Genetic analysis of the DnaA-dependent priming in the initiation of lagging strand DNA synthesis of plasmid pUB110 in Bacillus subtilis

Abstract Derivatives of Bacillus subtilis plasmid pUB110 lacking the major lagging strand replication origin ( sso U⁻) accumulate intracellular single-strand circular (SS(c)) DNA intermediates and are unable to propagate in dna B and dna D hosts. DnaA-dependent priming requires a DnaA box in a stable hairpin form; a higher copy number of a DnaA box is not sufficient as a signal for the conversion of the SS(c) into its dsDNA form. The introduction into the plasmid of a hairpin structure, whose stem carries a DnaA box, mediates conversion of SS(c) into dsDNA and makes plasmid replication independent of the B. subtilis dna B function. This conversion signal has been termed sso A.     

Plasmid maintenance in Bacillus subtilis recombination-deficient mutants

Summary An isogenic set of 11 recombination-deficient mutant strains of Bacillus subtilis has been constructed. Whereas plasmid pUB110 is stably maintained in such Rec^- cells, the high copy number plasmid pC194 is unstable. Instability in Rec^- strains could be mostly attributed to the deleterious effect of the presence of the plasmid on the Rec^- cells' growth capability. In part, instability of pC194 derivatives could also be correlated with the presence of an unusually high amount of multimeric DNA molecules.     

枯草芽胞杆菌微生态制剂的研制

采用液体发酵工艺,确定枯草芽胞杆菌的最适发酵条件为:发酵温度30℃,初始pH值7.2,并以1%海藻酸钠和3%明胶组成的混合胶体溶液为囊壁材料,以4%氯化钙作固化剂将枯草芽胞杆菌制成微胶囊剂,稳定性试验结果显示经微胶囊包埋的枯草芽胞杆菌制剂,室温下保存1个月,活菌存活率为98.8%,保存3个月,活菌存活率为50.6%,保存6个月,活菌存活率为15.7%,均高于未经微胶囊化的样品;在4℃冷藏下保存3个月,未经微胶囊化的样品活菌存活率仅为经微胶囊包埋制剂的66.2%。该微胶囊制剂提高了活菌存活率,延长了活菌常温保存期。     

Cloning in Bacillus subtilis of temperature-dependent promoter fragments from Bacillus stearothermophilus and Bacillus subtilis

Abstract Using promoter-probe plasmids, more than 200 promoter-containing fragments from Bacillus stearothermophilus and Bacillus subtilis were cloned in B. subtilis . Among these, 15 promoter fragments were highly temperature-dependent in activity compared to the promoter sequence (TTGAAA for the −35 region, TATAAT for the −10 region) of the amylase gene, amyT , from B. stearothermophilus . Some fragments exhibited higher promoter activities at elevated temperature (48°C), others showed higher activities at lower temperature (30°C). Active promoter fragments at higher and lower temperatures were obtained mainly from the thermophile ( B. stearothermophilus ) and the mesophile ( B. subtilis ), respectively. A promoter fragment active at high temperature was sequenced, and the feature of the putative promoter region was discussed.     

Time-course determination of plasmid content in eukaryotic and prokaryotic cells using Real-Time PCR

A Real-Time PCR method was developed to monitor the plasmid copy number (PCN) in Escherichia coli and Chinese hamster ovary (CHO) cells. E. coli was transformed with plasmids containing a ColE1 or p15A origin of replication and CHO cells were transfected with a ColE1 derived plasmid used in DNA vaccination and carrying the green fluorescent protein (GFP) reporter gene. The procedure requires neither specific cell lysis nor DNA purification and can be performed in <30 min with dynamic ranges covering 0.9 pg–55 ng, and 5.0 pg–2.5 ng of plasmid DNA (pDNA) for E. coli and CHO cells, respectively. Analysis of PCN in E. coli batch cultures revealed that the maximum copy number per cell is attained in mid-exponential phase and that this number decreases on average 80% towards the end of cultivation for both types of plasmids. The plasmid content of CHO cells determined 24 h post-transfection was around 3 × 10⁴ copies per cell although only 37% of the cells expressed GFP one day after transfection. The half-life of pDNA was 20 h and around 100 copies/cell were still detected 6 days after transfection.     

A Simple and Rapid Extraction of High Molecular Weight Chromosomal DNA from Bacillus subtilis Protoplasts for Cosmid Cloning and Interspecific Transformation

After conversion of Bacillus subtilis vegetative cells to protoplasts, a simple and rapid method for extracting high-molecular-weight chromosomal DNA was devised with the inclusion of bovine serum albumin and phenol-chloroform treatments. The DNA sample thus prepared was the size of 100-450 kb and could be used for cosmid cloning and interspecific transformation.     

Characterization of chromosome and plasmid transformation in Bacillus subtilis using gently lysed protoplasts

Competent cells of Bacillus subtilis were transformed with DNA from gently lysed protoplasts. Significant linkages among markers separated by distances of approximately 2.3% of the total chromosome were found, which have not been detected for conventional transformation. In comparison to previous reports, enhanced plasmid transformation was observed [4.0×10⁷ transformants per g DNA (one transformant per 5×10⁴ molecules added)], when competent cells were transformed with DNA from lysed protoplasts harboring pUB110.     

枯草杆菌基因组中的回文结构

统计了枯草杆菌全序列中中间间隔S从0到29、侧翼序列长度L从4开始的所有回文结构,以及这些回文结构在编码区和非编码区的分布。通过分析不同S、L的回文结构的频数以及AT含量,发现枯草杆菌基因组中长的回文结构是过表达的、AT含量高并且对非编码区有偏好。     

Heterologous Expression of the Oceanobacillus iheyensis SigW and Its Anti-Protein RsiW in Bacillus subtilis

Pairs of the ECF sigma factor and its anti-sigma factor, SigW and RsiW, of Bacillus-related species that inhabit extreme environments were heterologously expressed in B. subtilis. All the RsiWs, membrane proteins, failed to fill their function of repressing cognate SigW activity, despite their close structural similarities. Particularly, uncontrolled expression of Oceanobacillus iheyensis OISigW due to abortive OIRsiW was harmful to B. subtilis. Analysis of revertants of this growth defect and site-directed mutagenesis indicated that the insertion of six and a minimum of three hydrophobic amino acid residues occurring in the transmembrane region allowed OIRsiW to function as anti-OISigW. Subcellular localization of OIRsiW was detected by immunoblot analysis, suggesting that both the wild-type and the mutant form of OIRsiW were localized to the membrane. An appropriate length of a transmembrane region required for proper integration into the membrane after translocation might vary among these Bacillus-related species.     

Production and secretion of pertussis toxin subunits in Bacillus subtilis

Pertussis toxin (PT) is a major component of today's acellular whooping cough vaccines. The use of acellular vaccines is predicted to increase sharply in the near future. There is therefore a need to produce PT in a way that makes its purification as easy as possible. Our approach was to express all five PT subunits individually in Bacillus subtilis. We have used vectors containing the promoter and signal sequences of the alpha-amylase gene of Bacillus amyloliquefaciens followed by an insert encoding the appropriate PT-subunit. All PT-subunits were secreted and found in the culture supernatant. The level of expression varied considerably: S1 and S5 were produced in large quantities whereas much smaller amounts of S2, S3 and S4 were found. The subunits were also present in the membrane fraction of the respective strains.     

Stability of single-stranded DNA plasmids during continuous culture of Bacillus subtilis, and the effects of host chemostat-experience

Abstract The stability of a selection of single-stranded DNA plasmids was compared in continuous culture of Bacillus subtilis 168-CU267. Plasmid pUB110 and its derivatives were found to be 100% stable in long-term cultures with carbon, nitrogen, potassium, sulfur or magnesium as limiting nutrients. In phosphate-limited culture, pUB110 showed only slight instability, but its derivatives pPL603, pPL608 and pSM112 were rapidly lost from the cultures after a lag of variable length during which no plasmid-free bacteria were detected. The proportion of plasmid-bearing bacteria in the culture sometimes showed temporary recovery prior to ultimate loss. Plasmids pHV33 and pC194 were lost rapidly without a preceding lag phase. Chemostat experience (800 generations in phosphate-limited continuous culture) of the host bacterium greatly enhanced the retention of pC194-carrying bacteria in phosphate-limited cultures, but effects on retention of the other plasmids were not significant.     

Co-expression of a prophage system and a plasmid system in Bacillus subtilis

A dual expression system for overexpressing two proteins by a single cell strain has been developed in Bacillus subtilis. This dual expression system combines the phi105MU331 prophage system and a plasmid system within a single cell. Protein expression by the prophage system is heat inducible, while that of the plasmid system is constitutive. Three candidate genes, BPN, BT, and amyE, all of Bacillus origin, were used as test models. Seven strains (BPN, BT, AMY, BS168K, MU331K, BPNK, and BTK) were constructed to investigate the influences of the prophage system and the plasmid system on each other, and to compare the efficiency of the individual expression systems with that of the dual expression system. Individually, the yield of the plasmid system is higher than that of the prophage system, which could be attributed to the constitutive nature of the expression of the plasmid system. Nonetheless, for the dual expression strains, the expression of two enzymes in a single fermentation run can reduce costs in facilities, manpower, and utilities. Fed-batch fermentation of BPNK strains confirmed the feasibility of applying this dual expression system in industrial-scale production.     

Oscillations in the activities of respiratory enzymes in synchronized Bacillus subtilis

Abstract The activities of NADH, succinate and lactate dehydrogenases have been measured during the cell cycle of Bacillus subtilis . All three enzymes showed an oscillatory pattern of activity expressed as two maxima and two minima per division cycle. For both succinate and lactate dehydrogenases the maxima occurred at approximately 0.2 and 0.6 of a cycle. The maxima of NADH dehydrogenase activity were out of phase at 0.4 and 0.9 of a cycle and occurred at the same time as the rises in respiratory activity previously reported for this bacterium.     

Plasmid transformation of Bacillus cereus on cellophane membranes

A simple approach to test the ability of bacteria to undergo natural genetic transformation is suggested. The basic feature of the approach is the cultivation of bacterial cells in the presence of exogenous (plasmid) DNA on cellophane membranes placed successively on nutrient and selective agar. Using this approach the ability of Bacillus cereus for "natural" genetic transformation was detected. Transformation frequencies varied from 10(-8) to 10(-6).