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The gene for the thymidine kinase (TK) of Herpes simplex virus type 1 (HSV-1) is located in the KpnI m and BamHI p fragments of the genome (Wigler et al., Cell 11, 223-232 (1977)). These fragments have been inserted into the EcoRI and BamHI sites, respectively, of plasmid pBR322, and propagated in E.coli. The TK gene contained in the recombinant plasmids was shown to be biologically active when introduced into TK- mouse L cells. Detailed restriction site maps of the BamHI p fragment have been constructed and the approximate location of the TK gene has been determined. Mouse cells transformed with cloned HSV-1 tk+ DNA produced HSV-1-specific thymidine kinase; superinfection with HSV-1 tk- virus increased the level of TK activity tenfold, suggesting that the BamHI p sequences present in transformed cells respond to virus-encoded regulatory gene product(s).  相似文献   

4.
A 12.0-kilobase EcoRI restriction fragment containing FBJ murine osteosarcoma virus (FBJ-MSV) proviral DNA was identified in FBJ-MSV-transformed nonproducer rat cells and molecularly cloned in bacteriophage Charon 30 (lambda FBJ-1). A 5.8-kb HindIII fragment containing the entire FBJ-MSV proviral DNA was isolated from lambda FBJ-1 and subsequently subcloned in plasmid pBR322 (pFBJ-2). The DNA from recombinant plasmid pFBJ-2 was able to induce morphological transformation of rat fibroblasts in tissue culture. Transfected cells contained the p55 and p39 antigens specific for cells transformed by FBJ-MSV (T. Curran and N. M. Teich, J. Virol. 42:114-122, 1982). The organization of the FBJ-MSV provirus was analyzed by restriction endonuclease mapping, and a region of nonhomology with the helper virus was delineated. Sequences specific for this region (presumably the viral fos gene) were subcloned and used as a probe to identify related sequences present in the normal genomes of cells from a variety of mammalian species (cellular fos). A single-size (3.4 kilobases long) class of RNA hybridizing to the viral fos probe was identified in FBJ-MSV-transformed cells.  相似文献   

5.
Summary A fragment of Escherichia coli bacteriophage T4D DNA, containing 6.1 Kbp which included the six genes (genes 25, 26, 51, 27, 28 and 29) coding for the tail baseplate central plug has been partially characterized. This DNA fragment was obtained originally by Wilson et al. (1977) by the action of the restriction enzyme EcoRI on a modified form of T4 DNA and was inserted in the pBR322 plasmid and then incorporated into an E. coli K12 strain called RRI. This plasmid containing the phage DNA fragment has now been reisolated and screened for cleavage sites for various restriction endonucleases. Restriction enzymes Bgl 11 and Xbal each attacked one restriction site and the enzyme Hpa 1 attacked two restriction sites on this fragment. The combined digestion of the hybrid plasmid containing the T4 EcoRI DNA fragment conjugated to the pBR322 plasmid with one of these enzymes plus Bam H1 restriction enzyme resulted in the localization of the restriction site for Bgl 11, Xba 1 and Hpa 1. Escherichia coli strain B cells were transformed with this hybrid plasmid and found to have some unexpected properties. E. coli B cells, which are normally restrictive for T4 amber mutants and for T4 temperature sensitive mutants (at 44°) after transformation, were permissive for 25am, 26am and 26Ts, 51am, and 51Ts, 27Ts, and 28Ts T4 mutants. Extracts from the transformed E. coli cells were found in complementation experiments to contain the gene 29 product, as well as the gene 26 product, the gene 51 product, and the gene 27 product. The complementation experiments and the permissiveness of the transformed E. coli B cells to the various conditional lethal mutants clearly showed that the six T4 genes were producing all six gene products in these transformed cells. However, these cells were not permissive for T4 amber mutants in genes 27, 28, and 29. The transformed E. coli B cells, as compared to untransformed cells, were found to have altered outer cell walls which made them highly labile to osmotic shock and to an increased rate of killing by wild type T4 and all T4 amber mutants except for T4 am29. The change in cell walls of the transformed cells has been found to be due to the T4 baseplate genes on the hybrid plasmid, since E. coli B transformed by the pBR322 plasmid alone does not show the increase in osmotic sensitivity.  相似文献   

6.
Fujinami sarcoma virus (FSV) and PRCII are avian sarcoma viruses which share cellularly derived v-fps transforming sequences. The FSV P140gag-fps gene product is phosphorylated on three distinct tyrosine residues in transformed cells or in an in vitro kinase reaction. Three variants of FSV, and the related virus PRCII which lacks about half of the v-fps sequence found in FSV, encode gene products which are all phosphorylated at tyrosine residues contained within identical tryptic peptides. This indicates a stringent conservation of amino acid sequence at the tyrosine phosphorylation sites which presumably reflects the importance of these sites for the biologic activity of the transforming proteins. Under suitable conditions the proteolytic enzymes p15 and V8 protease each introduce one cut into FSV P140, p15 in the N-terminal gag-encoded region and V8 protease in the middle of the fps-encoded region. Using these enzymes we have mapped the major site of tyrosine phosphorylation to the C-terminal end of the fps region of FSV P140gag-fps. A second tyrosine phosphorylation site is found in the fps region of FSV P140 isolated from transformed cells, and a minor tyrosine phosphorylation site is found in the N-terminal gag-encoded region. Our results suggest that the C-terminal fps-encoded region is required for expression of the tyrosine-specific protein kinase activity.  相似文献   

7.
A recombinant plasmid based on pBR322 has been constructed which carries the replicator proximal early region of SV40 DNA, including the viral origin of replication (ORI). It lacks a major part of the tumour antigen 3'-coding region, the large T-antigen termination codon and the polyadenylation site. The recombinant plasmid was transferred together with the herpes simplex virus thymidine kinase gene, as a selectable marker into mouse LTK- cells. Integration and expression of the cloned SV40 gene fragment in TK+ transformants could be demonstrated by DNA restriction and blot hybridization and by immunofluorescence techniques.  相似文献   

8.
The Fujinami avian sarcoma virus (FSV) transforming gene product, P140, is a fusion protein which contains both gag-related and FSV-specific methionine-containing tryptic peptides. The virion protease p15 cleaved p140 into two fragments: an N-terminal 33K fragment which contained all but one of the gag-related tryptic peptides and a C-terminal 120K fragment which contained all of the FSV-specific tryptic peptides. The 33K gag-related fragment from P140 phosphorylated in FSV-transformed cells contained only phosphoserine, whereas the 120K C-terminal FSV-specific fragments contained both phosphoserine and phosphotyrosine. P140 isolated from cells infected at the nonpermissive temperature with an isolate of FSV which is temperature sensitive for transformation had a normally phosphorylated 33K fragment, but a hypophosphorylated 120K fragment deficient in both phosphotyrosine and phosphoserine. When P140 was immunoprecipitated from cells and phosphorylated in vitro at tyrosine residues in the immune complex kinase reaction, only the FSV-specific fragment was labeled. These data define the structure of FSV P140 and locate the phosphorylated amino acids within the two regions of the polypeptide.  相似文献   

9.
The beta-galactosidase gene from the chromosome of Streptococcus thermophilus, strain 6 kb, has been cloned on a vector plasmid pBR322. The corresponding gene has been found to be located on the Pst1 DNA fragment. The restriction map of this 6 kb fragment has been constructed. The shortening of the DNA fragment carrying the beta-galactosidase gene has been achieved by digestion of the recombinant derivative of pBR322 by the restriction endonuclease Sau3A under the conditions of incomplete hydrolysis. The obtained fragments have been cloned into the BamHI site in the berepliconed shuttle vector pCB20 for grampositive and gramnegative bacteria. The obtained recombinant plasmids contained the beta-galactosidase gene in the inserted fragments of different length. Expression of the cloned beta-galactosidase gene in Escherichia coli and Bacillus subtilis cells has been studied.  相似文献   

10.
We successively subcloned the dnaE gene of Escherichia coli into pBR322, resulting in a plasmid that contains 4.6 kilobases of E. coli DNA. This plasmid can complement a dnaE temperature-sensitive mutation. A restriction map of the dnaE gene and the surrounding 10.7-kilobase region of the E. coli chromosome was determined. A unique HindIII restriction endonuclease site within the cloned segment of DNA was identified as a site required for expression of the dnaE gene. By using the maxicell plasmid-directed protein synthesizing system, we demonstrated that dnaE codes for the alpha subunit of DNA polymerase III.  相似文献   

11.
Development of cloning vehicles from the Streptomyces plasmid pFJ103   总被引:8,自引:0,他引:8  
A 20-kb plasmid, pFJ103, was isolated from a strain of Streptomyces granuloruber. A restriction endonuclease map of the plasmid was constructed. A Streptomyces gene that specifies resistance to the antibiotic thiostrepton was subcloned into Escherichia coli plasmid pBR322, inserted into pFJ103 and transformed into Streptomyces ambofaciens protoplasts. Two classes of transformants were obtained. One carries the pFJ104 plasmid consisting of the entire pFJ103 with the 1.8-kb thiostrepton resistance gene insert. The other carries the pFJ105 plasmid consisting of the 2.9-kb replicon segment of pFJ103 with the same thiostrepton resistance insert. A gene for neomycin resistance together with the entire E. coli pBR322 plasmid were cloned into pFJ105. The resulting E. coli-Streptomyces bifunctional vector, pFJ123, transformed both E. coli and Streptomyces. The small size of pFJ105, its ease of isolation, and efficient transformation of Streptomyces protoplasts establishes it, and its derivatives, as useful plasmid cloning vehicles for fundamental and applied studies  相似文献   

12.
Several clones of Fujinami sarcoma virus (FSV) isolated from a laboratory stock or from mutagenized virus were temperature sensitive (ts) in transformation of cells in culture. When shifted from the permissive (37°C) to the nonpermissive (41.5°C) temperature, the cellular phenotype reverted to normal within 2 h, but it required about 48 h at 37°C to revert back to the transformed morphology. A temperature-resistant (tr) FSV clone was isolated from a tumor of an animal. All ts mutants were tumorigenic in animals but induced tumors only after latent periods of 12 to 25 days, compared to 5 to 6 days with tr virus. The ts lesions of the FSV mutants affected 90% of the phosphorylation of the nonstructural, gag-related 140,000-kilodalton phosphoprotein coded by FSV (p140), but did not affect virus replication or the synthesis of p140. Upon shifting from the permissive to the nonpermissive temperature, p140 was 90% dephosphorylated with an approximate 32P half-life of 20 min. When shifted back to the permissive temperature, the preexisting p140 was rephosphorylated in the absence of protein synthesis within a 90-min test period. Likewise, most of the phosphate of fully phosphorylated p140 was exchanged at the permissive temperature within 30 to 90 min even when protein synthesis was inhibited. However, the protein structure of p140 had a half-life of 5 h at both temperatures. These results prove p140 to be a substrate of reversible phosphorylation. Superinfection and transformation of ts FSV-infected cells maintained at the nonpermissive temperature with acute leukemia virus MC29 failed to phosphorylate p140. It would follow that in vivo phosphorylation of ts p140 is controlled by an FSV-specific mechanism and is a prerequisite, not a consequence, of transformation. p140 of ts FSV recovered from cells maintained at 41.5°C with anti-gag serum was over 10 times less phosphorylated by associated kinase than the same protein recovered from cells at 37°C if assayed in vitro at 20°C. This kinase activity associated with or dissociated from p140 with a half-life of less than 30 min during temperature shifts of ts FSV-infected cells. However, p140 recovered from ts FSV-infected cells maintained at 37°C was phosphorylated by associated kinase in vitro not only at 20°C but also, and essentially at the same level, at 41.5°C. This suggests that the kinase associated with the immunocomplex of p140 of ts FSV is not temperature sensitive. p140 translated in vitro from ts and tr FSV RNA lacked kinase activity. We conclude that a fully phosphorylated p140 is necessary for the maintenance of transformation by FSV. This is consistent with the notion that other highly oncogenic viruses also code for nonstructural phosphoproteins with probable transforming function. A model which postulates that p140 is a substrate of reversible phosphorylation and that the lesion of the ts FSV clones described herein affects association of p140 with a cellular kinase rather than a hypothetical intrinsic kinase activity of the protein is most compatible with our data.  相似文献   

13.
Identification of several additional restriction endonuclease sites within the cellular substitution (amv) inserted into the avian myeloblastosis virus proviral genome has permitted us to isolate different regions of the amv sequence. These subsets of the avian myeloblastosis virus transforming gene have been cloned in the plasmid pBR322 and used as hybridization probes to investigate the topology of homologous (proto-amv) normal chicken DNA sequences. The results showed that the cellular proto-amv sequences in C/O chicken DNA are interrupted by at least one intervening sequence. A partial arrangement of the proto-amv sequences is presented.  相似文献   

14.
Escherichia coli cells lysogenic for coliphage phi 80 stop adsorbing the superinfecting phi 80 phage after having been kept under anaerobic conditions for a long time, which conferred on these cells the TonA phenotype. To determine the location of the gene for lysogenic conversion (cor), BamHI fragments of phi 80 DNA were cloned in pBR322 plasmid. The cells transformed with the recombinant plasmid pDK01 = pBR322 + phi 80 BamHI fragment 1 immediately acquire the TonA phenotype. So, the cor gene(s) is contained in the central phi 80 BamHI fragment (fragment 1) which includes gene 13, the b2 region and the att site.  相似文献   

15.
A gene (gshI) responsible for gamma-glutamylcysteine synthetase (GSH-I) activity was cloned to construct an Escherichia coli B strain having high glutathione synthesizing activity. For this purpose, two E. coli B mutants (strains C912 and RC912) were used. C912 was deficient in GSH-I activity. RC912, a revertant of C912, had a GSH-I activity that was desensitized to feedback inhibition of reduced glutathione. To clone gshI, chromosomal DNAs of RC912 and plasmid vector pBR322 were digested with various restriction endonucleases and then ligated with T4 DNA ligase. The whole ligation mixture was used to transform C912, and the transformants were selected as tetramethylthiuramdisulfide-resistant colonies. Of about 20 resistant colonies, 2 or 3 became red when treated with nitroprusside and showed appreciably high GSH-I activities. The chimeric plasmid DNA, designated pBR322-gshI, was isolated from the strain having the highest GSH-I activity and transformed into RC912. The structure and molecular size of pBR322-gshI in RC912 were determined. The molecular size of this plasmid was 6.2 megadaltons, and the plasmid contained a 3.4-megadalton segment derived from RC912 chromosomal DNA, which included gshI gene. The GSH-I activity of RC912 cells containing pBR322-gshI was fourfold higher than that of RC912 cells without pBR322-gshI.  相似文献   

16.
A gene (gshI) responsible for gamma-glutamylcysteine synthetase (GSH-I) activity was cloned to construct an Escherichia coli B strain having high glutathione synthesizing activity. For this purpose, two E. coli B mutants (strains C912 and RC912) were used. C912 was deficient in GSH-I activity. RC912, a revertant of C912, had a GSH-I activity that was desensitized to feedback inhibition of reduced glutathione. To clone gshI, chromosomal DNAs of RC912 and plasmid vector pBR322 were digested with various restriction endonucleases and then ligated with T4 DNA ligase. The whole ligation mixture was used to transform C912, and the transformants were selected as tetramethylthiuramdisulfide-resistant colonies. Of about 20 resistant colonies, 2 or 3 became red when treated with nitroprusside and showed appreciably high GSH-I activities. The chimeric plasmid DNA, designated pBR322-gshI, was isolated from the strain having the highest GSH-I activity and transformed into RC912. The structure and molecular size of pBR322-gshI in RC912 were determined. The molecular size of this plasmid was 6.2 megadaltons, and the plasmid contained a 3.4-megadalton segment derived from RC912 chromosomal DNA, which included gshI gene. The GSH-I activity of RC912 cells containing pBR322-gshI was fourfold higher than that of RC912 cells without pBR322-gshI.  相似文献   

17.
A fragment of Escherichia coli chromosome containing the intact threonine operon or its distinct genes has been cloned on the pBR322 plasmid. This fragment has been mapped using some restriction endonucleases. Cloning results in an increased level of appropriate enzyme activity in cells containing hybrid plasmids. Those carrying the complete threonine operon are capable of accumulating threonine up to 5 g/l in culture medium during 48 h. When multi-copy plasmids are used for gene cloning, interpretation of experiments aimed at transformation of auxotrophic bacterial strains, might be complicated. For example, transformation of appropriate threonine auxotrophs by a hybrid plasmid carrying mutation in the threonine gene, might result in prototrophic phenotype. It is possible that the great amount of mutant enzyme molecules compensated their low activity. On the contrary, the presence of a gene within the plasmid, as shown by restriction and biochemical analysis, did not always ensure the growth on a minimal medium of auxotrophs transformed by this plasmid.  相似文献   

18.
DNA from the replication control region of plasmid NR1 or of the Inc- copy mutant pRR12 was cloned into a pBR322 vector plasmid. These pBR322 derivatives were mutagenized in vitro with hydroxylamine and transformed into Escherichia coli cells that harbored either NR1 or pRR12. After selection for the newly introduced pBR322 derivatives only, those cells which retained the unselected resident NR1 or pRR12 plasmids were examined further. By this process, 134 plasmids with Inc- mutations in the cloned NR1 or pRR12 DNA were obtained. These mutants fell into 11 classes. Two of the classes had plasmids with deletions or insertions in the NR1 DNA and were not examined further. Plasmids with apparent point mutations were classified by examining (i) their ability to reconstitute a functional NR1-derived replicon (Rep+ or Rep-), (ii) the copy numbers of the Rep+ reconstituted replicons, (iii) the cross-reactivity of incompatability among the various mutant classes and parental plasmids, and (iv) the trans effects of the mutants on the copy number and stable inheritance of a coresident plasmid.  相似文献   

19.
A 4.84-kilobase-pair plasmid was isolated from Proteus vulgaris (ATCC 13315) and cloned into the plasmid vector pBR322. Plasmid pBR322 contains substrate sites for the restriction endonucleases PvuI and PvuII. The recombinant plasmids were resistant to in vitro cleavage by PvuII but not PvuI endonuclease and were found to cause production of PvuII endonuclease or methylase activity or both in Escherichia coli HB101. The approximate endonuclease and methylase gene boundaries were determined through subcloning, Bal 31 resection, insertional inactivation, DNA-dependent translation, and partial DNA sequencing. The two genes are adjacent and appear to be divergently transcribed. Most E. coli strains tested were poorly transformed by the recombinant plasmids, and this was shown by subcloning and insertional inactivation to be due to the PvuII methylase gene. At a low frequency, stable methylase-producing transformants of a methylase-sensitive strain were obtained, and efficiently transformed cell mutants were isolated from them.  相似文献   

20.
A 140 base-pair DNA segment situated just upstream of the kanamycin resistance gene of transposon Tn2350, a transposon carried by the plasmid R1, was found to act as an origin of replication and allow autonomous replication of a plasmid composed only of the segment and of the tetracycline resistance gene of pBR322. This segment also promotes site-specific recombination: when cloned in pBR322 it promotes multimer formation in a recA- strain. If two copies are cloned on the same plasmid they promote either deletion or inversion of the intervening region, depending on their orientation relative to each other. DNA gyrase seems to be involved in this process since the inversion rate, in a plasmid carrying sequences in opposite orientations, varies in different nalidixic acid-resistant strains (gyr A mutants) independently isolated.  相似文献   

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