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1.
L T Chow  A I Bukhari 《Gene》1978,3(4):333-346
We have examined by electron microscopy the DNA heteroduplexes of six bacteriophage Mu mutants, Mu X cam, generated by the insertion of the Tn9 transposon for chloramphenicol resistance. Tn9 was found to be 2.8 +/- 0.2 kilobases (kb) in length and to consist of a cam determinant flanked by two IS1 sequences arranged in a direct order. In two of the six Mu X cam mutants, the Tn9 insertion was at a fixed location, 3.9 kb from the left, or c, end. In the other four mutants, the position of the insertion varied, even though the lysogenic cultures induced were grown from single colonies. The insertion was located at either 3.3 kb, 3.9 kb, or, less frequently, at 4.4 kb from the left end of the DNA. Furthermore, at low frequencies, the insertions were found to be in an orientation opposite to what predominated in the preparation. Thus, Tn9 in the Mu X cam mutants examined could appear to undergo rapid rearrangements during Mu growth or over a few generations of cell growth. One of the Tn9 insertion sites was apparently the same as that for a 0.8 kb insertion found in a Mu X mutant. This latter insertion was identified as an IS1 sequence. The DNA molecules from all the Mu X cam mutant phage particles were found to be missing the bacterial DNA at the S (right) end, along with a variable amount of the adjoining Mu DNA in the beta region. This observation supports the headful packaging model for Mu DNA.  相似文献   

2.
Hfr formation directed by tn10   总被引:101,自引:11,他引:90       下载免费PDF全文
Chumley FG  Menzel R  Roth JR 《Genetics》1979,91(4):639-655
The transposable drug-resistance element, Tn10, can serve as a region of homology to direct the insertion of an F'ts114 lac plasmid into the chromosome of Salmonella typhimurium. Derivatives of F'ts114 lac were constructed that carry Tn10 insertions; these plasmids were transferred to strains having a Tn10 insertion in the chromosome. Under these circumstances, Hfr formation requires homologous recombination between plasmid-borne and chromosomal Tn10 elements. The process is dependent on recA function and on the presence of both Tn10 elements. All Hfr's isolated from a given merodiploid show the same direction of transfer. Depending on the orientation of Tn10 in the F' plasmid, Hfr's transferring in either direction can be obtained from any chromosomal Tn10 insertion. Since Tn10 insertions can be generated in any region of the chromosome, this method permits the isolation of Hfr's with either direction of transfer having their origin at almost any predetermined site. The Hfr's constructed by this method are sufficiently stable for standard genetic mapping crosses, and they have also been used to generate new F' plasmids. Implicit in the results above is the possibility of determining the orientation of any chromosomal Tn10 insertion by constructing an Hfr using a standard F' Tn10 plasmid and determining the direction of chromosome transfer. The general approaches described here are applicable to other transposable elements and other bacterial systems.  相似文献   

3.
R Craigie  K Mizuuchi 《Cell》1986,45(6):793-800
DNA strand transfer at the initiation of Mu transposition normally requires a negatively supercoiled transposon donor molecule, containing both ends of Mu in inverted repeat orientation. We propose that the specific relative orientation of the Mu ends is needed only to energetically favor a particular configuration that the ends must adopt in a synaptic complex. The model was tested by constructing special donor DNA substrates that, because of their catenation or knotting, energetically favor this same configuration of the Mu ends, even though they are on separate molecules or in direct repeat orientation. These structures are efficient substrates for the strand transfer reaction, whereas appropriate control structures are not. The result eliminates tracking or protein scaffold models for orientation preference. Several other systems in which the relative orientation of two DNA segments is sensed may utilize the same mechanism.  相似文献   

4.
5.
The bacteriophage phi X174 viral (+) origin when inserted in a plasmid can interact in vivo with the A protein produced by infecting phi X174 phages. A consequence of this interaction is packaging of single-stranded plasmid DNA into preformed phage coats resulting in infective particles (1). This property was used to study morphogenesis and to analyse the signals for initiation and termination of the rolling circle DNA replication in vivo. It is shown that the size of the DNA had a strong effect on the encapsidation by the phage coats and the infectivity of the particle. Termination was analysed by using plasmids with two phi X (+) origins either in the same orientation or in opposite orientation. Both origins were used with equal frequency. Initiation at one origin resulted in very efficient termination (greater than 96%) at the second origin in the case of two origins in the same orientation. When the two (+) origins have opposite orientations, no correct termination was observed. The second origin in the opposite strand effectively inhibits (greater than 98%) the normal DNA synthesis; i.e. the covalently bound A protein present in the replication fork interacts with the (+) origin sequence in the opposite strand.  相似文献   

6.
R Kahmann  F Rudt  C Koch  G Mertens 《Cell》1985,41(3):771-780
The Gin function of bacteriophage Mu catalyzes inversion of the G DNA segment, thus switching the host range of Mu phage particles. This site-specific recombination event takes place between inverted repeat sequences (IR) that border the G segment. Sequences in the Mu beta region extending approximately from position 118 to 178 are essential for efficient inversion. In cis this region, termed sis, stimulates inversion about 15-fold. Neither the relative orientation of sis with respect to the IR sequences nor the distance to IR substantially influences the stimulatory effect. For full activity purified Gin protein must be supplemented with crude host factor from E. coli K12. We suggest that, in addition to Gin, a DNA-binding host protein is required for efficient G inversion.  相似文献   

7.
8.
Escherichia coli K12 strains lysogenic for Mu gem2ts with the prophage inserted in a target gene (i.e., lacZ::Mu gem2ts lysogenic strains) revert to Lac+ by prophage precise excision with a relatively high frequency (about 1×10−6). The revertants obtained are still lysogens with the prophage inserted elsewhere in the bacterial chromosome. We have observed that, with the time of storage in stabs, bacterial cultures lysogenic for Mu gem2ts lose the ability to excise the prophage. The mutation responsible for this effect was co-transducible with the gyrB gene. After the removal of the prophage by P1 vir transduction from these strains, one randomly chosen clone, R3538, was further analyzed. It shows an increment of DNA supercoiling of plasmid pAT153, used as a reporter, and a reduced β-galactosidase activity. On the other hand, R3538 is totally permissive to both lytic and lysogenic cycles of bacteriophage Mu.  相似文献   

9.
Erwinia amylovora 1430 was shown to be sensitive to Mu G(-) particles. Infection resulted either in lytic development or in lysogenic derivatives with insertion of the Mu genome at many sites in the bacterial chromosome. We used the Mu d1Bx::Tn9 (lac Apr Cmr) derivative, called Mu dX, to identify mutants affected in pathogenicity and in their ability to induce a hypersensitive reaction (HR) on tobacco plants. Inoculation of 1,400 lysogenic derivatives on apple root calli led to the identification of 12 mutants in three classes: (i) class 1 mutants were nonpathogenic and unable to induce an HR on tobacco plants; (ii) class 2 mutants were nonpathogenic but retained the ability to induce an HR; and (iii) class 3 mutants showed attenuated virulence. Of the 12 mutants, 8 had a single insertion of the Mu dX prophage. For class 1 and 2 mutants, reversion to pathogenicity was concomitant with the loss of the Mu dX prophage. Furthermore, revertants from the class 1 mutants also recovered the ability to induce an HR on tobacco plants. Five of the six class 3 mutants were impaired in exopolysaccharide production. No changes of the envelope structure (lipopolysaccharide and outer membrane proteins) were correlated with differences in pathogenicity. One class 3 mutant did not produce any functional siderophore, suggesting that iron uptake could be involved in pathogenicity.  相似文献   

10.
11.
Octocoral mitochondrial (mt) DNA is subject to an exceptionally low rate of substitution, and it has been suggested that mt genome content and structure are conserved across the subclass, an observation that has been supported for most octocorallian families by phylogenetic analyses using PCR products spanning gene boundaries. However, failure to recover amplification products spanning the nad4L-msh1 gene junction in species from the family Isididae (bamboo corals) prompted us to sequence the complete mt genome of a deep-sea bamboo coral (undescribed species). Compared to the "typical" octocoral mt genome, which has 12 genes transcribed on one strand and 5 genes on the opposite (cox2, atp8, atp6, cox3, trnM), in the bamboo coral genome a contiguous string of 5 genes (msh1, rnl, nad2, nad5, nad4) has undergone an inversion, likely in a single event. Analyses of strand-specific compositional asymmetry suggest that (i) the light-strand origin of replication was also inverted and is adjacent to nad4, and (ii) the orientation of the heavy-strand origin of replication (OriH) has reversed relative to that of previously known octocoral mt genomes. Comparative analyses suggest that intramitochondrial recombination and errors in replication at OriH may be responsible for changes in gene order in octocorals and hexacorals, respectively. Using primers flanking the regions at either end of the inverted set of five genes, we examined closely related taxa and determined that the novel gene order is restricted to the deep-sea subfamily Keratoisidinae; however, we found no evidence for strand-specific mutational biases that may influence phylogenetic analyses that include this subfamily of bamboo corals.  相似文献   

12.
We have investigated the structure and organization of the mitochondrial genomes of two related orir (ori-rearranged) spontaneous petite mutants of Saccharomyces cerevisiae. In these mutant genomes every repeat unit contains an inverted terminal duplication harboring a second (inverted) ori sequence, and tandem pairs of repeat units alternate with tandem pairs in inverted orientation. We have shown that orir genomes are organized as the genomes with inverted repeat units of ethidium bromide (EtBr)-induced petites, and we have clarified the mechanism by which such mutant mitochondrial genomes arise.  相似文献   

13.
Mu DNA transposition from a negatively supercoiled DNA substrate requires interaction of an enhancer element with the left (attL) and right (attR) ends of Mu. The orientation of the L and R ends with respect to each other (inverted) and with respect to the enhancer is normally inviolate. We show that when the enhancer is provided in trans as a linear fragment, the head to head orientation of the L/R ends is still required. Each functional half of the linear enhancer maintains the same "cross-wise" interaction with the subsites L1 and R1, when present in cis or in trans. In reactions catalyzed by an enhancer-independent variant of the Mu transposase, the need for negative supercoiling of the substrate and the inverted orientation of L and R ends is not relaxed. These results show that the orientation specificity of the enhancer is not determined by its topological linkage to the Mu ends. There is a functional asymmetry inherent to the enhancer. Furthermore, the enhancer does not directly impose topological constraints on the transposition reaction or specify the reactive orientation of the Mu ends.  相似文献   

14.
15.
Restoration of ligase activity has been observed in E. coli K12 ligts7 strain lysogenic for Mu, in presence as well in absence of lysogenic immunity. This restoration consist in phenotypic reversal of temperature sensitivity of E. coli ligts7 which also regain the ability to sustain the complete growth cycle of T4 lig-phages. It is possible to put under the control of the gal operon the expression of the viral gene responsible for the restoration effect. This new gene of Mu has been named 'lig'. A 5 kb fragment responsible for the reported effects and localized between genes gam and lys of Mu genome has been cloned in pBR322. This recombinant plasmid used for transforming ligts7 strain restores in it normal behaviour for ligation of Okazaki pieces.  相似文献   

16.
Events following prophage Mu induction.   总被引:13,自引:2,他引:11       下载免费PDF全文
Escherichia coli strains lysogenic for a thermoinducible Mu prophage (Mu cts62) undergo rapid lysis about 50 min after heat induction. Induction of Mu cts62 apparently causes damage to the host sequences in which Mu is inserted. The normal expression of A, BU, and X genes of Mu is needed for this specific deleterious effect on the prophage-containing host sequences. Mu deoxyribonucleic acid can be shown to reintegrate extensively at different sites on the host genome during the lytic cycle after prophage induction or after infection of sensitive cells by clear-plaque mutants of Mu. We estimate that approximately 10 copies of Mu deoxyribonucleic acid are inserted per chromosome during vegetative growth. The episome rescue method for detecting vegetative Mu deoxyribonucleic acid insertion, in which an episome is transferred from the lytically infected cells to F- receipient cells, can be applied to study Mu integration without requiring the host cells to survive. It also provides an easy system to isolate Mu insertions in transmissible episomes and plasmids.  相似文献   

17.
Genetic analysis of the human thymidine kinase gene promoter.   总被引:14,自引:5,他引:9       下载免费PDF全文
The promoter of the human thymidine kinase gene was defined by DNA sequence and genetic analyses. Mutant plasmids with deletions extending into the promoter region from both the 5' and 3' directions were constructed. The mutants were tested in a gene transfer system for the ability to transform TK- cells to the TK+ phenotype. This analysis delimited the functional promoter to within an 83-base-pair region upstream of the mRNA cap site. This region contains sequences common to other eucaryotic promoters including G X C-rich hexanucleotides, a CAAT box, and an A X T-rich region. The CAAT box is in an inverted orientation and is part of a 9-base-pair sequence repeated twice in the promoter region. Comparison of the genomic sequence with the cDNA sequence defined the first exon of the thymidine kinase gene.  相似文献   

18.
Temperate phage Mu-1, which is able to integrate at random in its host chromosome, is also able to mediate integration of other circular deoxyribonucleic acid, as a lambda-gal mutant unable to integrate by itself. After mixed infection with lambda-gal and Mucplus, galplus transductants are recovered that have the lambda-gal integrated in any circular permutation, sandwiched between two complete Mu genomes in the same orientation, the whole Mu-lambda-gal-Mu structure being found at any location in the bacterial chromosome. Here we show that such a lambda-gal can integrate in an induced Mu lysogen. In this case the lambda-gal is again in any circular permutation, between two Mu in the same orientation, but it is always located at the site of the original Mu prophage, and the two surrounding Mu have always the same genotype as the original Mu prophage. Active Mu replication functions are not essential for that process to occur. This suggests that bacterial replication may generate two Mu copies that in some way can regenerate a Mu attachment site that recombines with the lambda-gal. A model is presented that accounts for these observations, may be helpful for understanding some complex features of Mu development, and may possibly offer a basis for explaining spontaneous duplications.  相似文献   

19.
The swimming behavior of many ciliate protozoans depends on graded changes in the direction of the ciliary effective stroke in response to depolarizing stimuli (i.e., the avoiding reaction of Paramecium). We investigated the problem of whether the directional response of cilia with a variable plane of beat is related to the polarity of the cell as a whole or to the orientation of the cortical structures themselves. To do this, we used a stock of Paramecium aurelia with part of the cortex reversed 180 degrees. We determined the relation of the orientation of the kineties (ciliary rows) to the direction of beat in these mosaic paramecia by cinemicrography of particle movements near living cells and by scanning electron microscopy of instantaneously fixed material. We found that the cilia of the inverted rows always beat in the direction opposite to that of normally oriented cilia during both forward and backward swimming. In addition, metachronal waves of ciliary coordination were present on the inverted patch, travelling in the direction opposite to those on the normal cortex. The reference point for the directional response of Paramecium cilia to stimuli thus resides within the cilia or their immediate cortical surroundings.  相似文献   

20.
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