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1.
We studied the ability of lambda, phi 80 and their hybrid lambda att80 to lysogenize homoimmune monolysogens and examined the prophage locations on the chromosome of the resulting polylysogens. We observed an effective integration of phi 80 and lambda att80, in contrast to lambda, into the host chromosome, exclusively, at the attachment sites that were not occupied by the resident prophage (nontandem). Besides, the lambda att80 (int+) prophage was observed to ensure effective nontandem integration of a homoimmune int mutant DNA. Hence, we inferred that the expression of the int gene in the phi 80 prophage is constitutive, cI-independent and results in nontandem integration of the homoimmune prophage. The validity of this inference has been supported experimentally: (i) the only lysogen that was found to contain a phi 80 tandem was highly unstable (spontaneous segregation of monolysogens occurred 6-7 times more frequently than with the lambda tandem); (ii) an int inactivating mutation stabilized the phi 80 tandem; as a result, the int mutant has the frequency of tandem integration as high as that of lambda, while no nontandem integration was observed. A hypothesis is proposed which accounts for the instability of the phi 80 tandems and explains the relation between this phenomenon and the prophage ability to integrate into secondary attachment sites in the presence of the primary (normal) one.  相似文献   

2.
A S Bo?tsov  O N Shaleva  V N Rybchin 《Genetika》1981,17(11):1895-1903
Hybrids lambda H lambda T80 with recombination in the region of structural genes have lambda head and phi 80 tail genes. In this paper the molecular structure of 5 independently isolated hybrids was established using restriction endonucleases. It has been shown that all of them have a recombinant head or tail. A deletion of 4,8% lambda was demonstrated in the immunity region of phi 80vir phage. Co-ordinates of restriction sites for BamHI, HindIII, EcoRI and SmaI restriction endonucleases on phi 80 DNA were calculated.  相似文献   

3.
Genetics of bacteriophage phi 80--a review   总被引:4,自引:0,他引:4  
V N Rybchin 《Gene》1984,27(1):3-11
The genetic maps of bacteriophage lambda and lambdoid phage phi 80 are compared. The gene organization of phi 80 is very similar to that of lambda, as shown by isolation and characterization of many am, ts and c (clear) mutants of the phage. In general, the essential genes located in the same position on the genetic map of the phages lambda and phi 80 fulfill the same functions. These include the gene clusters coding for the head and tail proteins, genes for DNA synthesis, and the genes controlling lysogeny and late gene expression. The specific regulatory features of phi 80 in relation to the N function of lambda are discussed, but they require further clarification. The two phages differ in immunity specificity, host range, conversion property and temperature sensitivity.  相似文献   

4.
5.
The family of lambdoid phages displays a varying specificity of integration into the host chromosome. The lambda phage DNA failed to get inserted at the secondary attachment site(s) of the gal operon (frequency less than 2.6 X 10(-8)) in the presence of the primary (normal) one. By contrast, phi 80 and the lambda att80 hybrid integrated into wild-type Escherichia coli at least, at two secondary att sites of the btuB locus, the latter phage being also capable of integration in the vicinity of purE and purC (frequency 2 X 10(-3) to 10(-4)). Integration of phi 80 and lambda att80 into btuB occurred with about the same frequency as in cells deleted for normal insertion site (0.7 divided by 4.0 X 10(-6)). An analysis of the secondary lysogens with the prophage in btuB showed them to be polylysogens; the additional prophage(s) was found in the primary att site. We also failed to observe integration of phi 80 and lambda att80 with formation of secondary monolysogens into other foci (frequency less than 0.0035, if multiplicity of infection was 10(-3) or 10). It is presumed that phi 80 and lambda att80 prophages get only integrated at secondary att sites in case the primary site is occupied.  相似文献   

6.
pMB9 plasmids bearing the Salmonella typhimurium his operon and gnd gene   总被引:5,自引:0,他引:5  
A plasmid containing the entire Salmonella typhimurium his operon was constructed from plasmid pM89 and an EcoRI fragment of phi 80 his imm lambda DNA. The recombinant pST41 also includes the glucose 6-phosphate dehydrogenase (gnd) gene and has one EcoRI endonuclease cleavage site in the integrated fragment. This plasmid served as a source for the construction of two additional plasmids, one carrying the OGDC-region of the his operon and the other a CBHAFIE segment of the his gene along with the gnd gene. The presence of the his operon in the constructed plasmids was confirmed by hybridization to S. typhimurium his RNA. The location of the gnd gene in the CBHAFIE fragment of the his gene was confirmed genetically: after transfection with the plasmid bearing the gnd gene, a gnd recipient gained the capacity to utilize gluconate as a sole carbon source. The DNAs of the three hybrid plasmids were analyzed by gel electrophoresis. By comparing the EcoRI endonuclease cleavage pattern of these three hybrid plasmids with the DNA cleavage pattern of phi 80 his imm lambda, phi 80 imm lambda and lambda phages, the EcoRI cleavage map of phi 80 his imm lambda was obtained.  相似文献   

7.
A set of c-mutants of the phage phi80 is isolated. These mutants fit into three genes. According to plaque morphology and frequency of lysogenization of mutants, the genes were named cI, cII and cIII as it was previously done for phage lambda. Their order, determinated by mutant phage crosses, is cIII-sus326-cI-cII-sus250. Sus326 is a mutation in the gene 15, so it is probably an analogue of the N gene of the phage lambda. Thermoinducible mutants of the phage phi80 cts11 and cts12 correspond to the mutant types cItsB and cItsA of the phage lambda and they complement each other. Thus, it is supposed that phi80 phage repressor molecules consist of few protein subunits.  相似文献   

8.
9.
The frequency of polylysogeny and the genetic structure of polylysogens were studied for phages lambda, phi 80 and lambda att80. For none of these phages does frequency of polylysogeny vary by more than a factor of 2 within a wide range of multiplicities of infection (from 10(-3) up to 10) but the relative location of the prophages on the host chromosome is different. In the case of lambda, polylysogens are formed with a high frequency (0.20-0.41) and the prophages are inserted in tandem into the primary (normal) att site. In the case of phi 80 and lambda att80, polylysogens occur about 10 times less frequently and usually have one prophage inserted into the primary attachment site and another (sometimes, also a third) in one of the secondary ones. Wild-type Escherichia coli was shown to possess at least four secondary att80 sites, two of which (close to the his and tolC loci) are preferred. The frequency of secondary integration of phi 80 and lambda att80 does not differ significantly in the wild-type host and in cells deleted for the primary att site (0.041 and 0.045, respectively, among surviving cells at MOI 10). Certain properties of the phi 80 lysogens make it more difficult to decode their genetic structure.  相似文献   

10.
Mutants ton A and ton B of Escherichia coli K12, known to be resistant to bacteriophage phi80, were found to be insensitive as well to albomycin, an analogue of the specific siderochrome ferrichrome. Ferrichrome at micromolar concentrations strongly inhibited plaque production by phi80. Preincubation with ferrichrome did not inactivate the phage. At a concentration at which ferrichrome allowed 90% inhibition of plaque formation, the chromium analogue of ferrichrome showed no detectable activity. Similarly, ethylenediaminetetraacetic acid, ferrichrome A, and certain siderochromes structurally distinct from ferrichrome, such as ferrioxamine B, schizokinen, citrate, and enterobactin, did not show detectable inhibitory activity. However, rhodotorulic acid showed moderate activity. A host range mutant of phi80, phi80h, was also inhibited by ferrichrome, as was a hybrid of phage lambda possessing the host range of phi80. However, phage lambdacI- and a hybrid of phi80 possessing the host range of lambda were not affected by ferrichrome. Finally, ferrichrome and chromic deferriferrichrome were shown to inhibit adsorption of phi80 to sensitive cells, ferrichrome giving 50% inhibition of adsorption at a minimal concentration of 8 nM. It is suggested that a component of the ferrichrome uptake system may reside in the outer membrane of E. coli K12 and may also function as a component of the receptor site for bacteriophage phi80, and that ferrichrome inhibition of the phage represents a competition for this common site.  相似文献   

11.
A S Bo?tsov  V N Rybchin 《Genetika》1980,16(5):777-782
The phage hybrid phi80hy43 derived from a vegetative cross phi80cIhlambda x lambdacIc17 was constructed for discrimination phi80mono- and polylysogens. Molecular structure of this hybrid was established using heteroduplex analysis and restriction endonuclease EcoRI. It is found that the hybrid phi80hy43 represents a phage phi80 containing a foreign piece of DNA between genes cI and 0. The length of this piece of DNA comprises 0.7%, corresponding to the length of cy-cII region of th phage lambda. So it is believed that the hybrid phi80hy43 was formed due to insertion of the lambdacy region with the mutation c17 into phi80hlambda phage genome.  相似文献   

12.
A hybrid lambda att 80 phage with the genetic structure lambda (A-J) phi 80 (att-int-xis) imm lambda..cI857s7 is shown to be a convenient vector for creating transducing phages. On the one hand, the restriction analysis indicates that it has 3 restriction sites for EcoRI in comparison with 5 and 9 sites for parental phages lambda and phi 80 respectively. On the other hand, its buoyant density is less than that of phage lambda and under centrifugation it is easier separated from the phage transducing particles. When lambda att 80 prophage was excluded from the bfe locus of Escherichia coli, transducing phages with genes of two RNA polymerase beta-subunits (rpoB and rpoC) were isolated. To identify the latter, a convenient genetic test was worked out. A physical map of lambda att 80 drifd 35 transducing phage, carrying rpoB and rpoC genes has been constructed using endonucleases EcoRI and HindIII. A comparison of this map and the corresponding maps of transducing phages lambda drifd 18 and lambda drifd 47, studied earlier, led to the discovery of two integration sites of phage lambda within the locus bfe spaced apart by about 1800 nucleotide pairs. At all the sites both phages (lambda and lambda att 80) have integrated in the locus bfe in the counter clockwise order.  相似文献   

13.
lad (lambda adsorption), an Escherichia coli mutant that loses the ability to adsorb lambda phage immediately after a shift to high temperature (e.g., 42 C), was isolated. This property for phage adsorption is irreversible and has been observed with phage lambda and 21 but not with phages 434, phi 170, and phi 80. A crude receptor preparation, extracted from lad cells will cholate-ethylenediaminetetraacetic acid by the procedure of Randall-Hazelbauer and Schwartz (1973), inactivated the phage lambda only at low temperature.  相似文献   

14.
Although the lambdoid bacteriophage phi 80 and P22 possess site-specific recombination systems analogous to bacteriophage lambda, they have different attachment (att) site specificities. We have identified and determined the nucleotide sequences of the att sites of phi 80 and P22 and have examined the interaction of these sites with purified Escherichia coli integration host factor (IHF). The sizes of the homologous core regions of the att sites vary greatly: P22 has a 46-base pair core, while phi 80 and lambda have 17- and 15-base pair cores, respectively. The core sequences of the three phage show no significant homology, although dispersed regions of homology in arm sequences indicate that the three phage att sites are related. All three att sites have a high A + T composition, and restriction fragments carrying these sites migrate anomalously upon polyacrylamide gel electrophoresis. IHF binds to a site to the left of the common core in the phi 80 and P22 phage att sites (attP) and to a site to the right of the core in P22 attP and attB (the bacterial att site). In the lambda system, IHF interacts with three regions on attP (designated H1, H2, and H') and none on attB (Craig N., and Nash, H.A. (1984) Cell 39, 707-716). Alignment of the IHF sites of all three phage results in a consensus sequence for IHF binding, Pyr-AANNNNTTGATAT. Among the three phage, the number of IHF sites differs; however, the location and orientation of the binding sites in relation to the respective core regions are well conserved. An IHF site analogous to lambda H2 is present in both phi 80 and P22 attP, while a site analogous to lambda H' is present in P22 attP. This conservation suggests that IHF plays a very similar role in the site-specific recombination pathways of all three phage, and that the flanking arm sequences are necessary for phi 80 and P22 attP function, as is the case for lambda attP function. These structural similarities presumably reflect a conservation of the mechanism of site-specific recombination for the three phage.  相似文献   

15.
16.
Hybrids lambda H lambda T80 are formed due to recombination of the phage lambda att80 and phi 80 prophage partially deleted in the region of structural genes. Genetic structure of 22 independently isolated lambda H lambda T80 hybrids was determined by the restriction method and it was shown that recombination took place in the genes A, C, D and H. The frequencies of hybrid formation diminish from 1.10(-3) to 4.10(-5) for this gene order, which suggests that the polar divergence of nucleotide sequencies in the region of structural genes exists. It was found that formation of hybrids with recombination in the region of "weak" homology (gene H) was possible only when the region of "strong" homology was present in the deleted phi 80 prophage to initiate recombination.  相似文献   

17.
Bacteriophage lambda grows in both IHF+ and IHF- host strains, but the lambdoid phage phi 80 and hybrid phage lambda (QSRrha+)80 fail to grow in IHF- host strains. We have identified a gene, rha, in the phi80 region of the lambda(QSRrha+)80 genome whose product, Rha, inhibits phage growth in an IHF- host. A search of the GenBank database identified a homolog of rha, ORF201, a previously identified gene in phage P22, which similarly inhibits phage growth in IHF- hosts. Both rha and ORF201 contain two possible translation start sites and two IHF binding site consensus sequences flanking the translation start sites. Mutations allowing lambda (QSRrha+)80 and P22 to grow in IHF- hosts map in rha and ORF201, respectively. We present evidence suggesting that, in an IHF+ host, lambda(QSRrha+)80 expresses Rha only late in infection but in an IHF- host the phage expresses Rha at low levels early in infection and at levels higher than those in an IHF+ host late in infection. We suspect that the deregulation of rha expression and, by analogy, ORF201 expression, is responsible for the failure of phi80, lambda(QSRrha+)80, and P22 to grow in IHF mutants.  相似文献   

18.
An EcoRI segment containing the early region of bacteriophage phi 80 DNA that controls immunity and lytic growth was identified as a segment whose presence on a plasmid prevented growth of infecting phi 80cI phage. The nucleotide sequence of the segment (EcoRI-F) and adjacent regions was determined. Based on the positions of amber mutations and the sizes of some gene products, the reading frames for five genes were identified. From the relative locations of these genes in the genome, the properties of some isolated gene products, and the analysis of the structures of predicted proteins, the following phi 80 to lambda analogies are deduced: genes cI and cII to their lambda namesakes; gene 30 to cro; gene 15 to O; and gene 14 to P. An amber mutation by which gene 16 was defined is a nonsense mutation in the frame for gene 15 protein, excluding the presence of gene 16. An amber mutation in gene 14 or 15 inhibits phage DNA synthesis, as is the case with their lambda analogues, gene O or P. Some characteristics of proteins from the early region predicted from their primary structures and their possible functions are discussed.  相似文献   

19.
Cleavage of bacteriophage phi 80 CI repressor by RecA protein   总被引:10,自引:0,他引:10  
We have purified the CI repressor protein of bacteriophage phi 80. Its N-terminal amino acid sequence and its amino acid composition agree with those predicted from the nucleotide sequence of the cI gene. The phi 80 CI repressor was cleaved at a Cys-Gly bond by the wildtype RecA protein in the presence of single-stranded DNA and ATP or its analogues. This cleavage site is different from other repressors such as LexA, lambda CI and P22 C2, which were cleaved at an Ala-Gly bond. The phi 80 CI repressor was cleaved at the same site by the RecA430 protein, but was not cleaved by the RecA1 protein. This effect of the bacterial recA mutations on cleavage is consistent with the fact that prophage phi 80 in recA430 cells can be induced by irradiation with ultraviolet light, while the prophage in recA1 cells cannot.  相似文献   

20.
D D Moore  K J Denniston  F R Blattner 《Gene》1981,14(1-2):91-101
We have determined the sequences of the ori region DNA of several phage lambda mutants and hybrids, which shed light on the mechanism of DNA replication in the lambdoid phages. These include the heterologous substitution hybrids lambda rep82:lambda and lambda rep80:lambda, a pseudorevertant of the ori-r93 mutant lambda r93hot5, and the insertion mutant lambda pk35. The ori regions of the three lambdoid phages, lambda, phi 80 and 82, all have repeated sequences, termed iterons, and A . T-rich zones. We note that a similar arrangement of DNA is also found in several other prokaryotic origins of replication. lambda and phi 80 have four iterons, and 82 has five. The origin of lambda r93hot5 is unusual in that contains only three iterons, yet the phage grows normally. Analysis of this mutant indicates that the spacing of iterons is crucial to ori function, whereas their number is not. This argues against the cloverleaf model for lambda ori structure (Hobom et al., 1979). In lambda pk35 the drug resistance element Tn903 is inserted into the "inceptor" (ice) site, proposed to be crucial for lambda replication initiation (Hobom et al., 1979); yet this phage grows normally.  相似文献   

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