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R G Nivinskas 《Genetika》1988,24(1):34-41
An attempt has been made to clone six BglII fragments of T4 DNA in the range of 3.3-8.1 kb in the vector plasmid pSCC31 containing a single BglII site within the gene for endonuclease EcoRI and pL promoter of phage lambda. DNA fragments were extracted from the corresponding bands of agarose gel. The following BglII fragments were cloned: the 3.3 kb fragment No. 9 containing a portion of gene 20, the gene 21 and a portion of gene 22; the 4.2 kb fragment No. 8.1 with genes 17, 18, 19 and a portion of gene 20; the 5.2 kb fragment No. 7.1 with genes 25-29 and a portion of gene 48. In the case of the fragment No. 7.1, the recombinant plasmids pRL705 and pRL707 with different orientation of phage DNA fragment were obtained. An attempt to clone the fragments No. 8.2 (4.2 kb), No. 7.2 (5.45 kb) and No. 6 (8.1 kb) was unsuccessful and this probably indicates the presence of the genes, whose products are deleterious to the growth of bacterial cell.  相似文献   

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Summary The EcoRI digestion products of phage T4 DNA have been examined using a phage DNA transformation assay. A 2.6x106 Dalton fragment was found to contain the rII genes. This fragment was purified and then treated with HindIII endonuclease. The cleavage products were ligated to the vector plasmid pBR313 and viable recombinant plasmids recovered. A genetic assay was employed to demonstrate that the recombinants contained T4 DNA and to localize on the phage genetic map the EcoRI and HindIII sites cleaved during the construction of the plasmids. Preliminary characterization suggests that a fragment covering the beginning of the rIIA gene possibly contains a promotor which is active in uninfected cells.Abbreviations used Ap ampicillin - Tc tetracycline - Mdal 106 Daltons - bp base pairs  相似文献   

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The EcoRI and HindII restriction endonucleases and pBR325 vector plasmid were used to obtain a set of hybrid plasmids containing ColIb-P9 fragments carrying the characters for colicin Ib synthesis and immunity and the ability to inhibit T5 phage growth. The genes responsible for colicin synthesis and immunity are closely linked and localized in the EcoRI fragment with a molecular weight of 1.85 MD (pIV41) or in the HindII fragment of 2.4 MD (pIV1). The clones containing these plasmids show an increased level of both spontaneous and mitomycin C-induced colicin synthesis and an increased level of immunity due to a larger dosage of the genes. The genes controlling T5 growth inhibition are localized in other restriction fragments of ColIb DNA: the EcoRI fragment of 1.45 MD (pIV7) and the HindII fragment of 4.3 MD (pIV5). We have demonstrated by means of hybrid plasmids that T5 growth inhibition is not connected with the colicin Ib synthesized in infected cells and is controlled by other specific product(s) of the ColIb plasmid genes. T5 phage growth was as efficient in clones containing plasmids with cloned colicin Ib genes as in a strain without plasmids. An investigation of the expression of the genes inhibiting T5 phage growth in an in vitro protein synthesis system has revealed a protein with a molecular weight of 36 000 which seems to take part in the process.  相似文献   

8.
The erythromycin resistance gene (ermE) and part of erythromycin biosynthesis genes located in the same cluster with the ermE gene were cloned from S. erythraeus 3 subjected to improvement with respect to erythromycin production. For isolating the erythromycin biosynthesis genes, the plasmid vector pUC18 and the phage vector lambda EMBL3 were used. The ermE gene DNA was used as a labeled probe for analysis of the recombinant plasmids and phages. The recombinant phages lambda ermE1 and ermE4 containing fragments of the chromosomal DNA collinear to the genome DNA of S. erythraeus 3 were analyzed. The size of the cloned fragment of the chromosomal DNA of S. erythraeus 3 was about 20 kb. Subcloning with the vector pUS18 resulted in isolation of plasmids pSU235-pSU244 containing BamHI fragments of chromosomal DNA from S. erythraeus 3. The restriction map of the chromosomal region of S. erythraeus 3 containing the ermE gene was constructed. The cloned genes of erythromycin biosynthesis are useful in the study of their structure and functions, construction of integrative vectors, improvement of cultures producing macrolide antibiotics and isolation of genes responsible for biosynthesis of other polyketide antibiotics.  相似文献   

9.
Organization and transcription of the dnaA and dnaN genes of Escherichia coli   总被引:13,自引:0,他引:13  
Y Sakakibara  H Tsukano  T Sako 《Gene》1981,13(1):47-55
  相似文献   

10.
We have developed a defective phage system for the isolation and analysis of phage T4 replication origins based on the T4-mediated transduction of plasmid pBR322. During the initial infection of a plasmid-containing cell, recombinant plasmids with T4 DNA inserts are converted into fully modified linear DNA concatamers that are packaged into T4 phage particles, to create defective phage (transducing particles). In order to select T4 replication origins from genomic libraries of T4 sequences cloned into the plasmid pBR322, we searched for recombinant plasmids that transduce with an unusually high efficiency, reasoning that this should select for T4 sequences that function as origins on plasmid DNA after phage infection. We also selected for defective phage that can propagate efficiently with the aid of a coinfecting helper phage during subsequent rounds of phage infection. which should select for T4 sequences that can function as origins on the linear DNA present in the defective phage. Several T4 inserts were isolated repeatedly in one or both of these selective procedures, and these were mapped to particular locations on the T4 genome. When plasmids were selected in this way from genomic libraries constructed using different restriction nucleases, they contained overlapping segments of the T4 genome, indicating that the same T4 sequences were selected. The inserts in two of the selected plasmids permit a very high frequency of transduction from circular plasmids: these have been shown to contain a special type of T4 replication origin.  相似文献   

11.
We have constructed derivatives of plasmid pMB9 carrying EcoRI digestion fragments of bacteriophage T4 DNA that code for late gene functions. When Escherichia coli strains carrying these plasmids are infected with T4 amber mutants, burst sizes up to 30% of the wild-type level are obtained. Single burst experiments imply that the phage progeny result from complementation and do not depend on marker rescue. By electrophoretic and immunological techniques, we have established that the cloned T4 late genes are transcribed and translated in uninfected cells. A serum blocking assay has been used to quantitate the levels of one of the T4 gene products, gp11, before and after T4 infection. Uninfected cells containing the cloned T4 gene 11 DNA have 0.1% and mini cells have 1% of the gp11 levels per unit protein found in cells late after T4 wild-type infection. There is little or no additional gp10 and gp11 formed from the cloned genes after T4 infection.  相似文献   

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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   

14.
Genetic complementation by cloned bacteriophage T4 late genes.   总被引:7,自引:5,他引:2       下载免费PDF全文
Bacteriophage T4 containing nonsense mutations in late genes was found to be genetically complemented by four conjugate T4 genes (7, 11, 23, or 24) located on plasmid or phage vectors. Complementation was at a very low level unless the infecting phage carried a denB mutation (which abolishes T4 DNA endonuclease IV activity). In most experiments, the infecting phage also had a denA mutation, which abolishes T4 DNA endonuclease II activity. Mutations in the alc/unf gene (which allow dCMP-containing T4 late genes to be expressed) further increased complementation efficiency. Most of the alc/unf mutant phage strains used for these experiments were constructed to incorporate a gene 56 mutation, which blocks dCTP breakdown and allows replication to generate dCMP-containing T4 DNA. Effects of the alc/unf:56 mutant combination on complementation efficiency varied among the different T4 late genes. Despite regions of homology, ranging from 2 to 14 kilobase pairs, between cloned T4 genes and infecting genomes, the rate of formation of recombinants after T4 den:alc phage infection was generally low (higher for two mutants in gene 23, lower for mutants in gene 7 and 11). More significantly, when gene 23 complementation had to be preceded by recombination, the complementation efficiency was drastically reduced. We conclude that high complementation efficiency of cloned T4 late genes need not depend on prior complete breakage-reunion events which transpose those genes from the resident plasmid to a late promoter on the infecting T4 genome. The presence of the intact gene 23 on plasmids reduced the yield of T4 phage. The magnitude of this negative complementation effect varied in different plasmids; in the extreme case (plasmid pLA3), an almost 10-fold reduction of yield was observed. The cells can thus be said to have been made partly nonpermissive for this lytic virus by incorporating a part of the viral genome.  相似文献   

15.
A fragment of E. coli bacteriophage T4 genome including the four genes (genes 51, 27, 28, 29) coding for the central plug proteins was cloned into plasmid pMCC17. The genes present on this fragment were expressed in E. coli in the absence of phage infection producing hub proteins, which could be identified on polyacrylamide gels. By applying affinity chromatography protein 29 was purified from extracts of E. coli transformed with this hybrid plasmid. The isolated protein had the ability to complement T4 29 amber mutants. The molecular weight of the purified protein was estimated as 75,000 to 85,000 depending on the composition of SDS-polyacrylamide gel used for the assay.  相似文献   

16.
The genes encoding the enzymes responsible for conversion of naphthalene to 2-hydroxymuconic acid (nahA through nahI) are contained on a 25-kilobase EcoRI fragment of an 85-kilobase NAH plasmid of Pseudomonas putida. These genes were cloned into the plasmid vectors pBR322 and RSF1010 to obtain the recombinant plasmids pKGX505 and pKGX511, respectively. To facilitate cloning and analysis, an NAH7 plasmid containing a Tn5 transposon in the salicylate hydroxylase gene (nahG) was used to derive the EcoRI fragment. The genes for naphthalene degradation were expressed at a low level in Escherichia coli strains containing the fragment on the recombinant plasmids pKGX505 or pKGX511. This was shown by the ability of whole cells to convert naphthalene to salicylic acid and by in vitro enzyme assays. The expression of at least two of these genes in E. coli appeared to be regulated by the presence of the inducer salicylic acid. In addition, high-level expression and induction appear to be mediated by an NAH plasmid promoter and a regulatory gene located on the fragment. A restriction endonuclease cleavage map of the cloned fragment was generated, and the map positions of several nah genes were determined by analysis of various subcloned DNA fragments.  相似文献   

17.
The replicator region of the Rhizobium leguminosarum cryptic plasmid pRL8JI   总被引:6,自引:0,他引:6  
Abstract The replicator region of the cryptic plasmid pRL8JI from Rhizobium leguminosarum strain 3841 was cloned and sequenced. The recombinant plasmid (pYK3) was selected by function from a partial Eco RI library of total DNA cloned in pSUP202 and shows incompatibility with plasmid pRL8JI when conjugated into R. leguminosarum strains 3841 and its derivative 1062. The cloned insert (∼ 10.5 kb) comprises five Eco RI fragments none of which confers replicative stability when cloned individually. A single 5.0-kb Bam HI fragment, that spans all five Eco RI fragments and confers replicative stability on pSUP202 in R. leguminosarum , has been sequenced. This replicator region shows organisational and sequence similarity to the replicator regions of the Agrobacterium plasmids pTiB6S3 and pRiA4b. It has three open reading frames ( repA, repB, repC ) and a conserved intergenic sequence.  相似文献   

18.
Bacteria-yeast shuttle plasmids containing the pKM101-associated muc genes were constructed by cloning an ARS TRP fragment into the plasmid pGW270 in both possible orientations. The insertion of Saccharomyces cerevisiae DNA into pGW270 had no effect on the mutator and protective phenotypes associated with the plasmid in Escherichia coli. Two such recombinant plasmids, pAA90 and pAA91 , were capable of efficient transformation of S. cerevisiae and were stably maintained in this organism. Hybridization experiments suggest that muc-specific mRNA was present in transformed yeast cells and a small amount was polyadenylated. The RNAs were not of a discrete size, all being smaller than the muc genes. The presence of the plasmid pAA91 , and to a lesser extent, pAA90 , in yeast resulted in a detectable increase in the reversion frequencies of three markers and in ultraviolet protection. These results are discussed in terms of studying the relationship of error-prone repair in bacteria and yeast and of developing improved yeast tester strains.  相似文献   

19.
The classical T-even bacteriophages recognize host cells with their long tail fibers. Gene products 35, 36, and 37 constitute the distal moiety of these fibers. The free ends of the tail fibers, which are formed by the CO2H terminus of gene product 37, possess the host range determinants. It was found that 4 out of 10 different strains of Escherichia coli K-12 contained regions of chromosomal DNA which hybridized with a probe consisting of genes 35, 36, and 37 of the T-even phage K3. From one strain this homologous DNA, which was associated with an EcoRI fragment of about 5 kilobases, was cloned into plasmid pUC8. Two independently recovered hybrid plasmids had undergone a peculiar rearrangement which resulted in the loss of about 3 kilobases of cloned DNA and a duplication of both the vector and the remaining chromosomal DNA. The mechanisms causing this duplication-deletion may be related to that of transposases. The cloned DNA was capable of recombination with phage T4 gene 36 and a phage T2 gene 37 amber mutant. DNA sequencing revealed the existence of regions of identity between the cloned DNA and genes 36 and 37 of phage T2. In addition, after growth of a derivative of phage K3 on a strain harboring T2 DNA, it was found that this phage contained the same parts of the T2 tail fiber genes which had been recovered from the bacterial chromosome. There appears to be little doubt that the phage had picked up this DNA from the host. The possibility is considered that a repertoire of parts of genes 36 and 37 of various T-even-type phages is present in their hosts, allowing the former to change their host ranges.  相似文献   

20.
The central part (hub or plug) of bacteriophage T4 baseplate consist of several proteins which are present in only few copies per phage particle. The presence of these minor baseplate components was inferred from the genetic data but only some of them were identified as distinct proteins species by biochemical analysis. We have constructed a number of plasmids containing segments of bacteriophage T4 genome coding for baseplate proteins. The following genes were cloned into expression vectors: 54, 48, 29, 28, 27, 51, 26 and 25. The presence of a particular gene product was confirmed by in vivo complementation test. On the basis of these results we could more precisely localize the position of a particular gene on T4 phage genetic map. The hybrids contain sets of genes which make aggregation impossible, so bacteria harbouring these plasmids are convenient starting point for the purification of baseplate proteins.  相似文献   

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