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1.
It is already known that phi X gene A protein converts besides phi X RFI DNA also the RFI DNAs of the single-stranded bacteriophages G4, St-1, alpha 3 and phi K into RFII DNA. We have extended this observations for bacteriophages G14 and U3. Restriction enzyme analysis placed the phi X gene A protein cleavage site in St-1 RF DNA in the HinfI restriction DNA fragment F10 and in the overlapping HaeIII restriction DNA fragment Z7. The exact position and the nucleotide sequence at the 3'-OH end of the nick were determined by DNA sequence analysis of the single-stranded DNA subfragment of the nicked DNA fragment F10 obtained by gelelectrophoresis in denaturing conditions. A stretch of 85 nucleotides of St-1 DNA around the position of the phi X gene A protein cleavage site was established by DNA sequence analysis of the restriction DNA fragment Z7F1. Comparison of this nucleotide sequence with the previously determined nucleotide sequence around the cleavage site of phi X gene A protein in phi X174 RF DNA and G4 RF DNA revealed an identical sequence of only 10 nucleotides. The results suggest that the recognition sequence of the phi X174 gene A protein lies within these 10 nucleotides.  相似文献   

2.
The synthetic DNA fragment (formula, see text) (corresponding to nucleotides 4299-4314 of the phi X DNA sequence) was cloned into either the AmpR gene or the KmR gene of plasmid pACYC 177. The DNA sequence of the KmR gene around the insertion site was determined by nucleotide sequence analysis of the pACYC 177 FnudII restriction DNA fragment N6 (345 b.p.). Of five selected plasmid DNAs, which contained inserted DNA sequences in the antibiotic resistance genes, the nucleotide sequences at and around these insertions were determined. Two recombinant plasmids (pFH 704 and pFH 614) contain the hexadecamer sequence in tandem (tail-to-tail and tail-to-head). In the recombinant plasmids pFH 812, pFH 903 and pFH 807 the DNA sequence homology with the phi X origin region was 14 (No. 4300-4313), 16 (No. 4299-4314) and 20 nucleotides (No. 4299-4318), respectively. None of the supercoiled recombinant plasmid DNAs is nicked upon incubation with phi X gene A protein. Moreover, the recombinant plasmid RFI DNAs cannot act as substitutes for phi X RFI DNA in the in vitro (+) strand synthesizing system. It has been shown earlier that single-stranded DNA, which contains the decamer sequence CAACTTGATA is efficiently nicked by the phi X gene A protein. The present results indicate that for nicking of double-stranded supercoiled DNA nucleotide sequence homology with the phi X origin region of more than 20 nucleotides is required. These results suggest a model for initiation of phi X RF DNA replication, which involves the presence of the recognition sequence CAACTTGATA of the phi X gene A protein as well as a second specific nucleotide sequence which is required for the binding of the phi X gene A protein. This binding causes local unwinding of the DNA double helix and exposure of the recognition sequence in a single-stranded form, which then can be nicked by phi X gene A protein.  相似文献   

3.
The simplest known origins of DNA replication occur in the single-stranded bacteriophages. In one set of phages, negative strand synthesis is initiated by a single protein, the product of the Escherichia coli replication gene dnaG. Evidently, in these phages--G4, St-1, phi K, and alpha 3--the origin for negative strand synthesis consists of a nucleic acid element capable of direct recognition by the dnaG priming protein. We have located and sequenced the origins of negative strand synthesis in St-1, phi K, and alpha 3, and compared them with the origin sequence previously determined for G4. In each case, the point at which the negative strand is initiated can be identified at the nucleotide level. The data lead to the following conclusions: 1. In all four phages, the negative strand initiation site occurs within an intercistronic region of approximately 135 bases. While in G4, the origin lies between genes specifying the viral coat proteins F and G, the origin is shifted in St-1, phi K, and alpha 3 to a position between coat protein genes G and H. 2. Extensive nucleotide conservation exists at the negative strand origin, but does not extend into the adjacent coding regions. The conserved origin DNA occurs in two regions, 42 and 45 bases long, which are separated by 13 bases of divergent sequence. 3. Correlated with the two stretches of conserved nucleotide sequence are two regions of potential secondary structure. The start point of negative strand synthesis lies just prior to one of these hairpins. Similarities in both primary sequence and secondary structure can be found between the negative strand origins of G4, St-1, phi K, and alpha 3 and the general origin regions of bacteriophage lambda and of E. coli.  相似文献   

4.
The complete nucleotide sequence of the genome of the circular single-stranded DNA (isometric) phage alpha 3 has been determined and compared with that of the related phages phi X174 and G4. The alpha 3 genome consists of 6087 nucleotides, which is 701 nucleotides longer than the nucleotide sequence of the phi X174 genome and 510 nucleotides more than that of the G4 genome. The results demonstrated that the three phage species have 11 homologous genes (A, A*, B, C, K, D, E, J, F, G and H), the order of which is fundamentally identical, suggesting that they have evolved from a common ancestor. The sequence of some genes and untranslated intergenic regions, however, differs significantly from phage to phage: for example, the degree of amino acid sequence homology of the gene product is averaged at 47.7% between alpha 3 and phi X174 and 46.9% between alpha 3 and G4, and alpha 3 has a remarkable longer intergenic region composed of 758 nucleotides between the genes H and A compared with the counterparts of phi X174 and G4. Meanwhile, in vivo experiments of genetic complementation showed that alpha 3 can use none of the gene products of phi X174 and G4, whereas the related phage phi K can rescue alpha 3 nonsense mutants of the genes B, C, D and J. These sequencing and in vivo rescue results indicated that alpha 3 is closely related to phi K, but distantly remote from phi X174 or G4, and supported an evolutional hypothesis which has been so far proposed that the isometric phages are classified into three main groups: the generic representatives are phi X174, G4 and alpha 3.  相似文献   

5.
Possible finger structure in gene A protein of Microviridae   总被引:1,自引:0,他引:1  
Microvirid phages alpha 3 and phi K encode for A protein which functions in initiation of the viral DNA synthesis. By nucleotide sequencing analysis, we have found that each gene A protein has 'finger motif structure' which conserves two cysteine and histidine residues similar to the consensus sequence deduced from more than thirty finger motifs reported from many eukaryotic regulatory proteins. In closely related phages, phi X174 and G4, we have detected the same structures in their gene A proteins also.  相似文献   

6.
Recombinant RF (replicate form) I DNAs containing the bacteriophage phi X174 gene A protein-recognition sequence are cleaved by the phi X A protein yielding a phi X RF II X A protein complex (Zipursky, S.L., Reinberg, D., and Hurwitz, J. (1980) Proc. Natl. Acad. Sci. U.S.A. 77, 5182-5186). Such complexes support DNA synthesis in both RF I leads to SS(c) and RF I leads to RF I phi X DNA replication reactions in vitro. Two phi X A protein-recognition sequences were inserted into plasmid pBR322. Both sequences were contiguous with the same strand of the vector DNA and separated by 667 and 4275 base pairs. This recombinant plasmid (G27-4) was cleaved by the phi X A protein at either insert and both inserts support the initiation of RF leads to SS(c) DNA synthesis. This was verified by the finding that replication products were circular molecules of 667 and 4275 nucleotides. This finding is in keeping with the multifunctional activities associated with the phi X A protein; these include the site-specific nicking of RF I DNA which initiates DNA synthesis and site-specific termination resulting in the circularization of the displaced DNA strand. The phi X A protein and the Escherichia coli rep and SSb proteins catalyze the unwinding of phi X RF I DNA in vitro (Scott, J.F., Eisenberg, S., Bertsch, L.L., and Kornberg, A. (1977) Proc. Natl. Acad. Sci. U.S.A. 74, 193-197). Recombinant plasmid G27-4 RF I DNA was also unwound in vitro by this enzyme system; in this case, both circular and linear single-stranded DNA molecules of 667 and 4275 nucleotides, as well as full length circular single-stranded DNA were formed. Full length linear DNA was not detected. The two single-stranded circular DNA products formed as leading strands in RF leads to SS(c) reaction mixtures containing G27-4 RF I DNA differed in their ability to support lagging strand DNA synthesis. It was shown that the large single-stranded circular product included DNA sequences homologous to a replication factor Y effector sequence required for RF leads to RF and SS(c) leads to RF replication (Zipursky, S.L., and Marians, K.J. (1980) Proc. Natl. Acad. Sci. U.S.A. 77, 6521-6525). The 4275-nucleotide, but not the 667-nucleotide, single-stranded circular DNA product was converted to a duplex structure.  相似文献   

7.
Circular heteroduplex DNAs of bacteriophage phi X174 have been constructed carrying either a G:T (Eam+/Eam3) or a G:A (Bam+/Bam16) mismatch and containing either two, one or no GATC sequences. Mismatches were efficiently repaired in wild-type Escherichia coli transfected with phi X174 heteroduplexes only when two unmethylated GATC sequences were present in phi X174 DNA. The requirements for GATC sequences in substrate DNA and for the E. coli MutH function in E. coli mismatch repair can be alleviated by the presence of a persistent nick (transfection with nicked heteroduplex DNA in ligase temperature-sensitive mutant at 40 degrees C). A persistent nick in the GATC sequence is as effective in stimulating mutL- and mutS-dependent mismatch repair as a nick distant from the GATC sequence and from the mismatch. These observations suggest that the MutH protein participates in methyl-directed mismatch repair by recognizing unmethylated DNA GATC sequences and/or stimulating the nicking of unmethylated strands.  相似文献   

8.
The DNA sequence of 30 nucleotides which surrounds the origin of viral strand DNA replication is highly conserved amongst the icosahedral single-stranded DNA bacteriophages. The A gene of these phages encodes a protein which is required for initiation and termination of viral strand DNA synthesis and acts as a nicking-closing activity specifically within this 30-nucleotide sequence. A system of purified Escherichia coli host proteins and phi X174 gene A protein has been developed which specifically replicates in vitro the viral strand of phi X174 from RF (replicative form) I template DNA and yields single-stranded circular DNA products (RF leads to SS(c) DNA replication system). Recombinant plasmids carrying inserts derived from phage phi X174 or G4 DNA which range in length from 49 to 1175 base pairs and contain the 30-nucleotide conserved sequence have been shown to support phi X A protein-dependent DNA synthesis in vitro in this replication system. We report here that insertion of the 30-nucleotide sequence alone into pBR322 allows the resulting recombinant plasmids to support phi X A protein-dependent in vitro DNA synthesis as efficiently as phi X174 template DNA in the RF leads to SS(c) replication system. The 30-nucleotide sequence functions as a fully wild type DNA replication origin as determined by the rate of DNA synthesis and the structure of resulting DNA products. Furthermore, the DNA sequence requirements for nicking of RF I DNA by the phi X A protein and for supporting replication origin function have been partially separated. Homology to positions 1, 29, and 30 of the 30-nucleotide conserved sequence are not required for cleavage of RF I DNA by the A protein; homology to position 1 but not 29 or 30 is required for efficient DNA replication.  相似文献   

9.
The insertion of a particular phi X DNA sequence in the plasmid pACYC177 strongly decreased the capacity of Escherichia coli cells containing such a plasmid to propagate bacteriophage phi X174. The smallest DNA sequence tested that showed the effect was the HindII fragment R4. This fragment does not code for a complete protein. It contains the sequence specifying the C-terminal part of the gene H protein and the N-terminal part of the gene A protein, as well as the noncoding region between these genes. Analysis of cells that contain plasmids with the "reduction sequence" showed that (i) the adsorption of the phages to the host cells is normal, (ii) in a single infection cycle much less phage is formed, (iii) only 10% of the infecting viral single-stranded DNA is converted to double-stranded replicative-form DNA, and (iv) less progeny replicative form DNA is synthesized. The reduction process is phi X174 specific, since the growth of the related G4 and St-1 phages was not affected in these cells. The effect of the recombinant plasmids on infecting phage DNA shows similarity to the process of superinfection exclusion.  相似文献   

10.
Process of attachment of phi X174 parental DNA to the host cell membrane   总被引:2,自引:0,他引:2  
The phi X174-DNA membrane complex was isolated from Escherichia coli infected with phi X174 am3 by isopycnic sucrose gradient centrifugation followed by zone electrophoresis. The phi X174 DNA-membrane complex banded at two positions, intermediate density membrane fraction and cytoplasmic membrane fraction, having bouyant densities of 1.195 and 1.150 g/ml, respectively. Immediately after infection with phi X147, replicating DNA was pulse-labeled and then the incorporated label was chased. The radioactivity initially recovered in the intermediate density membrane fraction migrated to the cytoplasmic membrane fraction. The DNAs from both complexes sedimented mainly at the position of parental replicative form I (RFI). The phi X174 DNA-membrane complex contained a speficic membrane-bound protein having a molecular weigth of 80,000 which is accumulated in the host DNA-membrane complex. These results suggest that when phi X174 DNA penetrated into cells in the early phase of infection, single-stranded circular DNA was converted to parental RFI at a wall/membrane adhesion region and migrated to the cytoplasmic membrane fraction, where the parental RF could serve as a template in the replication of progeny RF.  相似文献   

11.
Genes and regulatory sequences of bacteriophage phi X174   总被引:3,自引:0,他引:3  
Fragments of the DNA of bacteriophage phi X174 were inserted in the plasmids pACYC177 and pBR322, in order to test the in vivo effects of separate phage genes and regulatory sequences. The phi X174 inserts were identified by recombination and complementation with phage mutants, followed by restriction enzyme analysis. The genes B, C, F and G can be maintained stably in the cell even when there is efficient expression of these viral genes. Recombinant plasmids with the complete genes D and E can only be maintained when the expression of these genes is completely blocked. Expression of complete H and J genes could not yet be demonstrated. The intact gene A was apparently lethal for the host cell, as it was never found in the recombinants. The genes F and G are expressed, even when they are not preceded by one of the well characterized viral or plasmid promoter sequences. Screening of the nucleotide sequence of phi X174 gives two promoter-like sequences just in front of the two genes. Viral sequences with replication signals (the phi X174 (+) origin of replication, the initiation site for complementary strand synthesis and the incompatibility sequence) appeared to be functional also when inserted in recombinant plasmids. A plasmid with the phi X (+) origin can be forced to a rolling circle mode of replication. The A protein produced by infecting phages works in trans on the cloned viral origin. The (-) origin can function as initiation signal for complementary strand synthesis during transduction of single-stranded plasmid DNA. The intracellular presence of the incompatibility sequence on a plasmid prevents propagation of infecting phages.  相似文献   

12.
The recent electronmicroscopic and biochemical mapping of Z-DNA sites in phi X174, SV40, pBR322 and PM2 DNAs has been used to determine two sets of criteria for identification of potential Z-DNA sequences in natural DNA genomes. The prediction of potential Z-DNA tracts and corresponding statistical analysis of their occurrence have been made on a sample of 14 DNA genomes. Alternating purine and pyrimidine tracts longer than 5 base pairs in length and their clusters (quasi alternating fragments) in the 14 genomes studied are under-represented compared to the expectation from corresponding random sequences. The fragments [d(G X C)]n and [d(C X G)]n (n greater than or equal to 3) in general do not occur in circular DNA genomes and are under-represented in the linear DNAs of phages lambda and T7, whereas in linear genomes of adenoviruses they are strongly over-represented. With minor exceptions, potential Z-DNA sites are also under-represented compared to random sequences. In the 14 genomes studied, predicted Z-DNA tracts occur in non-coding as well as in protein coding regions. The predicted Z-DNA sites in phi X174, SV40, pBR322 and PM2 correspond well with those mapped experimentally. A complete listing together with a compact graphical representation of alternating purine-pyrimidine fragments and their Z-forming potential are presented.  相似文献   

13.
H Yoshikawa  K J Garvey  J Ito 《Gene》1985,37(1-3):125-130
The ends of the small Bacillus phage genomes serve as origins and termini of their DNA replication. We have determined nucleotide sequences at the termini of four different phage DNAs and compared them with those of phi 29 DNA which has been described previously. A high degree of homology was found at the extreme ends of DNAs from phi 29, phi 15 (group A), M2Y and Nf (group B). 17 bp at the far left of the DNAs are identical. A highly conserved dodecanucleotide sequence, CCATTTCCCCAT, was also found in the righthand terminus of all these phage DNAs, at positions 27-38 from the end. Nucleotide sequences of phage GA-1 are not very similar to those of the other phages. Examination of the 5'-terminal and 3'-terminal sequences of all the phages suggests that stable 'panhandle' structures are unlikely to be formed via base pairing of both ends. However, thermodynamically more stable panhandle structures might be formed by displaced single-stranded DNA, although this requires rather large loops.  相似文献   

14.
Cleavage maps of the three similar Bacillus subtilis temperate bacteriophages, phi105, rho10, and rho14, were constructed by partial digestion analysis utilizing the restriction endonuclease EcoRI. Comparison of the topography of these maps indicates that all phage DNAs posses cohesive ends and a number of EcoRI restriction sites; the fragments are conserved, and the estimated base substitution/nucleotide divergence between these phages is 0.03 to 0.07 based on conserved fragments or between 0.03 and 0.11 based on conserved cleavage sites. These lines of evidence indicate that phi105, rho10, and rho14 are closely related. Double-enzyme digestion analysis reveals that rho14 DNA has unique SalGI and BglII restriction sites and phi105 DNA has a unique SalGI restriction site, making these phages possible cloning vectors for B. subtilis.  相似文献   

15.
The nuclease specificity of the bacteriophage phi X174 A* protein.   总被引:6,自引:3,他引:3       下载免费PDF全文
The A* protein of bacteriophage phi X174 is a single-stranded DNA specific nuclease. It can cleave phi X viral ss DNA in many different places. The position of these sites have been determined within the known phi X174 nucleotide sequence (1). From the sequences at these sites it is clear that the A* protein recognizes and cleaves at sites that show only partial homology with the origin of RF DNA replication in the phi X DNA. Different parts of the origin sequence can be deduced that function as a signal for recognition and cleavage by the A* protein. We conclude that different parts within the DNA recognition domain of the A* protein are functional in the recognition of the origin sequence in single-stranded DNA. The existence of different DNA recognition domains in the A* protein, and therefore also in the A protein, leads to a model that can explain how the A protein performs its multiple function in the phi X174 DNA replication process (2).  相似文献   

16.
Gene A protein of bacteriophage phi X174 plays a role as a site-specific endonuclease in the initiation and termination of phi X rolling circle DNA replication. To clarify the sequence requirements of this protein we have studied the cleavage of single-stranded restriction fragments from phi X and G4 viral DNAs using purified gene A protein. The results show that in both viral DNAs cleavage occurs at the origin and at one additional site which shows striking sequence homology with the origin region. During rolling circle replication the single-stranded viral DNA tail is covered with single-stranded DNA binding (SSB) protein. Therefore, we have also studied the effect of SSB on phi X gene A protein cleavage. In these conditions only single-stranded fragments containing the complete or almost complete origin region of 30 bases are cleaved, whereas cleavage at the additional sites of phi X or G4 viral DNAs does not occur. A model for termination of rolling circle replication which is based on these findings is presented. Finally, we present evidence that the second product of gene A, the A* protein, cleaves phi X viral DNA at the additional cleavage site in the presence of SSB, not only in vitro but also in vivo. The functional significance of this cleavage in vivo is discussed.  相似文献   

17.
Sequence of bacteriophage T3 DNA from gene 2.5 through gene 9   总被引:7,自引:0,他引:7  
The nucleotide sequence of bacteriophage T3 DNA, from gene 2.5 through gene 9 has been determined. In addition to regulatory sites, the sequence predicts 19 close-packed genes plus two genes that overlap, in a different reading frame, another gene. The majority of these genes are highly homologous to those in the corresponding region of bacteriophage T7. However, there are some genes that are present in one, but not the other, phage. These apparent deletions are almost exactly gene size and thus the close-packed organization of genes remains the same in T3 as in T7. The varying levels of homology between T3 and T7 DNAs, first noted by Davis and Hyman in their study of DNA heteroduplexes, are also demonstrated here by a comparison of T3 and T7 nucleotide sequences. Many regions of extremely high homology immediately abut sequences that have no apparent homology. These data suggest that bacteriophages T3 and T7 have recombined, both with each other and with other members of a pool of T7-like phages, during their co-evolution.  相似文献   

18.
Processing of mispaired and unpaired bases in heteroduplex DNA in E. coli   总被引:1,自引:0,他引:1  
Bacteriophage lambda and phi X 174 DNAs, carrying sequenced mutations, have been used to construct in vitro defined species of heteroduplex DNA. Such heteroduplex DNAs were introduced by transfection, as single copies, into E. coli host cells. The progeny of individual heteroduplex molecules from each infective center was analyzed. The effect of the presence of GATC sequences (phi X 174 system) and of their methylation (lambda system) was tested. The following conclusions can be drawn: some mismatched base pairs trigger the process of mismatch repair, causing a localized strand-to-strand information transfer in heteroduplex DNA: transition mismatches G:T and A:C are efficiently repaired, whereas the six transversion mismatches are not always readily recognized and/or repaired. The recognition of transversion mismatches appears to depend on the neighbouring nucleotide sequence; single unpaired bases (frameshift mutation "mismatches") are recognized and repaired, some equally efficiently on both strands (longer and shorter), some more efficiently on the shorter (-1) strand; large non-homologies (about 800 bases) are not repaired by the Mut H, L, S, U system, but some other process repairs the non-homology with a relatively low efficiency; full methylation of GATC sequences inhibits mismatch repair on the methylated strand: this is the chemical basis of strand discrimination (old/new) in mismatch correction; unmethylated GATC sequences appear to improve mismatch repair of a G:T mismatch in phi X 174 DNA, but there may be some residual mismatch repair in GATC-free phi X 174, at least for some mismatches.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

19.
phi CTX is a cytotoxin-converting phage isolated from Pseudomonas aeruginosa. In this study, we determined the complete nucleotide sequence of the phi CTX phage genome. The precise genome size was 35,538 bp with 21 base 5'-extruding cohesive ends. Forty-seven open reading frames (ORFs) were identified on the phi CTX genome, including two previously identified genes, ctx and int. Among them, 15 gene products were identified in the phage particle by protein microsequencing. The most striking feature of the phi CTX genome was an extensive homology with the coliphage P2 and P2-related phages; more than half of the ORFs (25 ORFs) had marked homology to P2 genes with 28.9-65.8% identity. The gene arrangement on the genome was also highly conserved for the two phages, although the G + C content and codon usage of most phi CTX genes were similar to those of the host P. aeruginosa chromosome. In addition, phi CTX was found to share several common features with P2, including the morphology, non-inducibility, use of lipopolysaccharide core oligosaccharide as receptor and Ca(2+)-dependent receptor binding. These findings indicate that phi CTX is a P2-like phage well adapted to P. aeruginosa, and provide clear evidence of the intergeneric spread and evolution of bacteriophages. Furthermore, comparative analysis of genome structures of phi CTX, P2 and other P2 relatives revealed the presence of several hot-spots where foreign DNAs, including the cytotoxin gene, were inserted. They appear to be deeply concerned in the acquisition of various genes that are horizontally transferred by bacteriophage infection.  相似文献   

20.
Enzymatic mechanisms of DNA replication have been investigated using small bacteriophages as probes to illuminate the cellular systems upon which they must rely during infection. Conversion of the circular, single-stranded DNAs of phages M13, G4, and phi X174 to their duplex forms has revealed the participation of diverse ways to start a new chain and a complex DNA polymerase III holoenzyme upon which all these systems depend for chain elongation. The phi X174 system, which is the most exacting and revealing of the host chromosomal replication pattern, includes at least twenty polypeptides for making the viral DNA into a duplex and multiplying the duplex. Resolution and purification of these numerous proteins is in train and their reconstitution into a "replisome"-like structure is envisioned.  相似文献   

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