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1.
M Fuke  L C Hendrix  A P Bollon 《Gene》1984,32(1-2):135-140
Biologically active interferon (10(6)-10(7) units/liter) was produced in Escherichia coli from modified human alpha interferon (IFN-alpha) pseudogene L. IFN-alpha pseudogene L has a stop codon in the signal peptide coding region. The region that contains the stop codon was replaced with the corresponding region of another human IFN-alpha gene, WA, that does not have a stop codon and was previously engineered for expression by fusion to the M13mp11 lac promoter. The interferon L fusion product was induced with IPTG after infecting E. coli JM103 with the M13 bacteriophage that contained the modified human IFN-alpha pseudogene L. Hence, the IFN-alpha L mature interferon coding sequence, which is not identical to any other alpha-interferon gene, has been conserved for active interferon coding information.  相似文献   

2.
B Lopez  S Rousset    J Coppey 《Nucleic acids research》1987,15(14):5643-5655
Using as substrates, 1: the replicative form (RF) of phage M13 mp8 in which the reading frame of the lac Z' gene was disrupted by insertion of an octonucleotide, and 2: a restriction fragment one kb long, containing the functional lac Z' gene (isolated from wild type M13 mp8), we show that nuclear extracts from human cells (3 lines tested) promote the targeted replacement of the altered sequence by the functional one. Following incubation with the extracts, the DNA's were introduced in JM 109 bacteria (rec A- and lac Z'-) which were grown in presence of a colorimetric indicator of beta-galactosidase activity. Homologous recombination gives rise to the genotypical modification: lac Z'+ instead of lac Z'- in the bacteriophage DNA. This is revealed by phenotypical expression of the lac Z' gene product in replicating bacteriophage, i.e. the formation of blue instead of white plaques. The frequency of recombination (blue/total plaques) is increased by a factor of 50-80 as a function of protein concentration and of incubation time. The maximal frequency observed is 5 X 10(-5). There is no increase over the background when extracts are boiled. Electrophoresis and electron microscopy of DNA's incubated with the extracts show the formation of recombination intermediates with single strand exchange. Restriction analysis of recombined DNA confirms that the process corresponds to targeted sequence exchange. These data allow to propose three steps for homologous recombination between two duplex DNA's: i) unpairing of the two duplexes; ii) single-strand exchange and synaptic pairing; iii) resolution of the cross-junctions. The three steps correspond to those predicted by the gene conversion model of Holliday.  相似文献   

3.
4.
The sequence of gene 63 of bacteriophage T4 was determined by a shotgun approach. Small DNA fragments, derived by sonication of a restriction fragment that encompasses the region of gene 63, were cloned in M13 vectors and sequenced by the 'dideoxy' method. The position of the gene was established by comparison with the sequence of a gene 63 amber mutant. Knowledge of the DNA sequence of gene 63 and surrounding regions has allowed the construction of a clone of gene 63 in which RNA ligase production is under the control of the lac promoter of bacteriophage M13mp8. Infected E. coli cells can be induced to produce a protein indistinguishable from commercially available RNA ligase.  相似文献   

5.
Single-stranded oligonucleotides (ssODNs) and zinc-finger nucleases (ZFNs) are two approaches that are being pursued to achieve sequence specific genome modification. ZFNs induce high rates of homologous recombination (HR) between the target sequence and a given donor by introducing site-specific genomic double-strand breaks (DSBs). The mode of action that is used by ssODNs remains largely unknown, but may involve genomic integration of the ssODNs. In this work, cellular responses following ssODN and ZFN mediated correction of a genomic reporter gene have been investigated in human cells. Comparison of the cell cycle distribution of corrected cells following ssODN or ZFN exposure, established that ssODN corrected cells were arrested in the late S and G2/M cell cycle phases, while ZFN corrected cells displayed normal cell cycle profiles. We demonstrate that after ssODN mediated gene correction, phosphorylation of the damage sensor protein H2AX could be observed in 5.8% and 29% of the corrected cells, using a single copy and a multi copy reporter, respectively. When using the ZFN strategy in a single copy reporter only 1.5% of the corrected cells were positive for γ-H2AX staining. By direct detection of genomic DSBs we establish that the observed cell cycle arrest following ssODN mediated gene correction could be associated with the presence of unrepaired genomic DSBs. Lastly, we establish that although a mutant cellular mismatch repair (MMR) system as expected enhanced ssODN mediated gene correction, the capacity of the ssODN corrected cells to proliferate was not influenced by the MMR system. In conclusion gene correction by means of the ssODN strategy leads to activation of DNA damage signalling and cell cycle arrest due to formation of unrepaired genomic DSBs in a high proportion of the corrected cells. On the contrary, cells corrected using ZFNs displayed normal cell cycle distribution and lower rates of DNA damage.  相似文献   

6.
We have investigated whether DNA polymerase IV (Pol IV; the dinB gene product) contributes to the error rate of chromosomal DNA replication in Escherichia coli. We compared mutation frequencies in mismatch repair-defective strains that were either dinB positive or dinB deficient, using a series of mutational markers, including lac targets in both orientations on the chromosome. Virtually no contribution of Pol IV to the chromosomal mutation rate was observed. On the other hand, a significant effect of dinB was observed for reversion of a lac allele when the lac gene resided on an F'(pro-lac) episome.  相似文献   

7.
A runaway-replication plasmid pSY343 contains two ssi signals   总被引:5,自引:0,他引:5  
J D Bahk  N Kioka  H Sakai  T Komano 《Plasmid》1988,20(3):266-270
Taking advantage of the plaque morphology method, we detected two single-stranded initiation (ssi) signals in the plasmid pSY343; one was in the 170-nucleotide (nt) EcoRV-ThaI segment (170P), and the other was in the 93-nt DraI-FnuDII segment (93F), which were designated as ssiA and ssiB, respectively. We cloned the two ssi signals in the filamentous phage vectors M13 delta lac184 and flR199. A conserved 7-nt consensus sequence involved in the n' recognition site for priming DNA initiation on single-stranded (ss) DNA templates (A. Van der Ende, R. Teerstra, H. Van der Avoort, and P.J. Weisbeek, 1983, Nucleic Acids Res. 11, 4957-4975) was found, three copies in 170P and one in 93F. These two ssi signals contain possible stem and loop structures. The 170P overlapped partly with the origin (ori) region of pSY343 and the 93F was away from the ori region. Growth of chimera phages such as M13 delta lac184/ssiA and M13 delta lac184/ssiB was 38- and 71-fold greater, respectively, than that of M13 delta lac184, 8 h after phage infection. The conversion efficiency in vivo of ss to replicative form (RF) DNA of these chimera phages carrying ssiA and ssiB was 1.9- and 2.2-fold greater, respectively, than that of M13 delta lac184, 50 min after infection.  相似文献   

8.
9.
The efficiency of in vivo correction of five "mismatch analogues", incorporated into M13mp9 DNA, was studied in an attempt to elucidate the structural determinants required for mismatch recognition by the repair machinery of E. coli. Inosine was efficiently removed from an I/T mismatch, presumably by the action of hypoxanthine glycosylase. The mismatch analogues DI/T (DI = 7-deazainosine), Tu/C (Tu = tubercidin), N/C (N = nebularine) and DN/C (DN = 7-deazanebularine) were left largely unrepaired, giving rise to high yields of mutant phenotype. The efficiency of correction of these mismatch analogues could be correlated with their structure within the base-pair.  相似文献   

10.
A system for shotgun DNA sequencing.   总被引:848,自引:197,他引:651       下载免费PDF全文
A multipurpose cloning site has been introduced into the gene for beta-galactosidase (beta-D-galactosidegalactohydrolase, EC 3.21.23) on the single-stranded DNA phage M13mp2 (Gronenborn, B. and Messing, J., (1978) Nature 272, 375-377) with the use of synthetic DNA. The site contributes 14 additional codons and does not affect the ability of the lac gene product to undergo intracistronic complementation. Two restriction endonuclease cleavage sites in the viral gene II were removed by single base-pair mutations. Using the new phage M13mp7, DNA fragments generated by cleavage with a variety of different restriction endonucleases can be cloned directly. The nucleotide sequences of the cloned DNAs can be determined rapidly by DNA synthesis using chain terminators and a synthetic oligonucleotide primer complementary to 15 bases preceeding the new array of restriction sites.  相似文献   

11.
We reacted uracil-containing M13mp2 DNA with N-hydroxy-2-aminofluorene to produce a template with N-(deoxyguanosin-8-yl)-2-aminofluorene adducts. This template was hybridized to a non-uracil-containing linear fragment from which the lac z complementing insert had been removed to produce a gapped substrate. DNA synthesis using this substrate with the modified T7 DNA polymerase Sequenase led to an increase in the number and frequency of lac- mutations observed. Escherichia coli DNA polymerase I (Kf) did not yield a comparable increase in mutation frequency or number even though both Sequenase and the E. coli polymerase had similar, low, 3'----5' exonuclease activities as compared to T4 DNA polymerase. We did not observe an increase in mutations when synthesis was attempted on a template reacted with N-acetoxy-2-(acetylamino)fluorene to give N-(deoxyguanosin-8-yl)-2-(acetylamino)fluorene adducts. Both E. coli and T7 enzymes terminate synthesis before all (acetylamino)fluorene lesions. Only some of the putative aminofluorene adducts produced strong termination bands, and there was a difference in the pattern generated by Sequenase and E. coli pol I (Kf) using the same substrate. Analysis of the mutations obtained from Sequenase synthesis on the aminofluorene-containing templates indicated a preponderance of -1 deletions at G's and of G----T transversions.  相似文献   

12.
将编码噬菌体T7RNA聚合酶的基因克隆至噬菌体M13mpl8RFDNA中,置于lac启动子的控制之下,得到了可表达T7 RNA聚合酶的重组噬菌体M13HEP。利用该噬菌体感染含T7启动子表达质粒的宿主菌以提供T7RNA聚合酶,可以诱导T7启动子控制下的外源基因的表达。该噬茵体诱导表达系统已成功地表达了多种外源基因,特别是一些表达产物对宿主菌有毒性的基因。同时,通过细菌接合将F',因子从大脑杆菌XL1-blue转至大肠杆菌HMS174,构建了新的大脑杆菌菌株HMSl74F,,使得T7表达质粒构建、表达及单链制备可以在同一菌株中完成,得到了一个完整的T7表达系统。  相似文献   

13.
A 74-bp DNA sequence coding for the pre sequence of human preproinsulin and containing EcoRI termini was synthesized by the chemical enzymatic method, joined with previously synthesized proinsulin DNA, and cloned in the M 13mp8 vector. A clone pNB82 -121 was identified by DNA sequence which confirmed the correct orientation of the pre sequence to the proinsulin DNA. The EcoRI site at the junction of pre- and proinsulin DNA was eliminated by removing a triplet ATT using a synthetic 19-mer primer. To simplify preproinsulin isolation and to study its expression in the M 13 system, a 25-bp affinity leader sequence coding for (glu)7 was inserted at the remaining EcoRI site; this put the preproinsulin DNA in a correct reading frame with the AUG initiation codon of beta-galactosidase. Preproinsulin was expressed under lac promoter control as analyzed by a radioimmunoassay (RIA) against C-peptide.  相似文献   

14.
The chromosomal lac region of the coliform bacterium Klebsiella M5al was cloned into the multicopy plasmid pBR322 to give pHE7 and pHE8. pHE8 contains 12.6 kb of M5al DNA, including its complete lac operon, and pHE7 contains 2.5 kb of M5al DNA and includes the complete lac Y gene and a small segment of lacZ. The M5al operon has the same gene order as the Escherichia coli lac operon. The lac genes of the Lac plasmid of Klebsiella V9A were cloned into pBR322 to give pHE1 and pHE2, of approximately 39 and 43 kb. Both plasmids were unstable in an E. coli RecA-strain, in contrast to the stability of pHE8. Polyacrylamide gel electrophoresis tests suggested that the M5al beta-galactosidase monomer is about 5% longer, i.e. has about 50 more amino acids, than that of the E. coli Z gene. Tests made on the enzymes coded by the lac operons of M5al, another Klebsiella strain (V9A) and its resident Lac plasmid, and several Lac+ Enterobacteria, led to the conclusion that only Escherichia coli among the Enterobacteria contains an active lacA gene.  相似文献   

15.
The bacteriophage lambda early promoter PR has been used to direct the synthesis of lac alpha in a plasmid containing the multiple cloning site of pUC8. The copy number of the plasmid is controlled by the rop(rom) gene and the plasmid incorporates the cI857 gene for temperature regulation of lac alpha expression. Isolation of recombinant derivatives with DNA inserts in the multiple cloning region can be identified by insertional inactivation of lac alpha and consequently, a Lac- phenotype in a host carrying the M15 deletion of lac. The potential of pHG276 as a fully regulated expression vector is examined.  相似文献   

16.
An efficient method to obtain the mutant genes for human leucocyte alpha 2-interferon (IFN) has been elaborated.The technique includes the following main stages: cloning of interferon gene in M13mp8 DNA; isolation of double-stranded hybrid DNA complex, containing IFN gene as a single-stranded fragment; selective modification of a single-stranded hybrid DNA by sodium bisulphite; the repair of hybrid DNA by DNA polymerase I from Escherichia coli, transformation of Escherichia coli JN103 cells by double-stranded circular DNA, containing the selectively modified gene IFN. The technique is based on the protection of bacteriophage M13 genome from mutagen induced damage by means of converting phage DNA into the double-stranded structure leaving the single-stranded fragment to be mutagenized prone to mutagen action. This is achieved by reannealing of single-stranded M13mpB DNA hydrolyzed by restriction endonuclease BamHI. The technique preserves the infectiousness of vector DNA under the conditions permitting modification of up to 10% cytosine residues in IFN gene. Every clone resulting from transformation of Escherichia coli by modified DNA carried mutations in IFN gene, identified by sequencing after Sanger.  相似文献   

17.
A system to characterize mutations arising from in vitro nucleotide misincorporation, which avoids the effects of in vivo mismatch repair on recovery of mutants, was constructed and evaluated. The lacI gene of Escherichia coli was inserted into phage M13 and the M13-lacI recombinant was introduced into a strain of E. coli lacking a resident lacI gene. In this system the function of the M13-bearing lacI gene can be detected by plaque color. Mutants in the 5'-region of the lacI gene (encoding operator-binding domain) are seen as blue plaques when the host strain is grown in the presence of chromogenic substrate, X-gal, in the absence of inducer. The use of uracil-containing single stranded DNA from M13-lacI as template for DNA synthesis avoids the contribution of mismatch repair (in transfection recipients) on the recovery of mutants. To demonstrate the usefulness of the M13-lacI system we produced nucleotide misincorporations by in vitro DNA synthesis in the N-terminal region of the lacI template in the presence of only 3 deoxynucleoside triphosphates (dNTPs). Such mutagenic reactions were conducted in the absence of dATP with 4 different primers and in the absence of dGTP with 2 primers. The type of mutants produced by these reactions were identified through sequencing of DNA from progeny phage after screening for i- (blue plaque) phenotype. Mutations recovered in this system consisted of single and multiple base substitutions in the region of the template near the 3'-terminus of the primer. Nearly all of the mutants induced by '-A' conditions were T----C base substitutions, and those induced by '-G' conditions were C----T transitions. In general, the results were consistent with the spectrum of spontaneous mutants produced in strains deficient in mismatch repair, although some differences were noted. Several new base substitutions within the lacI gene (producing i- phenotype and unobserved by others) were isolated by the procedures described in this paper.  相似文献   

18.
R. M. Schaaper 《Genetics》1989,121(2):205-212
We have previously reported that the Escherichia coli mutator strain mutD5 was defective in the correction of bacteriophage M13mp2 heteroduplex DNA containing a T.G mismatch. Here, this defect was further investigated with regard to its interaction with the mutHLS pathway of mismatch repair. A set of 15 different M13mp2 heteroduplexes was used to measure the mismatch-repair capability of wild-type, mutL and mutD5 cells. Throughout the series, the mutD5 strain proved as deficient in mismatch repair as the mutL strain, indicating that the repair defect is similar in the two strains in both extent and specificity. [One exception was noted in the case a T.G mispair that was subject to VSP (Very Short Patch) repair. VSP repair was abolished by mutL but not by mutD.] Variation in the dam-methylation state of the heteroduplex molecules clearly affected repair in the wild-type strain but had no effect on either the mutD or mutL strain. Finally, mutDmutL or mutDmutS double-mutator strains were no more deficient in mismatch repair as were the single mutator strains. The combined results strongly argue that the mismatch-repair deficiency of mutD5 cells resides in the mutH,L,S-dependent pathway of mismatch repair and that the high mutation rate of mutD strains derives in part from this defect.  相似文献   

19.
Methyl-directed DNA mismatch correction   总被引:51,自引:0,他引:51  
  相似文献   

20.
The correction of disease-causing mutations by single-strand oligonucleotide-templated DNA repair (ssOR) is an attractive approach to gene therapy, but major improvements in ssOR efficiency and consistency are needed. The mechanism of ssOR is poorly understood but may involve annealing of oligonucleotides to transiently exposed single-stranded regions in the target duplex. In bacteria and yeast it has been shown that ssOR is promoted by expression of Redβ, a single-strand DNA annealing protein from bacteriophage lambda. Here we show that Redβ expression is well tolerated in a human cell line where it consistently promotes ssOR. By use of short interfering RNA, we also show that ssOR is stimulated by the transient depletion of the endogenous DNA mismatch repair protein MSH2. Furthermore, we find that the effects of Redβ expression and MSH2 depletion on ssOR can be combined with a degree of cooperativity. These results suggest that oligonucleotide annealing and mismatch recognition are distinct but interdependent events in ssOR that can be usefully modulated in gene correction strategies.  相似文献   

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