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1.
The role of recombination in transfection of B. subtilis   总被引:18,自引:0,他引:18  
Summary A comparative study of transfection with four different phage DNAs is being presented. Two types of transfection systems are distinguished, one with nearly linear dependence of the number of infective centers produced on the concentration of the phage DNA, the other type displaying multihit dose response. Studies of genetic recombination in transfection show that in systems of the latter type two (SPP 1) or three (SP 50) input genomes have to cooperate in a recombination event prior to replication. This obligatory process, termed primary recombination, is exclusively mediated by the host recombination system and cannot be effected by the phage recombination system.  相似文献   

2.
Relationship Between Competence for Transfection and for Transformation   总被引:9,自引:2,他引:7  
Deoxyribonucleic acid (DNA) extracted from phage SPP1 is highly infectious on Bacillus subtilis competent cells; the efficiency of infection is 5 x 10(3) to 6 x 10(3) phage equivalents per plaque-forming unit. This DNA was used to study the relationship between competence for transfection and for transformation. The experiments were concerned with the frequency of infection and transformation in mutants exhibiting different levels of competence, the effect of periodate on competence for infection and for transformation, the competition between phage and bacterial DNA, the transformation of cells preinfected with phage DNA, and the infection of cells pretreated with bacterial DNA. The data show that B. subtilis cells competent for transformation are also competent for transfection and vice versa; transfection with phage DNA represents, therefore, a simple way to measure the total number of competent cells in a culture. The fraction of competent cells, determined by SPP1 DNA infection, varied from 10(-2) to 7 x 10(-2).  相似文献   

3.
Summary After pre-competent cells of Bacillus subtilis are placed in the medium in which competence develops, peak competence for transformation is found to occur earlier than competence for transfection by DNA from phages whose DNA is dissimilar to that of the cells. There is a nonlinear dependence of transfection on the concentration of DNA from phage SP 82 despite a linear dependence of DNA fixation on DNA concentration. Both results support the idea that fixation of DNA is a poor indicator of the actual competence of the cells for both transformation and transfection.  相似文献   

4.
Summary The effects of restriction by the BsuR system on hemimethylated SPP1 DNA were investigated. In vitro, single-stranded nicks were introduced in the nonmodified strand of the hemimethylated DNA at the same sites as recognized in nonmodified homoduplex DNA. Transfection with BsuR-treated hemimethylated DNA was severely reduced.In vivo, transfection with hemimethylated DNA was also severely reduced in competent B. subtilis R cells. In contrast, transfection of protoplasts of the R strain with this DNA was not affected. The apparent restriction by competent cells was attributed to the special mode of processing of transfecting DNA.  相似文献   

5.
Summary The content of 5-methylcytosine (5MC) and 6-methyladenine (6MA) in modified and nonmodified DNAs from B. subtilis and B. subtilis phage SPP1 were determined. Nonmodified SPP1 · O DNA contains about 15 5MC residues/molecule. Each modified SPP1 ·R DNA molecule carries 190 modification specific methyl groups. This number is sufficient to account for modification of the 80 restriction sites in SPP1 DNA (Bron and Murray, 1975) against endo R · Bsu R, assuming each modified site contains two 5MC residues. Resistance of SP01 DNA against endo R · Bsu R restriction both in vivo and in vitro is probably not due to methylation of endo R·Bsu R recognition sites.  相似文献   

6.
Mycobacterium smegmatis SN2 does not exhibit natural competence for the uptake of phage I3 DNA. Competence can artificially be induced by treatment with glycine or CaCl2, and the combination of both is even more effective. The efficiency of transfection can be improved by inclusion of protamine sulphate and heterologous RNA in the system. From 32P DNA uptake studies the major barrier for the entry of DNA has been found to be the complex cell wall. The efficiency of transfection calculated on the basis of fraction of DNA which has entered the cell is comparable to that of other bacterial systems. The phage development takes a longer time (7 h for one cycle) after transfection, as compared to infection (4 h).  相似文献   

7.
Summary DNA molecules of B. subtilis phage SPP1 exhibit terminal redundancy and are partially circularly permuted. This was established by the hybridization of selected EcoRI restriction fragments to single strands of SPP1 DNA and by an analysis of the distribution of denaturation loops in partially denatured SPP1 DNA molecules. Deletions in SPP1 DNA are not compensated by an increase in terminally repetitious DNA. This finding, which is unique to SPP1, is discussed in terms of a modification of the Streisinger/Botstein model of phage maturation.  相似文献   

8.
Cytological and genetic evidence suggests that the Bacillus subtilis DNA uptake machinery localizes at a single cell pole and takes up single-stranded (ss) DNA. The integration of homologous donor DNA into the recipient chromosome requires RecA, while plasmid establishment, which is independent of RecA, requires at least RecO and RecU. RecA and RecN colocalize at the polar DNA uptake machinery, from which RecA forms filamentous structures, termed threads, in the presence of chromosomal DNA. We show that the transformation of chromosomal and of plasmid DNA follows distinct pathways. In the absence of DNA, RecU accumulated at a single cell pole in competent cells, dependent on RecA. Upon addition of any kind of DNA, RecA formed highly dynamic thread structures, which rapidly grew and shrank, and RecU dissipated from the pole. RecO visibly accumulated at the cell pole only upon addition of plasmid DNA, and, to a lesser degree, of phage DNA, but not of chromosomal DNA. RecO accumulation was weakly influenced by RecN, but not by RecA. RecO annealed ssDNA complexed with SsbA in vitro, independent of any nucleotide cofactor. The DNA end-joining Ku protein was also found to play a role in viral and plasmid transformation. On the other hand, transfection with SPP1 phage DNA required functions from both chromosomal and plasmid transformation pathways. The findings show that competent bacterial cells possess a dynamic DNA recombination machinery that responds in a differential manner depending if entering DNA shows homology with recipient DNA or has self-annealing potential. Transformation with chromosomal DNA only requires RecA, which forms dynamic filamentous structures that may mediate homology search and DNA strand invasion. Establishment of circular plasmid DNA requires accumulation of RecO at the competence pole, most likely mediating single-strand annealing, and RecU, which possibly down-regulates RecA. Transfection with SPP1 viral DNA follows an intermediate route that contains functions from both chromosomal and plasmid transformation pathways.  相似文献   

9.
A proteolyzed bacteriophage (phage) might release its DNA into the environment. Here, we define the recombination functions required to resurrect an infective lytic phage from inactive environmental viral DNA in naturally competent Bacillus subtilis cells. Using phage SPP1 DNA, a model that accounts for the obtained data is proposed (i) the DNA uptake apparatus takes up environmental SPP1 DNA, fragments it, and incorporates into the cytosol different linear single-stranded (ss) DNA molecules shorter than genome-length; (ii) the SsbA-DprA mediator loads RecA onto any fragmented linear SPP1 ssDNA, but negative modulators (RecX and RecU) promote a net RecA disassembly from these ssDNAs not homologous to the host genome; (iii) single strand annealing (SSA) proteins, DprA and RecO, anneal the SsbA- or SsbB-coated complementary strands, yielding tailed SPP1 duplex intermediates; (iv) RecA polymerized on these tailed intermediates invades a homologous region in another incomplete molecule, and in concert with RecD2 helicase, reconstitutes a complete linear phage genome with redundant regions at the ends of the molecule; and (v) DprA, RecO or viral G35P SSA, may catalyze the annealing of these terminally redundant regions, alone or with the help of an exonuclease, to produce a circular unit-length duplex viral genome ready to initiate replication.  相似文献   

10.
Polyethylene glycol (PEG) mediated transfection of Lactobacillus casei ATCC 27092 protoplasts by phage PL-1 DNA was done. The protoplasts were obtained by treatment with purified PL-1 phage N-acetylmuramidase in the presence of citrate. Optimum conditions for transfection were 50% PEG 4,000, 15 µg protamine sulfate/ml, 0.15 m sucrose, and 10 m m MgSO4 in MR medium (pH 6.0). The extent of transfection was proportional to the amounts of DNA added, and the greatest efficiency of transfection after a 10-min incubation was about 3.3 × 105 PFU/µg DNA. The eclipse period of growth of progeny phages in the transfectants was 3 hr and the average burst size was 200.  相似文献   

11.
Summary The development of bacteriophages SPP1, and 29 has been studied in several B. subtilis mutants defective in host DNA replication, under non permissive conditions.Several gene products, involved in the synthesis of host DNA, are required for 29 replication, while SPP1 seems to require obly the host DNA polymerase III. In addition both phages are unable to grow in a dna A mutant (ribonucleotide reductase). Taking advantage of the fact that SPP1 DNA is actively replicated in several dna mutants at non-permissive temperature, we have studied the structure of the replicative intermediates of this phage in the absence of interfering host DNA synthesis.Fast sedimenting forms of SPP1 DNA can be isolated from phage infected cells and evidence of covalently joined concatemers has been obtained, suggesting the presence of terminally repeated sequences.  相似文献   

12.
Direction of SPP1 DNA replication in transfected B. subtilis cells   总被引:2,自引:0,他引:2  
Summary The origin and the direction of replication of the SPP1 chromosome, which has a unique, nonpermuted sequence of markers, was established by determination of the frequency distribution of various markers along the SPP1 map. For this purpose replicating DNA was isolated from transfected competent B. subtilis cells. Marker frequencies were measured by means of helper mediated transfection. In the range defined by the genetic map, replication is unidirectional, originating from a point in the left part of the map. Shearing the DNA into halves prior to transfection permits only one round of replication of that half molecule which carries the origin.  相似文献   

13.
Two inhibitors of replicative deoxyribonucleic acid (DNA) synthesis, nalidixic acid (NAL) and 6-(p-hydroxyphenylazo)-uracil (HPUra), showed different effects on genetic recombination and DNA repair in Bacillus subtilis. Previous work (Pedrini et al., 1972) showed that NAL does not interfere with the transformation process of B. subtilis. The results reported in this work demonstrated that the drug was also without effect on the transfection by SPP1 or SPO-1 phage DNA (a process that requires a recombination event). The drug was also ineffective on the host cell reactivation of ultraviolet-irradiated SPP1 phage, as well as on transfection with ultraviolet-irradiated DNA of the same phage. HPUra instead markedly reduced the transformation process, as well as transfection, by SPO-1 DNA, but it did not affect the host cell reactivation of SPO-1 phage. In conclusion, whereas the NAL target seems to be specific for replicative DNA synthesis, the HPUra target (i.e., the DNA polymerase III of B. subtilis) seems to be involved also in recombination, but not in the excision repair process. The mutations conferring NAL and HPUra resistance used in this work were mapped by PBS-1 transduction.  相似文献   

14.
The effects of some divalent cations on protoplast transfection mediated by polyethylene glycol of Lactobacillus casei ATCC 27092 by PL-1 phage DNA in 50 mM Tris-maleate buffer (pH 6.0) were investigated. The efficiency of transfection increased about 30 times in the presence of 10 mM Ca2+ , Sr2+ increased the transfection rate as well, but Ba2+, Mn2+, and Mg2+ did not. Co2+ and Zn2+ inhibited transfection. The simultaneous use of Ca2+ and Mg2+ increased the transfection efficiency. Impairment of transfection caused by lack of Ca2+ could not be reversed by the addition of Ca2+ later. A decrease in the Ca2+ concentration to an ineffective level before transfection ended immediately inhibited transfection. Protoplasts were transfected with a phage adsorption mutant resistant to PL-1, also, and these metal ions had the same effect. Multiplication of phages in the transfected protoplasts was independent of the presence or absence of calcium ions. Calcium ions seemed to be involved in the entry of PL-1 DNA into the host protoplasts.  相似文献   

15.
Summary The effects of restriction in vivo by competent B. subtilis R cells and in vitro by purified endonuclease BsuR on transformation and transfection with native and denatured DNA were investigated.The results show that transformation by either native, or denatured DNA is not affected by restriction, whereas transfection both with native and denatured SPP1 DNA is severely restricted.In contrast to the results obtained in vivo, the biological activity of native and denatured transforming DNA is destroyed by BsuR in vitro, as is the transfecting activity of native and denatured SPP1 DNA. The sensitivity of denatured DNA, either with mixtures of the complementary strands or with separated single strands1 alone, is significantly lower than that of native DNA.The results are discussed in the context of possible mechanisms underlying the different responses of transforming and transfecting DNA to in vivo restriction by B. subtilis R cells.Abbreviations EGTA ethyleneglycolbis-(aminoethylether)tetraacetic acid - m+ modified - m- non-modified - moi multiplicity of infection - r+ m+ restricting and modifying - r- m- mon-restricting and non-modifying - SSC 0.15M NaCl+0.015 M trisodium citrate - SDS sodium dodecyl sulphate  相似文献   

16.
Bacteriophage SPP1 is a nanomachine built to infect the bacterium Bacillus subtilis. The phage particle is composed of an icosahedric capsid, which contains the viral DNA, and a long non‐contractile tail. Capsids and tails are produced in infected cells by two distinct morphogenetic pathways. Characterization of the suppressor‐sensitive mutant SPP1sus82 showed that it produces DNA‐filled capsids and tails but is unable to assemble complete virions. Its purified tails have a normal length but lack a narrow ring that tapers the tail end found at the tail‐to‐head interface. The mutant is defective in production of gp17. The gp17 ring is exposed in free tails competent for viral assembly but becomes shielded in the final virion structure. Recombinant gp17 is active in an in vitro assay to stick together capsids and tails present in extracts of SPP1sus82‐infected cells, leading to formation of infectious particles. Gp17 thus plays a fundamental role in the tail‐to‐head joining reaction, the ultimate step of virus particle assembly. This is the conserved function of gp17 and its structurally related proteins like lambda gpU. This family of proteins can also provide fidelity to termination of the tail tube elongation reaction in a subset of phages including coliphage lambda.  相似文献   

17.
Summary Specific labelling of replicating bacteriophage SPP1 DNA can be achieved by infection at nonpermissive temperature of a B. subtilis strain carrying the initation mutation dnaB ts134. Under these conditions host DNA synthesis is reduced by 90 to 95%. This technique was used to identify cistrons of SPP1 involved in phage DNA synthesis and to define intermediates in SPP1 replication.Experiments reported were part of the Doctoral Thesis submitted by K. Burger to the Freie Universität Berlin  相似文献   

18.
Intracellular events following infection of competent Haemophilus influenzae cells by N3 phage or transfection by DNA from phage were examined. After infection by whole phage three forms of intracellular phage DNA were observed by sedimentation velocity analysis. These forms are probably twisted circles, open circles and linear duplexes. In transfection only about 15% of the phage DNA is efficiently taken up by the competent cells. After entry of phage DNA into wild-type cells in transfection the DNA is degraded at early times, but later some of the fragments are reassembled, resulting in molecules that sediment faster than the monomer length of phage DNA. These presumably concatamer forms are generated by recombination. In strain rec-1 the fast-sedimenting molecules do not appear and degradation of phage DNA is even more pronounced than in the wild-type cells. Since rec-1 is transfected with much lower efficiency than the wild-type our hypothesis is that both fragmentation and generation of fast-sedimenting phage DNA by recombination are required for efficient transfection. These results also show that although phage N3 codes for its own recombination system it cannot operate in the early stages of transfection and succesful transfection is entirely dependent upon the host recombination system.  相似文献   

19.
The role of the HCR system in the repair of prelethal lesions induced by UV-light, γ-rays and alkylating agents was studied in theBacillus subtilis SPP1 phage, its thermosensitive mutants (N3, N73 endts 1) and corresponding infectious DNA. The survival of phages and their transfecting DNA after treatment with UV light is substantially higher inhcr + cells than inhcr cells, the differences being more striking in intact phages than in their transfecting DNA’s. Repair inhibitors reduce the survival inhcr + cells: caffeine lowers the survival of UV-irradiated phage SPP1 in exponentially growinghcr + cells but has no effect on its survival in competenthcr + cells; acriflavin and ethidium bromide decrease the survival of UV-irradiated SPP1 phage in both exponentially growing and competenthcr + cells to the level of survival observed inhcr cells; moreover, ethidium bromide lowers the number of infective centres inhcr + cells of UV-irradiated DNA of the SPP1 phage. Repair inhibitors do not lower the survival of UV-irradiated phages or their DNA inhcr cells. The repair mechanism under study repairs effectively also lesions induced by polyfunctional alkylating agents in transfecting DNA’s ofB. subtilis phages but is not functional with lesions induced by these agents in free phages and lesions caused in phages and their DNA by ethyl methanesulphonate or γ-rays.  相似文献   

20.
The DNA of bacteriophage phi W-14 is unusual in that half of the thymine residues are replaced with the hypermodified pyrimidine alpha-putrescinylthymine (Kropinski et al., Biochemistry 12:151-157, 1973). Bacteriophage phi W-14 DNA and Bacillus subtilis DNA exhibited comparable competing abilities for the uptake of transfecting bacteriophage SPP1 DNA by competent cells of B. subtilis. B. subtilis DNA decreased transfection and uptake to the same extent, indicating that it merely competed with SPP1 DNA for uptake. Phi W-14 DNA, however, decreased transfection up to 30 times more effectively than it inhibited uptake. Phi W-14 DNA did not alter the kinetics of transfection. The degree of inhibition of transfection was dependent upon the time of addition of Phi W-14 DNA relative to the time of addition of SPP1 DNA. If failed to inhibit when added 30 min after SPP1 DNA. It had a fourfold-greater effect when added 10 min before, rather than simultaneously with, SPP1, but this enhancement was abolished by high concentrations of SPP1 DNA. The nature of the transfection process was not altered in those cells escaping inhibition by Phi W-14 DNA: two molecules of transfecting SPP1 DNA were required to form a transfectant with or without Phi W-14 DNA. Free putrescine did not affect transfection by SPP1 DNA. It was concluded that the putrescine groups covalently attached to phi W-14 DNA allowed this DNA to interfere with the transfection process at the intracellular level.  相似文献   

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