Development of a rat cell line containing stably integrated copies of a lambda/lacI shuttle vector

A rat embryo cultured cell line was generated that carries stably integrated copies of a lambda/lacI shuttle vector, containing the lacI gene as a mutational target. After the desired treatment of the cells, this vector can be rapidly and efficiently recovered fron the cell DNA by in vitro packaging and then screnned for mutations in the lacI gene, using bacterial detection systems. The vector is identical to that integrated into the Big Blue transgenic mouse, which was developed for in vivo mutation analysis.Characterization of the cell line by fluorescence in situ hybridization showed that the phage DNA is integrated at two distinct sites on separate chromosomes at approximately 50–70 copies per cell and the cell line is polyploid. The rescue efficiency is approximately 100 000 pfu/μg of genomic DNA. To examine the ability of the cell line to detect mutations in the lacI gene, the cells were treated with 100 μg/ml of the direct-acting alkylating agent N-methyl-N-nitrosourea (MNU) for 30 min at 37°C and grown to confluence. The shuttle vector was rescued from untreated and mutagen treated cells, and spontaneous and induced mutant frequencies were determined to be 4.0 × 10⁻⁵ and 92.7 × 10⁻⁵, respectively. The cell line can be used to detect mutations in the lacI gene, followed by recovery of mutants for sequence analysis. The cell line may be valuable for short-term in vitro mutagenesis studies, oncogene and tumor suppressor studies, and DNA repair studies.     

The use of transgenic mice for short-term,in vivo mutagenicity testing

In order to develop a short-term, in vivo assay to study the mutagenic effects of chemical exposure, transgenic mice were generated using a lambda shuttle vector containing a lacZ target gene. Following exposure to mutagens, this target can be rescued efficiently from genomic DNA prepared from tissues of the treated mice using restriction minus, in vitro lambda phage packaging extract and restriction minus Escherichia coli plating cultures. Mutations in the target gene appear as colorless plaques on a background of blue plaques when plated on indicator agar. Spontaneous background levels were ′1 × 10⁻⁵ in each of three mouse lineages analyzed. Exposure of lambda transgenic mice to N-ethyl-N-nitrosourea resulted in as much as a 14-fold induction in detected mutations over background levels. The assay is currently being modified to incorporate lacI as the target for ease of mutation detection as well as in vivo excision properties of the Lambda ZAP vector, facilitating sequence analysis of mutant plaques.     

Identification and characterization of a gene responsible for inhibiting propagation of methylated DNA sequences in mcrA mcrB1 Escherichia coli strains.

Identifying and eliminating endogenous bacterial enzyme systems can significantly increase the efficiency of propagation of eukaryotic DNA in Escherichia coli. We have recently examined one such system which inhibits the propagation of lambda DNA rescued from transgenic mouse tissues. This rescue procedure utilizes lambda packaging extracts for excision of the lambda DNA from the transgenic mouse genome, as well as E. coli cells for subsequent infection and propagation. This assay, in combination with conjugal mating, P1 transduction, and gene cloning, was used to identify and characterize the E. coli locus responsible for this difference in efficiency. It was determined that the E. coli K-12 mcrB gene when expressed on a high-copy-number plasmid can cause a decrease in rescue efficiency despite the presence of the mcrB1 mutation, which inactivates the classic McrB restriction activity. (This mutation was verified by sequence analysis.) However, this McrB1 activity is not observed when the cloned mcrB1 gene is inserted into the E. coli genome at one copy per chromosome. A second locus was identified which causes a decrease in rescue efficiency both when expressed on a high-copy-number plasmid and when inserted into the genome. The data presented here suggest that this locus is mrr and that the mrr gene product can recognize and restrict cytosine-methylated sequences. Removal of this DNA region including the mrr gene from E. coli K-12 strains allows high rescue efficiencies equal to those of E. coli C strains. These modified E. coli K-12 plating strains and lambda packaging extract strains should also allow a significant improvement in the efficiency and representation of eukaryotic genomic and cDNA libraries.     

Electrotransfection of Escherichia coli with λgt10 DNA

We have used electroporation to introduce lambda gt10 DNA into E. coli C600 (Electrotransfection). We obtained approximately 10(7) pfu (plaque forming units) per micrograms of lambda gt10 DNA. This frequency is 100-fold higher than the maximum reported for classical calcium chloride-induced transfection. We have also compared electrotransfection with in vitro packaging in cloning experiments using relatively small amounts (less than or equal to 10 ng) of DNA. Our results slow that electrotransfection can generate approximately 1000-fold more plaques than in vitro packaging at these concentrations.     

Effects of mcr restriction of methylated CpG islands of the L1 transposons during packaging and plating stages of mammalian genomic library construction.

The use of optimally methylation-tolerant mcrA- mcrB- strains has been shown to produce an over tenfold increase in the plating efficiencies of mammalian genomic libraries, compared to a superior conventional phage host strain LE392 which is mcrB+. However, there is an even more significant effect of mcr restriction. Amongst the recombinants recovered with an mcrB+ host, we have found that there is an additional 30-fold reduction in the frequencies of clones containing the heavily methylated 5'-CpG island sequences of both the human and rat L1 repetitive elements. The mcrA product was also found to restrict clones of these methylated genomic segments, but not as strongly as mcrB. However, the use of packaging extracts made from mcrA+ lysogens did not result in convincing reductions in the recoveries of these dispersed methylated elements. The magnitude of mcr restriction during plating due to methylated dispersed elements is sufficient to make a significant proportion of mammalian genomes unclonable from genomic libraries constructed previously using conventional mcr+ hosts.     

Phasmids as effective and simple tools for construction and analysis of gene libraries

Phasmid lambda pMYF131, a hybrid of phage lambda vectors and plasmid pUC19, was constructed. The phasmid and its derivatives were shown to be efficient vectors for construction and analysis of gene libraries in Escherichia coli cells. The lambda pMYF131 DNA molecule contains all the genes and regions essential for phage lytic development. The plasmid cannot be packaged either in the monomeric or the oligomeric form due to its specific length. Elongation of the DNA molecule by ligation with fragments of foreign DNA can make it packageable and this is easily detected by plaque formation. Hence, the procedures used to construct genomic libraries can be simplified by selection of only recombinant DNA molecules just at the time and on the basis of their packaging in vitro. The output of recombinant clones per vector molecule was several times higher for vector lambda pMYF131, compared to phage vector lambda L47.1AB, and attained 3 x 10(6) clones per micrograms DNA. Vector and recombinant phasmids can be obtained in large quantities in plasmid form. lambda pMYF131 contains nine unique restriction sites which allow the cloning of DNA fragments with blunt ends and of fragments with various types of cohesive ends, obtained by digestion with 14 prototype restriction enzymes. The maximal size of the cloned DNA fragments is approx. 20 kb for lambda pMYF131. Phasmid vectors were used to construct libraries of bovine, pig and quail genomes, and genomic libraries of 17 species of bacteria. Application of suitable methods allowed the identification 13 individual genes within these libraries.     

Isolation and preliminary characterization of the Chinese hamster thymidine kinase gene.

The Chinese hamster thymidine kinase (TK) gene has been isolated from a recombinant phage library constructed with genomic DNA from mouse Ltk- cells transformed to Tk+ by transfection with Chinese hamster genomic DNA. The phage library was screened by the Benton-Davis plaque hybridization technique, using as probes, subclones of recombinant phage that were isolated from mouse Ltk+ transformants by the tRNA suppressor rescue method. The Chinese hamster TK gene is contained within 13.2 kilobases of genomic DNA in the isolate designated lambda 34S4. This gene, defined by restriction enzyme sensitivity experiments, homology studies with the chicken TK gene, and mRNA blotting experiments, may extend over 8.5 kilobases. Subclones of the lambda 34S4 isolate used as hybridization probes identified a 1,400-nucleotide polyadenylated RNA as the hamster TK mRNA. The abundance of this mRNA varies dramatically in Chinese hamster cells cultured under various growth conditions, providing direct evidence that the growth dependence of TK activity may be regulated in an important way at the level of cytoplasmic TK mRNA.     

Enhanced recovery and restriction mapping of DNA fragments cloned in a new lambda vector.

In this paper we describe a modification to the lambda vector EMBL3 which greatly expedites the construction of restriction maps of cloned DNA sequences. In the modified vector, EMBL3cos, all the phage coding sequences are placed to the right of the cloning sites so that the left cohesive end is separated by only 200bp, rather than 20kb (as in conventional lambda vectors), from the inserted DNA fragment. We show that reliable restriction maps can be rapidly constructed from partial digests of clones made in this vector by labelling the left cohesive end with a complementary 32P-labelled oligonucleotide. In addition, we quantify the restriction of clones containing human DNA by the McrA and McrB systems of E. coli and show that the use of Mcr- plating strains can increase the yield of recombinant phage up to tenfold, to give cloning efficiencies of greater than or equal to 10(7) pfu/microgram of human DNA.     

In vitro packaging of a lambda Dam vector containing EcoRI DNA fragments of Escherichia coli and phage P1.

In this report we describe a coliphage lambda vector system for cloning endo R. EcoRI DNA fragments. This system differs significantly from those previously described in two ways. First, restricted and ligated DNA is encapsidated in vitro. Second, with increasing lambda DNA size in the range 78 to 100% that of wild-type, the efficiency of DNA encapsidation into infectious phage particles markedly increases. For lambda wild-type DNA the efficiency of in vitro packaging (10(6) to 10(7) plaques produced per microgram of added DNA) is equal to, or better than, the standard CaCl2 transfection method. The use of a Dam mutation to facilitate recognition of size classes of inserted fragments is described. Using this vector and in vitro packaging, several E. coli and phage P1 and R.EcoRI fragments were cloned.     

Isolation of a functional human interleukin 2 gene from a cosmid library by recombination in vivo

A method has been developed that allows the isolation of genomic clones from a cosmid library by homologous recombination in vivo. This method was used to isolate a human genomic interleukin 2 (IL2) gene. The genomic cosmid library was packaged in vivo into lambda phage particles. A recombination-proficient host strain carrying IL2 cDNA sequences in a non-homologous plasmid vector was infected by the packaged cosmid library. After in vivo packaging and reinfection, recombinants carrying the antibiotic resistance genes of both vectors were selected. From a recombinant cosmid clone the chromosomal IL2 gene was restored. After DNA mediated gene transfer into mouse Ltk- cells human IL2 was expressed constitutively.     

Efficient simplified cosmid cloning: construction and characterization of cosmid vectors that carry the two cohesive end sites of lambda phages arrayed in tandem

We constructed a series of cosmid vectors that carry the two cohesive end sites (cos) of lambda phage, arrayed in tandem, which enabled us to clone fragments of genomic DNA of up to 50 kb without a vector background. An equimolar mixture of the left and right vector arms of equal length was prepared from the vector DNA, simply by treating the DNA sequentially with three enzymes, restriction enzyme PvuII, alkaline phosphatase, and restriction enzyme BamHI (or BglII), without purification by agarose gel electrophoresis. After phenol extraction and ethanol precipitation, the equimolar mixture of the vector arms, which carried a single cos oriented from left to right, was directly ligated with insert DNA without further manipulation. We established conditions for cosmid cloning, using two kinds of DNA fragment of 40-50 kb, prepared from mouse L cell genomic DNA, as insert DNAs, namely, three cloned BamHI fragments and Sau3AI fragments, size-selected on a sucrose density gradient. The most important parameters affecting the cloning efficiency were the quality of the insert DNA and the molar ratio of the insert and vector arms. We achieved cloning efficiencies of 3.6 X 10(6)-1.3 X 10(7) colony forming units (cfu)/micrograms of insert DNA and 1.7 X 10(5)-1.0 X 10(6) cfu/micrograms of insert DNA, using the cloned BamHI fragments and the Sau3AI fragments, respectively. We examined more than 5000 clones and found that they all contained insert DNA.     

Insertion of the cos-site into DNA of phage M13 and its packing in proteins of phage lambda

The cos-site of lambda phage from pHC79 cosmide is transferred to DNA from M13 mp18 phage. The recombinant DNA thus obtained (MC18) is efficiently packaged into lambda proteins in vitro. The BamHI-HindIII fragment of pGP588 (a pBR322 derivatives containing fragment of human DNA) is subcloned into MC18. Although this pGP588 fragment contains numerous Alu repeats, no essential rearrangements of the insert were revealed. The efficiency infection by recombinant DNA packaged with lambda proteins is about 1 X 10(5) pfu/microgram DNA, whereas in the similar conditions the efficiency of lambda EMBL3A was 1 X 10(6) pfu/microgram. It is assumed that the MC vectors might be suitable for cloning and sequencing large fragments either with cohesive or blunt ends. It opens also the way to construct genomic libraries in single-stranded phages.     

High-density functional display of proteins on bacteriophage lambda

We designed a bacteriophage lambda system to display peptides and proteins fused at the C terminus of the head protein gpD of phage lambda. DNA encoding the foreign peptide/protein was first inserted at the 3' end of a DNA segment encoding gpD under the control of the lac promoter in a plasmid vector (donor plasmid), which also carried lox P(wt) and lox P(511) recombination sequences. Cre-expressing cells were transformed with this plasmid and subsequently infected with a recipient lambda phage that carried a stuffer DNA segment flanked by lox P(wt) and lox P(511) sites. Recombination occurred in vivo at the lox sites and Amp(r) cointegrates were formed. The cointegrates produced recombinant phage that displayed foreign protein fused at the C terminus of gpD. The system was optimised by cloning DNA encoding different length fragments of HIV-1 p24 (amino acid residues 1-72, 1-156 and 1-231) and the display was compared with that obtained with M13 phage. The display on lambda phage was at least 100-fold higher than on M13 phage for all the fragments with no degradation of displayed products. The high-density display on lambda phage was superior to that on M13 phage and resulted in selective enrichment of epitope-bearing clones from gene-fragment libraries. Single-chain antibodies were displayed in functional form on phage lambda, strongly suggesting that correct disulphide bond formation takes place during display.This lambda phage display system, which avoids direct cloning into lambda DNA and in vitro packaging, achieved cloning efficiencies comparable to those obtained with any plasmid system. The high-density display of foreign proteins on bacteriophage lambda should be extremely useful in studying low-affinity protein-protein interactions more efficiently compared to the M13 phage-based system.     

Ethylnitrosourea-induced mutation and molecular analysis of transgenic mice containing the gpt shuttle vector

Novel transgenic mice were developed in order to study the in vivo mutagenesis. The transgenic mice carried pCGK shuttle vector, which contained the Escherichia coli gpt gene as a mutational target, the kanamycin-resistant gene (Kanr) and cos region derived from bacteriophage lambda. The shuttle vector can be recovered from the transgenic mouse genome into the gpt-deficient E. coli by an in vitro packaging method and is selectable as a Kanr phenotype. Mutations induced at the gpt gene can be easily detected with a selective agent, 6-thioguanine (6-TG). In the previous study, the pCGK shuttle vector was incorporated into Chinese hamster CHL/IU cells and the resultant transgenic cell line was shown to be a useful system to study in vitro mutagenesis at the gpt gene. Therefore, an advantage of the shuttle vector is that in vivo mutational data obtained from the transgenic mouse can be compared with those of transgenic cell line in vitro. A transgenic CD-1 mouse line, designated as #128, that carried approximately 50 copies of pCGK shuttle vectors, was selected among 4 transgenic mouse lines. To investigate the sensitivity of the #128 line, the transgenic mice were treated with a single intraperitoneal injection of 250 mg/kg of N-ethyl-N-nitrosourea (ENU) or with 50 mg kg-1 day-1 of ENU for 5 consecutive days, and bone marrow, spleen and liver were dissected to investigate their mutational responses. The background mutant frequency was between 18x10(-6) and 75x10(-6) among all tissues tested. ENU induced significant increases in the mutant frequency above the background level in all three tissues at 14 days after single or 5-day treatment with the chemical. The increases in the mutant frequencies in bone marrow, spleen and liver were 6.4- to 6.8-fold, 3.0- to 5.6-fold and 3.0- to 3.3-fold, respectively. The shuttle vector DNA was recovered from the bone marrow of both spontaneous and ENU-treated mice and the gpt gene was amplified by polymerase chain reaction. The amplified DNA was subject to DNA sequence analysis. Out of 79 spontaneous and 52 ENU-induced mutants, the gpt gene could be amplified from 28 spontaneous and 46 ENU-induced mutants. DNA sequence analysis showed that predominant mutations were identified as A:T to T:A transversions (22 out of 46 sequenced mutants) and G:C to A:T transitions (9/46) in ENU-induced mutants, whereas G:C to T:A transversions (7 out of 28 sequenced mutants) were predominant in spontaneous mutants. These results demonstrate that this transgenic mouse, in combination with the transgenic CHL/IU cell line, is a useful system to study in vivo and in vitro mutational events at the same target gene.     

A more efficient Big Blue protocol improves transgene rescue and accuracy in a adduct and mutation measurement

Transgenic mutational systems have provided researchers with an invaluable tool, allowing the measurement of both spontaneous and induced mutations. The Big Blue transgenic rodent mutagenesis system developed by Stratagene (La Jolla, CA) uses a lambda shuttle vector carrying lacI as the mutational target gene. A common criticism of the Big Blue system is that it relies on visual screening to detect mutants rather than positive selection, which is employed in more recently developed systems. The lack of positive selection, however, has provided the Big Blue system with a unique advantage, as it allows for the dynamic quantification of mutation fixation, repair, and adduct stability, since both pre-mutagenic DNA adducts and mutations can readily be quantified [Proc. Natl. Acad. Sci. U.S.A. 97 (2000) 11391]. Improvements to the standard Big Blue assay protocol are required for the visualization of mutant plaques resulting from pre-mutagenic damage, as these can appear much lighter in color than the lightest color control mutant (CM0). This increase in detection has been achieved by the development of a protocol that now permits the effective measurement of repair and mutation fixation utilizing the Big Blue system. This new protocol has also addressed efficiency, allowing for a two-fold increase in the number of plaques produced per packaging reaction and a decrease in both phage migration and plaque size, permitting a greater than three-fold increase in plating density. The implementation of this protocol will make the Big Blue assay more economical and less demanding than before, while providing researchers with an efficient means to measure both repair and mutation in this system.     

An improved technique for the efficient construction of gene libraries by partial filling-in of cohesive ends

For the preparation of gene libraries, DNA from lambda EMBL3 phage was digested with SalI and EcoRI, and the cohesive ends partially filled-in by addition of dTTP, dCTP and Klenow fragment of DNA polymerase I (PolIk). Genomic DNA was cleaved partially with Sau3A and subsequently incubated with dATP, dGTP and PolIk. The phage and genomic DNAs were then mixed and ligated. The recombinant DNAs were packaged in vitro. The efficiency of packaging was 10(5)-10(6) of infectious phage lambda particles per microgram of the genomic DNA (as compared to approx. 10(7) per microgram for the wild-type lambda DNA). This procedure is very rapid and requires only microgram quantities of genomic DNA for preparing an entire gene library. The other important advantage is that multiple independent insertions of genomic DNA cannot occur in a single recombinant phage and self-ligation of phage DNA is blocked. It is also applicable for other SalI-containing vectors.     

Molecular cloning of the intronless EJ ras oncogene using a murine retrovirus shuttle vector

We have inserted a genomic clone of the human EJ bladder oncogene into a murine retrovirus shuttle vector. Cotransfection of this shuttle vector DNA containing the activated ras oncogene with molecularly cloned Moloney murine leukemia virus into NIH/3T3 cells was able to rescue a replicating and transforming retrovirus. The viral DNA from infected cells was excised by fusion to mouse COP-5 cells and recloned into Escherichia coli as plasmid DNA. Analysis of the recloned plasmids by size, restriction enzyme mapping, and DNA sequence indicated that approximately 5% of the recloned plasmids contained the intronless EJ ras oncogene.     

海洋放线菌Streptomyces sp.大片段DNA基因组文库的构建

目的:构建稀有海洋放线菌Streptomyces sp.基因组文库.方法:以稀有海洋放线菌Streptomyces sp.为实验材料,随机剪切提取的总DNA,5'-磷酸末端补平回收40kb左右的DNA片段,与pWEBTM载体连接,经包装蛋白包装成噬菌体后侵染宿主细胞E.coli EPI100,构建该菌株的基因组文库,并对该文库进行质量鉴定.结果:成功构建了稀有海洋放线菌Streptomyces sp.的基因组文库,效价达9.0×104CFU/mL,得到4000个阳性克隆子,远远大于按覆盖率为99%计算至少所需的837个阳性克降子数,且平均插入片段长度为36kb,重组率100%.阳性克隆子保存于96孔板中,-80℃保存.结论:所构建文库的各项指标均达到要求,为了进一步评估Streptomyces sp.所能合成的所有潜在天然产物,还需要进一步检测该文库中包含有生物合成基因簇的大肠杆菌的表达情况.     

Isolation of mouse x-chromosome specific DNA from an x-enriched lambda phage library derived from flow sorted chromosomes

A lambda phage library enriched in X(7) chromosomal material has been constructed from flow sorted chromosomes isolated from mice carrying the Cattanach translocation T(X;7)1Ct. The flow sorted fraction that was cloned contained 40% X(7) chromosomes, so that the resulting lambda phage library should be more than 10-fold enriched for X chromosomal DNA. Approximately 100,000 lambda phage clones were obtained; of these, at least 80% were recombinant. Three quarters of recombinants were positive for mouse repetitive DNA as detected either by phage plaque filter hybridization or by Southern blotting. Recombinant DNA inserts were prepared from some of the remaining nonrepetitive phage fraction. The X-chromosome specificity of cloned DNA inserts was tested by hybridization to DNA from mouse-hamster somatic cell hybrids that had retained all or most of the mouse X as the only mouse chromosome and by comparison of the extent of hybridization to DNA from male and female mice. Out of nine cloned unique sequence segments successfully examined thus far, two were presumably derived from the X. Possession of phage library highly enriched for mouse X DNA should facilitate molecular studies of the control of X chromosome gene expression.