aminotransferase-like protein; however, the relevant regions from B. subtilis 168 and B. subtilis ATCC21332 producing surfactin comprise an approximately 4-kb nucleotide fragment encoding four unknown proteins. There is 73% identity between the Lpa family and the Sfp family, although both are highly conserved.     

产表面活性素和伊枯草菌素A菌株的筛选及其脂肽类产物的特性

采用血琼脂平板法, 从菜园土壤中分离到8株代谢表面活性剂的菌株, 比较各菌株的排油性、抑菌性, 根据合成脂肽类物质表面活性素(Surfactin)和伊枯草菌素A (Iturin A)必需的sfp、ituD和lpa-14基因设计引物, 结合PCR的方法筛选到一株具广谱抗菌性且含有sfp、ituD和lpa-14 3个关键基因的细菌XZ-173。经过生理生化试验测定和16S rDNA序列系统发育学分析, 将其鉴定为解淀粉芽孢杆菌(Bacillus amyloliquefaciens)。通过红外光谱(FT-IR)分析该菌株代谢产物, 初步鉴定为脂肽类物质, 并对照高效液相色谱(HPLC)与标准品比对结果, 确定含有Surfactin和Iturin A组分。该菌株产生的脂肽粗品能使纯水的表面张力降低至26.6 mN/m, 临界胶束浓度(CMC)为500 mg/L, 具有很好的乳化性能, 对立枯丝核菌和青枯菌表现出很好的拮抗活性。因此, 产脂肽细菌XZ-173是一株应用前景广阔的功能菌。     

Biocontrol of Bacillus subtilis against infection of Arabidopsis roots by Pseudomonas syringae is facilitated by biofilm formation and surfactin production

Relatively little is known about the exact mechanisms used by Bacillus subtilis in its behavior as a biocontrol agent on plants. Here, we report the development of a sensitive plant infection model demonstrating that the bacterial pathogen Pseudomonas syringae pv tomato DC3000 is capable of infecting Arabidopsis roots both in vitro and in soil. Using this infection model, we demonstrated the biocontrol ability of a wild-type B. subtilis strain 6051 against P. syringae. Arabidopsis root surfaces treated with B. subtilis were analyzed with confocal scanning laser microscopy to reveal a three-dimensional B. subtilis biofilm. It is known that formation of biofilms by B. subtilis is a complex process that includes secretion of surfactin, a lipopeptide antimicrobial agent. To determine the role of surfactin in biocontrol by B. subtilis, we tested a mutant strain, M1, with a deletion in a surfactin synthase gene and, thus, deficient in surfactin production. B. subtilis M1 was ineffective as a biocontrol agent against P. syringae infectivity in Arabidopsis and also failed to form robust biofilms on either roots or inert surfaces. The antibacterial activity of surfactin against P. syringae was determined in both broth and agar cultures and also by live-dead staining methods. Although the minimum inhibitory concentrations determined were relatively high (25 microg mL(-1)), the levels of the lipopeptide in roots colonized by B. subtilis are likely to be sufficient to kill P. syringae. Our results collectively indicate that upon root colonization, B. subtilis 6051 forms a stable, extensive biofilm and secretes surfactin, which act together to protect plants against attack by pathogenic bacteria.     

Effects of lipidic carbon sources on the extracellular lipolytic activity of a newly isolated strain of Bacillus subtilis

An isolate exhibiting high extracellular lipolytic activity was identified as Bacillus subtilis by 16S rRNA gene sequence analysis. The enzyme activity of the isolate was improved by using different concentrations of lipidic carbon sources such as vegetable oils, fatty acids and triglycerides. Lipolytic activity was assayed spectrophotometrically using p-nitrophenyl palmitate. One percent (v/v) of sesame oil provided the highest activity with 80 and 98% enhancements with respect to 1% (v/v) concentrations of linoleic acid and triolein as the favored fatty acid and triglyceride, respectively. Glucose presented a repressive effect on lipase production. Lipase secreted by B. subtilis was partially purified by ultrafiltration and anion exchange chromatography; and the purified enzyme was tested for its residual activity in the presence of EDTA, SDS, Triton X-100, Tween 20, Tween 80 and protease. The present work reports, for the first time, that the lipolytic activity of a B. subtilis strain can be improved by using inexpensive vegetable oils; and also that B. subtilis lipase is suitable for use in detergents.     

Studies on Bacillus subtilis and Lactobacillus acidophilus, as potential probiotics, on the immune response and resistance of Tilapia nilotica (Oreochromis niloticus) to challenge infections

The probiotic activity of two bacteria (Bacillus subtilis and Lactobacillus acidophilus) was evaluated by its effect on the immune response of Nile tilapia (Oreochromis niloticus), beside its protective effect against challenge infections. Furthermore, their in-vitro inhibitory activity was evaluated. The in-vitro antimicrobial assay showed that Bacillus subtilis and Lactobacillus acidophilus inhibited the growth of A. hydrophila. The B. subtilis inhibited the development of P. fluorescens while L. acidophilus inhibited the growth of Strept. iniae. The B. subtilis and L. acidophilus proved harmless when injected in the O. niloticus. The feed, containing a mixture of B. subtilis and L. acidophilus or B. subtilis alone, showed significantly greater numbers of viable cells than feed containing L. acidophilus only after 1, 2, 3 and 4 weeks of storage at 4 degrees C and 25 degrees C. The survival rate and the body-weight gain were significantly increased in the fish given B. subtilis and L. acidophilus for one and two months after application. The hematocrit values showed a significant increase in the group that received the mixture of B. subtilis and L. acidophilus compared with the control group. The nitroblue tetrazolium (NBT) assay, neutrophil adherence and lysozyme activity, showed a significant increase in all the probiotic-treated groups after 1 and 2 months of feeding, when compared with the untreated control group. The serum bactericidal activity was high in the group that was given a mixture of the two bacteria. The relative level of protection (RLP) was significantly higher against A. hydrophila, in the bacterial mixture treated group and against P. fluorescens in the L. acidophilus treated group, after one month of the feeding trial. A significantly higher RLP, against A. hydrophila or P. fluorescens, was noticed after 2 months of the feeding trial in the group given a mixture of the two bacteria, and against Strept. iniae in the group fed a diet containing L. acidophilus.     

高产表面活性素的重组枯草芽孢杆菌构建及培养优化

表面活性素是一种新型生物表面活性剂,因其具有良好的表面活性、可生物降解及抗菌活性,在石油开采、医药、农业和食品化妆品等领域具有广阔的应用前景。高产表面活性素菌株的获得和发酵过程优化是其商业化生产的关键。文中考察了脂肪酸合成途径对表面活性素合成的影响,强化脂肪酸生物合成关键基因以及该途径全部基因分别构建了高产表面活性素枯草芽孢杆菌Bacillus subtilis THBS-2和THBS-8,并对发酵过程中氨基酸种类及添加量、诱导剂异丙基-β-D-硫代半乳糖苷 (IPTG) 添加时间和添加量等条件对产物合成的影响进行考察,获得优化的两阶段前体添加方案：发酵3 h,加入IPTG和L-亮氨酸,使其终浓度分别为1.25 mmol/L、5 g/L;发酵24 h,添加L-亮氨酸 (终浓度5 g/L) 和浓缩培养基5 mL。优化条件下,枯草芽孢杆菌THBS-2摇瓶发酵48 h,表面活性素产量高达24 g/L;30 L发酵罐中发酵68 h,产物产量最高达到34 g/L。研究结果为表面活性素的工业化生产及应用奠定基础。     

串联抗菌肽Cecropin B基因在莱茵衣藻中的表达及其抗菌活性分析

为了应对各种抗生素在水产养殖业所带来的副作用,我们在本文中尝试利用微藻对一种抗菌肽进行表达的可行性研究．根据莱茵衣藻核基因组偏爱密码子对抗菌肽Cecropin B基因进行改造,并将4个经改造的Cecropin B基因依次串联起来,中间加上莱茵衣藻的自剪切连接肽序列LWMRFA,人工合成总长度为522 bp的串联Cecropin B基因．将串联Cecropin B基因克隆到含hsp70-RBCS2启动子和RBCS2终止子的pH105载体上,再与携带ble筛选基因的表达框架连接,构建重组表达载体pCB124．采用玻璃珠转化法将载体pCB124导入莱茵衣藻cc-849中,筛选得到能表达抗菌肽Cecropin B的转基因衣藻．经过6个月的保持培养后,进一步对转基因藻细胞提取液进行抗菌活性分析,发现转基因藻具有明显的抑制革兰氏阴性菌(大肠杆菌)和革兰氏阳性菌(枯草芽孢杆菌和溶壁微球菌)生长的特征．这一结果为具有抗菌活性的饵料藻的生产和应用提供了新的途径．