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1.
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   

2.
3.
In Escherichia coli, the FtsQ, FtsA, and FtsZ proteins are believed to play essential roles in the regulation of cell division. Of the three proteins, FtsZ has received the most attention, particularly because of its interactions with SfiA. Double mutants which carry mutations located in the ftsQ, ftsA, or ftsZ gene in combination with the lon-1 mutation were constructed. In the presence of the lon-1 mutation, which is known to stabilize SfiA, the ftsQ1 mutant cells were not capable of forming colonies on a rich agar medium, whereas mutant cells harboring either one of the mutations grew well on this medium. Examination of lon-1 fts double-mutant cells for sensitivity to UV light revealed that those carrying the ftsA10 allele were resistant. It was also observed that in the presence of a multicopy plasmid containing a wild-type ftsZ gene, the ftsQ1 mutant filamented markedly following a nutritional shift-up and that the division rate of ftsZ84 mutant cells was slightly reduced when they harbored a wild-type ftsQ-containing plasmid. The possibility that the Fts proteins are interacting with one another and forming a molecular complex is discussed.  相似文献   

4.
Located at 135 degrees on the Bacillus subtilis genetic map are several genes suspected to be involved in cell division and sporulation. Previously isolated mutations mapping at 135 degrees include the tms-12 mutation and mutations in the B. subtilis homologs of the Escherichia coli cell division genes ftsA and ftsZ. Previously, we cloned and sequenced the B. subtilis ftsA and ftsZ genes that are present on an 11-kilobase-pair EcoRI fragment and found that the gene products and organization of these two genes are conserved between the two bacterial species. We have since found that the mutation in the temperature-sensitive filamenting tms-12 mutant maps upstream of the ftsA gene on the same 11-kilobase-pair EcoRI fragment in a gene we designated dds. Sequence analysis of the dds gene and four other open reading frames upstream of ftsA revealed no significant homology to other known genes. It was found that the dds gene is not absolutely essential for viability since the dds gene could be insertionally inactivated. The dds null mutants grew slowly, were filamentous, and exhibited a reduced level of sporulation. Additionally, these mutants were extremely temperature sensitive and were unable to form colonies at 37 degrees C. Another insertion, which resulted in the elimination of 103 C-terminal residues, resulted in a temperature-sensitive phenotype less severe than that in the dds null mutant and similar to that in the known tms-12 mutant. The tms-12 mutation was cloned and sequenced, revealing a nonsense codon that was predicted to result in an amber fragment that was about 65% of the wild-type size (elimination of 93 C-terminal residues).  相似文献   

5.
K Dai  Y Xu    J Lutkenhaus 《Journal of bacteriology》1993,175(12):3790-3797
A new cell division gene, ftsN, was identified in Escherichia coli as a multicopy suppressor of the ftsA12(Ts) mutation. Remarkably, multicopy ftsN suppressed ftsI23(Ts) and to a lesser extent ftsQ1(Ts); however, no suppression of the ftsZ84(Ts) mutation was observed. The suppression of ftsA12(Ts), ftsI23(Ts), and ftsQ1(Ts) suggests that FtsN may interact with these gene products during cell division. The ftsN gene was located at 88.5 min on the E. coli genetic map just downstream of the cytR gene. ftsN was essential for cell division, since expression of a conditional null allele led to filamentation and cell death. DNA sequence analysis of the ftsN gene revealed an open reading frame of 319 codons which would encode a protein of 35,725 Da. The predicted gene product had a hydrophobic sequence near its amino terminus similar to the noncleavable signal sequences found in several other Fts proteins. The presumed extracellular domain was unusual in that it was rich in glutamine residues. A 36-kDa protein that was localized to the membrane fraction was detected in minicells containing plasmids with the ftsN gene, confirming that FtsN was a membrane protein.  相似文献   

6.
Identification of the sporulation gene spoOA product of Bacillus subtilis   总被引:2,自引:0,他引:2  
A 2.4-kilobase fragment of the Bacillus subtilis chromosome containing the wild-type spoOA gene derived from the phi 105dspoOA+-Bc-1 transducing phage was cloned onto plasmid pBR322 in Escherichia coli. A recombinant plasmid harboring the mutant spoOA12 allele on the 2.4-kilobase insert was also constructed from the phi 105dspoOA12-1 phage DNA and pBR322. Protein products synthesized in response to plasmid DNA in a DNA-directed cell-free system derived from E. coli were analyzed by sodium dodecyl sulfate-polyacryl-amide gel electrophoresis. A protein of approximately 27,500 daltons synthesized with the recombinant plasmid DNA harboring the wild-type spoOA gene as template was not formed with the recombinant plasmid DNA harboring the spoOA12 allele. Since the spoOA12 mutation is a nonsense mutation, we conclude that the 27.5-kilodalton protein is the product of the spoOA gene.  相似文献   

7.
(i) Phenotypic suppression by aminoglycoside antibiotics of a polyauxotrophic Shigella flexneri var. Y strain on partially completed minimal medium has shown that its Thr dependence is associated with nonsense mutation. Induced Thr+ revertants selected from the culture yielded clones correcting the lytic cycle of nonsense T4 mutant phages. Transfer of R1am plasmid to these clones carrying a nonsense mutation of ampicillin resistance was performed. In this manner a S. flexneri var. Y derivative was isolated which, on the basis of the phenotypic correction of T4 phages and R1am factor, proved to be a suppressor positive clone. (ii) From phage PE5 responsible for conversion of type antigen V, mutants were isolated that had lost their converting capacity. Selected Sup+ and control Sup- strains were treated with the mutant phages and examined for the appearance of type antigen V. Three phage mutants were found to induce antigen conversion only in Sup+ strains. (iii) The data suggest that, at least with phage PE5, the information for type antigen conversion is carried by phage genome.  相似文献   

8.
An 8.0-kilobase chromosomal fragment of Bacillus subtilis which contained an intact spo0A gene was recloned onto temperate phage phi 105 from the rho 11dspo0A+-1 transducing phage. A specialized transducing phage, phi 105-dspo0A+-1, was constructed and used to transduce the spo0A12 mutant strain 1S9. A Spo+ transductant which was a single lysogen of the phi 105dspo0A+-1 transducing phage was isolated. From competent cells of this Spo+ transductant was isolated a Spo- (Spo0A) strain which was immune to phi 105. It was used to prepare a lysate of the phi 105dspo0A12 phage. Transduction of the spo0C9V recE4 strain with the phi 105dspo0A12 and phi 105dspo0A+-1 phages was carried out. The phi 105dspo0A+-1 phage gave rise to a large number of heat-resistant cells, but the phi 105dspo0A12 phage formed no heat-resistant cells. These results indicate that the spo0A12 and spo0C9V mutant genes do not complement each other in the ability to sporulate and that the spo0C9V mutation is located within the spo0A gene. Although the spo0C9V strain was completely asporogenous, the spo0C9V/spo0C9V diploid strain produced heat-resistant cells at a frequency of ca. 10(-3) in the sporulation medium. This result indicates that two copies of the spo0C9V mutant gene partially restore the ability of these cells to sporulate.  相似文献   

9.
The strain-specific capsular polysaccharide KR5 antigen of Sinorhizobium meliloti 41 is required both for invasion of the symbiotic nodule and for the adsorption of bacteriophage 16-3. In order to know more about the genes involved in these events, bacterial mutants carrying an altered phage receptor were identified by using host range phage mutants. A representative mutation was localized in the rkpM gene by complementation and DNA sequence analysis. A host range phage mutant isolated on these phage-resistant bacteria was used to identify the h gene, which is likely to encode the tail fiber protein of phage 16-3. The nucleotide sequences of the h gene as well as a host range mutant allele were also established. In both the bacterial and phage mutant alleles, a missense mutation was found, indicating a direct contact between the RkpM and H proteins in the course of phage adsorption. Some mutations could not be localized in these genes, suggesting that additional components are also important for bacteriophage receptor recognition.  相似文献   

10.
A gene 32 amber (am) mutant, amNG364, fails to grow on Escherichia coli Su3+ high temperatures, suggesting that the tyrosine residue inserted at the am codon by Su3+ leads to a temperature-sensitive gene 32 protein (P32). By plating amNG364 on E. coli Su3+ 45 degrees C, several pseudorevertants were found that proved to contain a suppressor (su) mutant in addition to the original am mutation. Crosses of two of these amNG364su strains to am+ phage indicated that the suppressors themselves are in or close to gene 32. Phage strains carrying either of the two su mutations, without amNG364, grew normally. When cells were infected by these su mutants and the proteins produced were examined by sodium dodecyl sulfate-gel electrophroesis, specific overproduction of P32 was found. Maximum overproduction compared to am+ phage was 6.6-fold for one su mutant and 2.4-fold for the other. Other proteins were produced in normal amounts and in normal time sequence. When amNG364su phage were allowed to infect E. coli S/6/5(Su-), the gene 32 am fragments produced were present at the same derepressed levels as in an infection by amNG364 without a suppressor. The suppressor mutations are interpreted as causing derepression of P32 by altering sites in this autogenously regulated protein involved in template recognition. Previously, specific derepression of gene 32 had only been shown using gene 32 conditional lethal mutants grown under restrictive conditions. We have shown that P32 can also be derepressed under permissive conditions, indicating that loss of P32 function is not necessary for specific derepression.  相似文献   

11.
Characterization and cloning of gene 5 of Bacillus subtilis phage phi 29   总被引:3,自引:0,他引:3  
G Martín  M Salas 《Gene》1988,67(2):193-201
Sequencing of the phi 29 DNA region [open reading frames (ORFs) 12, 11 and 10] between genes 6 and 4 of the mutant ts5(219) showed that a G in the wild-type phage had been changed to an A in the mutant at position 218 of ORF 10 indicating that this ORF corresponds to gene 5. ORF 10 was cloned in plasmid pPLc28 under the control of the PL promoter of phage lambda and, after heat induction of the Escherichia coli cells carrying the recombinant plasmid pGM26, a 12-kDa protein was overproduced, accounting for about 5% of the de novo synthesized protein. Introduction of a nonsense mutation in ORF 10 indicated that the latter codes for the 12-kDa protein. The predicted secondary structure, the hydrophilicity values and the antigenic regions of protein p5 are discussed.  相似文献   

12.
13.
J F Atkins  J A Steitz  C W Anderson  P Model 《Cell》1979,18(2):247-256
The main binding site for mammalian ribosomes on the single-stranded RNA of bacteriophage MS2 is located nine tenths of the way through the coat protein gene. Translation initiated at an AUG triplet in the +1 frame yields a 75 amino acid polypeptide which terminates within the synthetase gene at a UAA codon, also in the +1 frame. Partial amino acid sequence analysis of the product synthesized in relatively large amounts by mammalian ribosomes confirms this assignment of the overlapping cistron. The same protein is made in an E. coli cell-free system, but only in very small amounts. Analysis of the translation products directed by RNA from op3, a UGA nonsense mutant of phage f2, identifies the overlapping cistron as a lysis gene. In this paper we show that the op3 mutation is a C yield U transition occurring in the second codon of the synthetase cistron, which explains the lowered production of phage replicase (as well as lack of lysis) upon op3 infection of nonpermissive cells. We discuss the properties of the overlapping gene in relation to its lysis function, recognition of the lysis initiator region by E. coli versus eucaryotic ribosomes and op3 as a ribosome binding site mutant for the f2 synthetase cistron.  相似文献   

14.
Shi YR  Lee CC  Hsu YA  Wang CH  Tsai FJ 《Human heredity》2002,54(1):54-56
We report a new nonsense mutation in the human sedlin (SEDL) gene in a family with X-linked spondyloepiphyseal dysplasia tarda. A substitution of cytosine for adenine at nucleotide position 329 causing a nonsense mutation (S110X) in exon 6 was identified in the affected patient in the family.  相似文献   

15.
The Ion gene of E. coli controls the stability of two bacteriophage lambda proteins. The functional half-life of the phage N gene product, measured by complementation, is increased about 5-fold in Ion mutant strains, from 2 min to 10 min. The chemical half-life of N protein, determined by its disappearance on polyacrylamide gels following pulse-chase labeling, increases about three-fold in Ion cells. In contrast to its effect on the N protein, the Ion mutation produces a 50% decrease in the chemical half-life of cII protein. The decay rate of many other phage proteins, including the unstable gene O product, remains unaffected by a host Ion defect. A Ion mutation alters lambda physiology in two ways. First, upon infection, the phage enters the lytic pathway predominantly. This may result from the deficiency of cII protein caused by its decreased stability, since cII product is required for establishment of lysogeny. Second, brief thermal induction of a Ion (lambda c1857) lysogen leads irreversibly to lysis; repression cannot be restablished and the treated cells are committed to forming infective centers. Although N product is normally required for rapid commitment, Ion lysogens become committed more rapidly than Ion+ lysogens, even in the absence of N function. These results identify for the first time native proteins whose stability is affected by the Lon proteolytic pathway. They also indicate that the Lon system may be important in regulating gene expression in E. coli.  相似文献   

16.
R C Gayda  M C Henk    D Leong 《Journal of bacteriology》1992,174(16):5362-5370
A plasmid, pDLL4, was isolated from a Tn5tac1 mutagenesis experiment with plasmid pZAQ. When pDLL4 was transformed into wild-type rod-shaped cells, it caused cells in the population to become curved (C-shaped or convoluted). The Tn5tac1 transposon was integrated within the carboxyl end of the ftsA gene in pDLL4. This mutation was designated ftsAc. Subcloning ftsAc DNA into another plasmid vector verified that the curved-cell phenotype was caused by the expression of this altered gene. DNA sequence analysis of the ftsAc mutation revealed that the transposition event changed the DNA so that the last 28 amino acids of the FtsA protein were lost and 5 new amino acids were added. A radioactive peptide band corresponding to this truncated FtsAc protein was identified by a T7 promoter-T7 polymerase protein labeling system. Observations of thin sections of these curved cells with an electron microscope revealed aggregates of striated cylindrical structures traversing the cytoplasm. The ends of these aggregates appear to be at or near the cell membrane. The linear periodicity of the cylinders was approximately 11 nm, and the diameter of a cylinder was about 15 nm. Aggregates of as many as five cylinders were arrayed diagonally to the long axis of the curved cells, a finding that suggests that some type of internal organization may be causing the curved cell shape.  相似文献   

17.
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   

18.
Complementation tests have revealed that the mutation in the filamenting mutant PAT84 is distinct from ftsA and has been designated ftsZ. By isolating transducing phages carrying various amounts of the bacterial deoxyribonucleic acid in this region, it was possible to locate the ftsZ gene between ftsA and envA. It is concluded that these cell division genes are expressed independently of the neighboring murein genes.  相似文献   

19.
20.
D Favre  S J Cryz  J F Viret 《Biochimie》1991,73(2-3):235-244
A recA gene of Bordetella pertussis was identified in a plasmid library by complementation of a recA mutation in E coli and subcloned as a 2.1-kb Sph I DNA fragment. Southern hybridization experiments showed no similarity to the E coli recA gene, but very strong similarity to other Bordetella species. E coli recA mutant cells containing the B pertussis recA gene at high gene dosage were resistant to DNA-damaging agents such as methyl methane sulfonate or 4-nitroquinoline-N-oxide, displayed induction of SOS functions, and were able to promote DNA recombination, but not induction of phage lambda. The latter phenotype distinguishes the B pertussis recA gene product from the corresponding proteins from most other Gram-negative organisms. Amino acid sequence comparisons revealed a high degree of structural conservation between prokaryotic RecA proteins.  相似文献   

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