Use of interplasmid recombination to generate stable selectable markers for yeast transformation: application to studies of actin gene control

A plasmid recombination system has been developed that relies upon interplasmid exchanges for yeast cell viability. Two types of plasmids, one carrying the LEU2 allele inserted within yeast actin gene sequences and the other carrying 2-microns plasmid DNA and an intact actin gene, were constructed. Neither plasmid alone yielded transformants in the haploid Leu- strain AH22, but when cotransformed, a number of colonies were obtained. Southern blot analysis revealed that transformants arose because of recombination events within the homologous actin sequences that transferred the LEU2 gene to the actin gene on the 2-microns plasmid. The recombinant plasmids could be recovered, and sequence analysis of one recombination site revealed that the exchange event was faithful at the nucleotide level. The resulting recombinant plasmids carried a defective actin gene and presumably arose because of a double-crossover event. Deletion mutations that prevented actin gene expression on one donor plasmid enabled the recovery at a high frequency of transformants resulting primarily from single-crossover events between the two plasmids. This was presumably because such events no longer generated an intact actin gene on a multicopy plasmid. Infrequently a transformant from a plasmid with an intact gene was recovered, but in these cases the plasmid was not present in multiple copies. These cells exhibited a slower growth rate, and Northern blot analysis revealed an elevated level of actin mRNA.     

Temperature-dependent plasmid integration into and excision from the chromosome of Bacillus stearothermophilus

A transformant of Bacillus stearothermophilus carrying a recombinant plasmid, pLP11 (9.5 MDa), on which the penicillinase gene (penP) and kanamycin resistance gene (kan) were located was subjected to mutagenesis, and a mutant plasmid (9.5 MDa; penP kan), designated pTRA117, was obtained. A transformant of B. stearothermophilus carrying pTRA117 could grow at 63 degrees C in medium containing kanamycin, whereas a transformant carrying pLP11 could not. Although pTRA117 was detected as covalently closed circular (ccc) DNA when it was extracted from transformants cultured at 48 degrees C, it was integrated into the host chromosome when the culture temperature was shifted up to 63 degrees C. If the culture temperature was lowered to 48 degrees C from 63 degrees C, a new plasmid (10.7 MDa; penP kan), designated pTRZ117, could be detected as ccc DNA; the size of this plasmid suggested that it was pTRA117 plus a 1.2 MDa DNA fragment of the host chromosome, and this was confirmed by Southern hybridization. pTRZ90 (7.9 MDa; kan) was constructed from pTRZ117 by the deletion of a 2.8 MDa DNA fragment that contained penP. Fresh transformants of B. stearothermophilus that carried either pTRZ117 or pTRZ90 could grow at 65 degrees C.     

异形胞分化蓝细菌dnaA温度敏感型突变体的构建

以能分化异形胞的蓝细菌(Anabaenasp.PCC7120)为材料,采用重组PCR在体外对控制DNA复制起始的dnaA基因进行定点突变后克隆到整合质粒中,再通过三亲本杂交将整合质粒转移到Anabaena PCC7120中,以分离和筛选温度敏感型突变体。结果成功获得Anabaena PCC 7120 dnaA高温敏感性突变体。研究表明,利用重组PCR技术可在体外实现对Anabaena PCC 7120的dnaA的定点突变,并可通过同源重组双交换成功实行整合质粒中突变基因对野生型基因的置换,使突变基因插入到细胞染色体中,进而成功构建温度敏感型突变菌株。     

Plasmid DNA purification

The demand for efficient production methods of plasmid DNA (pDNA) has increased vastly in response to rapid advances in the use of pDNA in gene therapy and in vaccines since the advantageous safety concerns associated with non-viral over viral vectors.A prerequisite for the success of plasmid-based therapies is the development of cost-effective and generic production processes of pDNA. However, to satisfy strict regulatory guidelines, the material must be available as highly purified, homogeneous preparations of supercoiled circular covalently closed (ccc) pDNA. Large-scale production of pDNA for therapeutic use is a relatively new field in bioprocessing. The shift from small-scale plasmid production for cell transfection to large-scale production sets new constraints on the bacterial fermentation, processing of bacterial lysate and final purification and formulation of the plasmid DNA. The choice of bacterial strain used for plasmid cultivation affects the plasmid yield, the proportion of different isoforms and the amount of endotoxins in the starting material. The choice of bacterial strain will be greatly influenced by the production and purification procedures of pDNA. Master and working cell banks need to be characterised and established. Alkaline lysis of the bacteria damages the pDNA, resulting in a reduced recovery of ccc pDNA and an increase in partially denaturated ccc pDNA and open circular (oc) forms. Shear stress in these processes needs to be tightly controlled, and buffer composition and pH need to be optimised. To obtain a homogeneous plasmid DNA preparation, different pDNA purification strategies aim at capturing ccc pDNA and eliminating the oc isoform. A highly purified final product corresponding to the stringent recommendations set forth by health and regulatory authorities can be achieved by (i). different chromatography techniques integrated with ultra/diafiltration to achieve optimal purification results; (ii). the formulation of the final pDNA product, that requires a detailed study of the plasmid structure; and (iii). the development of sensitive analytical methods to detect different impurities (proteins, RNA, chromosomal DNA, and endotoxins). We present here a revue of the whole process to obtain such a plasmid DNA, and report an example of RNAse-free purification of ccc pDNA that could be used for gene therapy.     

Delineation of the viral products of recombination in vaccinia virus-infected cells.

Plasmids containing the vaccinia virus thymidine kinase gene, its flanking DNA sequences, and the Escherichia coli beta-galactosidase gene were used in conjunction with a thymidine kinase-deficient virus to examine the viral products of recombination. Progeny derived from single-crossover events could be distinguished from those generated by gene conversion or double-crossover events when the beta-galactosidase gene was separated from the thymidine kinase gene by the flanking sequences. Using methotrexate to select for recombinant virus and a chromogenic indicator to detect beta-galactosidase, the generation of viral recombinants was measured over a 48-h period. Recombinant progeny were first observed at 12 h and increased to a maximum of 2.5% at 48 h. Single-crossover products, as determined by beta-galactosidase expression, reached a maximum of 57% of the recombinant population at 24 h and thereafter declined. DNA hybridization analysis was used to examine genomic structures of the progeny of the initial viral plaques, plaques purified three times, and those subject to a 10(4)-fold amplification. These analyses confirmed that single-crossover events within either the 5'- or 3'-homologous flanking sequences generated unstable recombinant structures. These structures were shown to contain a single copy of the intact thymidine kinase gene within the corresponding copy of the duplicated thymidine kinase flanking sequences, separated by the beta-galactosidase gene and plasmid DNA. Significantly, these duplicated structures could undergo further recombination to produce repeats of either the intact or the deleted thymidine kinase sequences. These intermediate structures ultimately degenerated to produce either the parental thymidine kinase-deleted or the wild-type genome. The wild-type genome was also shown to be generated directly by gene conversion or double-crossover events.     

利用同源重组建立地中海拟无枝菌酸菌U32染色体的基因置换/中断系统

地中海拟无枝菌酸菌U32是力复霉素SV的工业产生菌,其遗传操作一直是一个难题。在该菌株DNA高效电转化的基础上,利用同源重组的原理,建立了地中海拟无枝菌酸菌染色体的基因置换/中断系统。通过大肠杆菌重组质粒pDK110构建、转化及两步重组筛选,成功地用α淀粉酶基因（amy）取代了地中海拟无枝菌酸菌U32染色体上的3-氨基-5-羟基苯甲酸合成酶基因（ahbas）。第一步单交换和第二步双交换的频率分别是0.5%～0.7% 和 2%。将质粒pDK110变性后转化可显著提高重组频率,在第二步筛选双交换前对单交换重组子进行电击也能够提高其双交换重组的频率。此外,通过转化构建的两端带同源区段的线性DNA片段及一步重组筛选,我们在地中海拟无枝菌酸菌U32染色体的amrD,rifO基因中间插入了阿普拉霉素抗性基因（apr）,其效率约为30～50转化子/μgDNA。     

Plasmid transformation in Bacillus subtilis: effects of insertion of Bacillus subtilis DNA into plasmid pC194

Summary We have constructed a hybrid plasmid, pBC1, which consists of plasmid pC194 with an insert of B. subtilis DNA at its HindIII restriction site. This plasmid is stably maintained in B. subtilis. In contrast with pC194, monomeric ccc forms of pBC1 are active in transformation. Transformations with these monomeric molecules of pBC1 have a stringent requirement for recombination proficieny., as defined by recE in the recipient cell. The extent of dependence of the transforming activity of oligomeric pBC1 DNA on the recombination proficiency of the recipient cell decreases with increasing oligomer size. A model of DNA proccssing during plasmid transformation of B. subtilis is presented.     

Stability analysis for long-term storage of naked DNA: impact on nonviral in vivo gene transfer

The transfer of naked DNA is gaining growing acceptance for nonviral gene therapy. Integrity and stability of the DNA used in nonviral gene therapy is known to be decisive for efficacy of gene transfer and transgene expression. Thus, preclinical and clinical studies require the safe storage of DNA preparations to ensure defined quality and conformation. To evaluate the influence of potentially destructive processes on plasmid DNA associated with long-term storage, capillary gel electrophoresis (CGE) analysis of the LacZ-expressing pCMVbeta plasmid over a period of 13 months was performed. The CGE analysis revealed that stable storage conditions at -80 degrees C prevent an increase in open circular (oc) plasmid, preserving the covalently closed circular (ccc) form, which is sought for efficient gene transfer. By contrast, long-term storage of plasmid DNA at 4 degrees C leads to the rapid decline of the ccc form and the increase of oc and linear DNA molecules. The use of naked DNA stored for 1, 2, or 13 months at -80 degrees C showed similar in vivo transfer efficiencies by jet-injection. Therefore, analysis of plasmids by CGE allows the reliable determination of integrity and distribution of the topology of the DNA by quantitative means.     

Supercoiled plasmid DNA: selective purification by thiophilic/aromatic adsorption

Separation of the different plasmid isoforms is a major challenge in purifying plasmid DNA. We describe a new type of biochemical interaction that occurs in the presence of high concentrations of lyotropic salt and results in the selective adsorption of supercoiled plasmid DNA to aromatic thioether ligands. Under well-defined conditions, these ligands are capable of separating supercoiled plasmid DNA (ccc) from its isoform, i.e. open circular (oc) form. Integrated in a process, preceded by group separation and followed by anion-exchange chromatography, this new purification method may facilitate the production of highly purified supercoiled plasmid DNA for use in gene therapy and DNA vaccine applications.     

Animal-free production of ccc-supercoiled plasmids for research and clinical applications

The topological structure of plasmid DNA can be characterized by capillary gel electrophoresis (CGE analysis)-an important tool for quality control and stability assessments in DNA storage or application. Hence, a large-scale manufacturing process was developed that allows the removal of undesired open circular (oc) or linear plasmid topologies, bacterial genomic DNA, RNA, proteins as well as lipopolysaccharides (endotoxins) and results in obtaining supercoiled (covalently closed circular, ccc) plasmid DNA in a pure form without using any animal-derived substances. Using CGE, the development and in-line monitoring for pharmaceutical plasmid production starting from fermentation control throughout the whole manufacturing process including the formulated and filled product can be performed the first time in a way conforming to good manufacturing practices (GMP). Plasmid stability data were obtained from analysis of shear effects influencing the plasmid quality in DNA drug delivery formulation and application (e.g. gene gun or jet injection). The physical stability of plasmid DNA is for the first time evaluated in DNA storage experiments on the level of different plasmid forms.     

Cytoplasmic filament-deficient mutant of Treponema denticola has pleiotropic defects

In Treponema denticola, a ribbon-like structure of cytoplasmic filaments spans the cytoplasm at all stages of the cell division process. Insertional inactivation was used as a first step to determine the function of the cytoplasmic filaments. A suicide plasmid was constructed that contained part of cfpA and a nonpolar erythromycin resistance cassette (ermF and ermAM) inserted near the beginning of the gene. The plasmid was electroporated into T. denticola, and double-crossover recombinants which had the chromosomal copy of cfpA insertionally inactivated were selected. Immunoblotting and electron microscopy confirmed the lack of cytoplasmic filaments. The mutant was further analyzed by dark-field microscopy to determine cell morphology and by the binding of two fluorescent dyes to DNA to assess the distribution of cellular nucleic acids. The cytoplasmic filament protein-deficient mutant exhibited pleiotropic defects, including highly condensed chromosomal DNA, compared to the homogeneous distribution of the DNA throughout the cytoplasm in a wild-type cell. Moreover, chains of cells are formed by the cytoplasmic filament-deficient mutant, and those cells show reduced spreading in agarose, which may be due to the abnormal cell length. The chains of cells and the highly condensed chromosomal DNA suggest that the cytoplasmic filaments may be involved in chromosome structure, segregation, or the cell division process in Treponema.     

A targeted gene knockout method using a newly constructed temperature-sensitive plasmid mediated homologous recombination in Bifidobacterium longum

Bifidobacteria are the main component of the human microflora. We constructed a temperature-sensitive (Ts) plasmid by random mutagenesis of the Bifidobacterium-Escherichia coli shuttle vector pKKT427 using error-prone PCR. Mutant plasmids were introduced into Bifidobacterium longum 105-A and, after screening approximately 3,000 colonies, candidate clones that grew at 30?°C but not at 42?°C were selected. According to DNA sequence analysis of the Ts plasmid, five silent and one missense mutations were found in the repB region. The site-directed mutagenesis showed only the missense mutation to be relevant to the Ts phenotype. We designated this plasmid pKO403. The Ts phenotype was also observed in B. longum NCC2705 and Bifidobacterium adolescentis ATCC15703. Single-crossover homologous-recombination experiments were carried out to determine the relationship between the length of homologous sequences encoded on the plasmid and recombination frequency: fragments greater than 1?kb gave an efficiency of more than 10(3) integrations per cell. We performed gene knockout experiments using this Ts plasmid. We obtained gene knockout mutants of the pyrE region of B. longum 105-A, and determined that double-crossover homologous recombination occurred at an efficiency of 1.8?%. This knockout method also worked for the BL0033 gene in B. longum NCC2705.     

2型猪链球菌Fbps基因敲除突变体的构建及毒力分析

目的:敲除2型猪链球菌(SS2)强毒株05ZYH33中的Fbps基因,研究该基因敲除对菌株生物活性及毒力的影响,为深入探讨猪链球菌致病机制提供实验基础。方法:从05ZYH33基因组中扩增Fbps基因上、下游同源臂,从pSET1质粒中扩增氯霉素抗性基因Cm,通过重叠PCR的方法将3个片段整合后连接到温敏自杀载体pSET4s上,电转入05ZYH33感受态细胞,通过改变培养温度实现双交换和质粒丢失,最后经抗性筛选获得敲除株05ZYH33ΔFBPS,分析敲除株的生物学性状,以CD1小鼠作为体外感染模型对突变株和野生株进行毒力比较。结果:PCR分析和测序结果均显示Fbps基因敲除成功,动物实验结果显示Fbps基因敲除后05ZYH33的毒力有所下降。结论:与野生株相比,突变株对小鼠的毒力有所降低。     

Direct cloning of full-length mouse mitochondrial DNA using a Bacillus subtilis genome vector

The complete mouse mitochondrial genome (16.3 kb) was directly cloned into a Bacillus subtilis genome (BGM) vector. Two DNA segments of 2.06 and 2.14 kb that flank the internal 12 kb of the mitochondrial DNA (mtDNA) were subcloned into an Escherichia coli plasmid. Subsequent integration of the plasmid at the cloning locus of the BGM vector yielded a derivative specific for the targeted cloning of the internal 12-kb mtDNA region. The BGM vector took up mtDNA purified from mouse liver and integrated it by homologous recombination at the two preinstalled mtDNA-flanking sequences. The complete cloned mtDNA in the BGM vector was converted to a covalently closed circular (ccc) plasmid form via gene conversion in B. subtilis. The mtDNA carried on this plasmid was then isolated and transferred to E. coli. DNA sequence fidelity and stability through the BGM vector-mediated cloning process were confirmed.     

Enrichment of plasmid DNA in cell membranes of Bacillus subtilis

Abstract The discrepancy between previously reported copy numbers for the plasmid pUB110 in Bacillus subtilis and the copy number determined by nucleic acid sandwich hybridization of a pUB110-derivative, pKTH10, was studied. The bulk of plasmid DNA was found to be enriched in the cell membranes in a non-covalently closed circular (ccc) form. The binding was strong enough to resist standard solubilization procedures. The conventional methods for copy number determination fail to detect plasmid DNA in this form, which explains the discrepancy we encountered. The copy number of the parental plasmid, pUB110, was also determined by the sandwich hybridization method and found to be of the same order of magnitude as that of pKTH10.     

Large-scale isolation of covalently closed circular DNA using gel filtration chromatography

The isolation of covalently closed circular (ccc) DNA free of contamination by RNA and other forms of DNA is fundamental to molecular biology. A variety of methods have been explored but CsCl density-gradient centrifugation remains the method most widely used for preparative scale resolution. The process is expensive, time-consuming, requires the use of large amounts of the carcinogen ethidium bromide, and is subject to considerable variation in yield and purity. To avoid these problems, we have devised a procedure for the preparation of cell lysates which results in consistently good yields of biologically active ccc DNA minimally contaminated with chromosomal DNA fragments and RNA. Lysates are deproteinized, precipitated with CaCl2 to remove rRNA, concentrated by ethanol precipitation, and applied to a Sephacryl S-1000 column which resolves chromosomal fragments, open circular plasmid DNA, and residual RNA from the ccc DNA. We have found that substituting the gel filtration column for CsCl density-gradient centrifugation results in substantially better purification as well as reducing processing time, cost, and degree of difficulty. The time required from harvest of cells to final recovery of DNA is about 16 h. We have used the method to isolate plasmids from 4.4 to 12 kb and, with slight modifications, recombinant M13 replicative form DNAs.     

A competence specific inducible protein promotes in vivo recombination in Streptococcus sanguis

Summary We describe the first example of a recombination-specific protein induced during the development of competence for transformation in Streptococcus sanguis. Elaborated in response to stimulation by competence-protein, the 51,000 Molecular Weight (MW) polypeptide is one of at least 10 new polypeptides transiently induced during the competence phase. Biochemical and genetic analyses of the parental, cipA⁺ (competence specific inducible polypeptide A), and mutant, cipA, strains have shown that the 51,000 MW polypeptide has two roles: its low level constitutive synthesis is required for repair of damage to DNA due to UV light and methylmethane sulfonate; its induced synthesis (3–6x10⁴ copies/cell) during the competence phase is essential for promoting recombination between donor single-stranded DNA and the recipient chromosome. Also, ccc plasmid donor DNA transformation, which occurs as a decreasing probability of the increasing donor plasmid MW, requires the inducible function specified by the 51,000 MW polypeptide. The MW independent low level transformation with ccc plasmids, the inheritance of plasmids by conjugation, and the stable maintenance of plasmids introduced by transformation and conjugation, respectively, are independent of the function specified by the 51,000 MW polypeptide.     

Cloning and characterization of upp, a gene encoding uracil phosphoribosyltransferase from Lactococcus lactis.

Uracil phosphoribosyltransferase catalyzes the key reaction in the salvage of uracil in many microorganisms. The gene encoding uracil phosphoribosyltransferase (upp) was cloned from Lactococcus lactis subsp. cremoris MG1363 by complementation of an Escherichia coli mutant. The gene was sequenced, and the putative amino acid sequence was deduced. The promoter was mapped by both primer extension and analysis of beta-galactosidase expressed from strains carrying fusion between upp promoter fragments and the lacLM gene. The results showed that the upp gene was expressed from its own promoter. After in vitro construction of an internal deletion, a upp mutant was constructed by a double-crossover event. This implicated the utilization of a plasmid with a thermosensitive origin of replication and a new and easy way to screen for double crossover events in both gram-positive and gram-negative bacterial strains. The phenotype of the uracil phosphoribosyltransferase-deficient strain was established. Surprisingly, the upp strain is resistant only to very low concentrations of 5-fluorouracil. Secondary mutants in thymidine phosphorylase and thymidine kinase were isolated by selection for resistance to high concentrations of 5-fluorouracil.     

Replacement recombination in Lactococcus lactis.

In the pUC18-derived integration plasmid pML336 there is a 5.3-kb chromosomal DNA fragment that carries the X-prolyl dipeptidyl aminopeptidase gene (pepXP). The gene was inactivated by the insertion of an erythromycin resistance determinant into its coding sequence. Covalently closed circular DNA of pML336 was used for the electrotransformation of Lactococcus lactis. In 2% of the erythromycin-resistant transformants the pepXP gene was inactivated by a double-crossover event (replacement recombination) between pML336 and the L. lactis chromosome. The other transformants in which the pepXP gene had not been inactivated carried a Campbell-type integrated copy of the plasmid. Loss of part of the Campbell-type integrated plasmid via recombination between 1.6-kb nontandem repeats occurred with low frequencies that varied between less than 2.8 x 10(-6) and 8.5 x 10(-6), producing cells with a chromosomal structure like that of cells in which replacement recombination had taken place.     

Multiplex event-specific qualitative polymerase chain reaction for detecting three transgenic rice lines and application of a standard plasmid as a quantitative reference molecule

The three most well-known genetically modified (GM) rice lines in China are TT51-1, KMD1, and KF6. The purposes of this study were to establish a multiplex event-specific qualitative polymerase chain reaction (meqPCR) system for simultaneous detection of the three transgenic rice events and to construct a plasmid as the reference molecule for quantitative analysis. Event-specific primers for each event were selected or designed by focusing on the transgene borders between the inserted DNA and the flanking rice DNA. The developed meqPCR was anticipated to detect distinct amplicons as 454, 398, 301, and 250 bp from KF6, KMD1, TT51-1, and the rice endogenous reference gene, respectively. The robustness of the meqPCR was tested with different levels of the three transgenic rice genomic DNAs, and the sensitivity threshold of the meqPCR was at least 50 ng of 0.1% rice DNA for each event when the three transgenic rice events present and with other GM materials together. The constructed plasmid was evaluated using mixed samples with known GM contents in real-time quantitative PCR. The results indicated that the constructed plasmid was acceptable and suitable for GM rice quantitative analysis.