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1.
Fifty-six mutants of Bacillus subtilis 168 were selected for resistance to bacteriophages phi 29 or phi 25. The mutations were all linked to previously described teichoic acid markers gtaA, gtaB or gtaC, for the first and last of which, the gene products have previously been identified. Each linkage group was shown to have two distinct phenotypes with respect to phage resistance and cell-wall galactosamine content. Recombination indexes of 0.35, 0.13 and 0.41 for groups A, B and C respectively were consistent with the presence of two average-sized genes in groups A and C. Correlation between genetic and phenotypic differences supported this conclusion and led to the designation of two new markers, gtaD and gtaE. Two- and three-factor transformation crosses suggested the order hisA-gtaB-gtaD-gtaA-tag-1 and gtaC-gtaE-argC. Assays for UDPglucose pyrophosphorylase and phosphoglucomutase activities in soluble extracts of representative mutants revealed that, in contrast to previous findings, the former activity was virtually undetectable in all nine group B mutants examined, suggesting that gtaB is the structural gene of this enzyme. Our results allow us to account for discrepancies with respect to previous reports. The thermosensitive mutation previously designated rodC1 was shown to be 90% cotransformable with tag-1. In view of their extremely similar phenotypes the former mutation was renamed tag-3, and the likely order obtained was gtaA-tag-3-tag-1. This suggests that many mutations associated with deformation of cell shape in B. subtilis are located in the region where teichoic acid genes map.  相似文献   

2.
By use of the Bacillus subtilis bacteriophage cloning vehicle phi 105J23, B. subtilis chromosomal MboI fragments have been cloned that alleviate the pleiotropic effects of the recE4 mutation. The recombinant bacteriophages phi 105Rec phi 1 (3.85-kilobase insert) and phi 105Rec phi 4 (3.3-kilobase insert) both conferred on the recE4 strain YB1015 resistance to ethylmethane sulfonate, methylmethane sulfonate, mitomycin C, and UV irradiation comparable with the resistance observed in recE+ strains. While strain YB1015 (recE4) and its derivatives lysogenized with bacteriophage phi 105J23 were not transformed to prototrophy by B. subtilis chromosomal DNA, strain YB1015 lysogenized with either phi 105Rec phi 1 or phi 105Rec phi 4 was susceptible to transformation with homologous B. subtilis chromosomal DNA. The heteroimmune prophages phi 105 and SPO2 were essentially uninducible in strain YB1015. Significantly, both recombinant prophages phi 105Rec phi 1 and phi 105Rec phi 4 were fully inducible and allowed the spontaneous and mitomycin C-dependent induction of a coresident SPO2 prophage in a recE4 host. The presence of the recombinant prophages also restored the ability of din genes to be induced in strains carrying the recE4 mutation. Finally, both recombinant bacteriophages elaborated a mitomycin C-inducible, 45-kilodalton protein that was immunoreactive with Escherichia coli recA+ gene product antibodies. Collectively, these data demonstrate that the recE+ gene has been cloned and that this gene elaborates the 45-kilodalton protein that is involved in SOB induction and homologous recombination.  相似文献   

3.
Some characteristics of Bacillus subtilis phage SPO2 which show that it is a temperate phage are presented. Wild-type SPO2 forms turbid plaques, similar to those of other temperate phages. SPO2 lysogenic strains which are resistant to SPO2 can be isolated; these strains remain stable lysogens despite the fact that they can no longer adsorb SPO2. SPO2 lysogenic strains can be grown for many generations in SPO2 antiserum and remain lysogenic. Phage SPO2 plates on phi105 lysogens and phage phi105 plates on SPO2 lysogens; this indicates that SPO2 and phi105 are heteroimmune. Phage phi105 plates on an SPO2-resistant strain; this indicates that SPO2 and phi105 adsorb to different receptor sites on the bacterial surface.  相似文献   

4.
Mutations designated gtaC and gtaE that affect alpha-phosphoglucomutase activity required for interconversion of glucose 6-phosphate and alpha-glucose 1-phosphate were mapped to the Bacillus subtilis pgcA (yhxB) gene. Backcrossing of the two mutations into the 168 reference strain was accompanied by impaired alpha-phosphoglucomutase activity in the soluble cell extract fraction, altered colony and cell morphology, and resistance to phages phi29 and rho11. Altered cell morphology, reversible by additional magnesium ions, may be correlated with a deficiency in the membrane glycolipid. The deficiency in biofilm formation in gtaC and gtaE mutants may be attributed to an inability to synthesize UDP-glucose, an important intermediate in a number of cell envelope biosynthetic processes.  相似文献   

5.
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   

6.
7.
Generalized transducing phage similar to phage P1 in Escherichia coli was isolated from E. coli W39, an antigenic test strain of the O121 group. This phage, designated phi w39, was reciprocally heteroimmune to phages P1 and P7, but nonreciprocally heteroimmune to phage D6. Transduction experiments using various R plasmids with different molecular weights suggested that phage phi w39 could transduce at least 65 megadaltons DNA. As in the case of P1 prophage, phi w39 prophage existed as a plasmid belonging to incompatibility group Y and carried a dnaB-like function. The molecular weight of phi w39 plasmid was nearly the same as that of plasmid, i.e., 58.6 megadaltons. Despite the pronounced structural and functional similarity of phages phi w39 and P1, restriction cleavage patterns of their genomes differed considerably.  相似文献   

8.
The bacteriophage-host sensitivity patterns of 16 strains of Lactococcus lactis originally isolated from a mixed strain Cheddar cheese starter culture were determined. Using phages obtained from cheese factory whey, four of the strains were found to be highly phage resistant. One of these isolates, Lactococcus lactis subsp. cremoris HO2, was studied in detail to determine the mechanisms responsible for the phage insensitivity phenotypes. Conjugal transfer of plasmid DNA from strain HO2 allowed a function to be assigned to four of its six plasmids. A 46-kb molecule, designated pCI646, was found to harbor the lactose utilization genes, while this and plasmids of 58 kb (pCI658), 42 kb (pCI642), and 4.5 kb (pCI605) were shown to be responsible for the phage resistance phenotypes observed against the small isometric-headed phage 712 (936 phage species) and the prolate-headed phage c2 (c2 species). pCI658 was found to mediate an adsorption-blocking mechanism and was also responsible for the fluffy pellet phenotype of cells containing the molecule. pCI642 and pCI605 were both shown to be required for the operation of a restriction-modification system.  相似文献   

9.
An improved method of in situ lysis of bacteriophage-infected Bacillus subtilis was developed and used to study 29 and SPO1 phage structures produced by individual cells.  相似文献   

10.
Various phenotypes of the resistance to aminoglycoside- and peptide-antibodies of Mycobacterium tuberculosis strain H37Rv were produced by single- and/or two-step selection of the parent strain. Mutants obtained by single-step selection with antibiotics were classified into ten phenotypes; one of single resistance, two of triple resistance, three of quadruple resistance, and four of sextuple resistance. There were two kinds of sextuple resistance (high resistance to enviomycin, viomycin, capreomycin, kanamycin, lividomycin). One was isolated from the parent strain by single-step selection and could be eliminated by mutation to isoniazid resistance, the other was obtained by two-step selections and was not eliminated by mutation to isoniazid resistance. Interaction between mutation to streptomycin resistance and mutation to quadruple resistance (4R phenotype) was observed. Streptomycin resistance interfered with the formation of the 4R phenotype and produced a different phenotype, KR instead of the 4R phenotype. The existence of mutation of the 4R phenotype did not usually interfere with mutation to streptomycin resistance, but a small portion of the mutants with the 4R phenotype were altered in their phenotype from 4R to KR after addition of the mutation to streptomycin resistance. This effect of the mutation to streptomycin resistance was not observed in mutants which already had a mutation to klR phenotype (mutation to low concentrations of kanamycin only).  相似文献   

11.
SPO2 and phi105 are temperate Bacillus subtilis bacteriophages which have been suggested to belong to a cluster of related bacteriophages. In the present work, we show that SPO2 does not complement any of the 11 essential genes known in phi105 and that the phages do not recombine. Deoxyribonucleic acid (DNA)-DNA hybridization shows less than 10% homology between SPO2 and phi105 DNA. DNA synthesis in phi105 shows a greater dependence on host functions than does SPO2 DNA synthesis. Growth of phi105 but not of SPO2 is inhibited by the uracil analogue 6-(p-hydroxyphenylazo)-uracil. Infection of a DNA polymerase-deficient strain of B. subtilis with SPO2 leads to an increase in DNA polymerase activity in crude extracts, whereas no such increase is found after infection of this strain with phi105. It is concluded that SPO2 and phi105 are unrelated bacteriophages.  相似文献   

12.
For 31 clinical strains of S. aureus the correlation between phenotype and genotype of resistance to macrolides, lincosamides and streptogramins B (MLSB) was established.. Phenotypes were determined on the basis of: susceptibility to erythromycin and clindamycin and the ability to an induction of the resistance (phenotypes S, susceptible; R , constitutive resistant, D, resistant after induction with erythromycin, D+, resistant after induction with erythromycin and with a presence of the small colonies inside inhibition zone between erythromycin and clindamycin discs), and on the basis of the resistance to spectinomycin (spR, resistant, spS, susceptible). Among examined S. aureus strains eight phenotypes of resistance to MLSB were recognized (the corresponding genotypes are given in brackets). Six phenotypes were typical: SspS (lack of MLS-B resistance genes), NEGspS (msrA/B, 1 strain), D+spS (ermCi, 4 strains),. DspR (ermAi, 11 strains and ermAi + msrA/B, 2 strains), RspR (ermAc, 4 strains and ermA + msrA/B,1 strain and ermA + ermC, 1 strain) and RspS (ermCc, 6 strains and ermB, 1 strain). Two rare phenotypes in two single strains were observed: SspR (ermAi, the strain with altered inducibility, inductor other than erythromycin) and DspS (ermAi, presumably mutation or lack of spc in Tn554).  相似文献   

13.
A 1.6 kb fragment of DNA of plasmid pBD64, obtained after partial digestion with HpaII, carrying a chloramphenicol-resistance determinant and a single site for the enzyme Bg/II, was inserted into the genome of defective phage phi 105 d/ys. Two types of phage were subsequently isolated and both transduced cells of Bacillus subtilis to chloramphenicol resistance. One type contained 26 kb and the other 32 kb of DNA. Bacillus subtilis chromosomal DNA fragments generated by cleavage with Bg/II were ligated into the unique Bg/II site within the smaller phage genome. A specialized transducing phage was isolated which carried the metC gene on a 6 kb Bg/II fragment. This phage, denoted phi 105 d(Cmrmet), transduced B. subtilis strain MB79 pheA12 metC3 to Met+ and to chloramphenicol resistance, and the metC3 mutation was complemented in transductants.  相似文献   

14.
Lactococcus lactis LMA12-4 is a pTR2030 transconjugant that has been used as an industrial starter culture because of its resistance to phages predominant in cheese plants. Plasmid pTR2030 interferes with susceptible phages in this host strain via two mechanisms, restriction and modification (R/M) and abortive infection (Hsp). After prolonged use of LMA12-4 transconjugants in the industry, two different bacteriophages, designated nck202.48 (48) and nck202.50 (50), were isolated which could produce plaques on LMA12-4 containing pTR2030. In this study, these two phages were characterized and compared with a third phage, nck202.31 (31), which is susceptible to both the R/M and Hsp activities encoded by pTR2030. Phage 48 was not susceptible to inhibition by Hsp, whereas 50 was unaffected by either the R/M or Hsp mechanisms. All three were small isometric-headed phages, but small differences were noted between the phages in the structural details of the tail base plate, susceptibility to chloroform treatment, and requirements for calcium infectivity. The phage genomes were all between 29.9 and 31.9 kb in length. Phages 31 and 48 harbored cohesive ends, whereas the phage 50 genome was circularly permuted, terminally redundant, and carried a putative packaging initiation site. DNA-DNA hybridization experiments conducted between the phages revealed a common region in 48 and 50 that may correlate with the resistance of the two phages to the Hsp-abortive infection induced by pTR2030. Phage 50 also harbored DNA sequences that shared homology to pTR2030 in the region where R/M activities have been localized on the plasmid. Molecular characterization of the three phages localized regions within the genomes of the pTR2030-resistant phages that may be responsible for circumventing plasmid-encoded Hsp and R/M defense mechanisms in lactococci.  相似文献   

15.
Successful large-scale fermentations of the bacterium Serratia entomophila for use in biological control of the soil-dwelling insect Costelytra zealandica has required the development of a phage-resistant mutant, BC4B. We report our investigations into S. entomophila phages and the nature of the phage resistance mechanism of strain BC4B. The parental strain of BC4B, A1MO2, was found to contain two previously unidentified prophages, (phi)9A and (phi)9B, which were UV inducible and also released spontaneously in large numbers. BC4B was shown to be completely cured of (phi)9A. Single lysogens of (phi)9A and (phi)9B were not homoimmune to any other S. entomophila phages. However, on the basis of DNA-DNA homology, all S. entomophila phages except (phi)CW3 were shown to have significant regions of homology and also packaged their DNA via pac-like mechanisms. The failure of phage particles to adsorb was identified as the basis of phage resistance in BC4B. In addition, it was demonstrated that all known S. entomophila phages are naturally temperature sensitive.  相似文献   

16.
17.
18.
A comparative study of the effects of ultraviolet radiation on three Bacillus subtilis phages is presented. Phages phi 29, SPP1 and SPO2c12 or their DNAs were irradiated by UVC (254 nm) and quantum yields for inactivation were calculated. For each phage, the purified DNA was found to be more sensitive than the intact virus when assayed in a uvr+ host. The data imply that this is because transfecting DNA is repaired less efficiently than DNA of the intact phage; rather than because of differences in sensitivity to lesion production. Even though phi 29 has the smallest target size of the three phages, phi 29 and its DNA are the most sensitive. Phages SPO2 and SPP1 code for gene products which complement the repair system of the host. The transfecting DNA of phage SPP1 is extremely sensitive to UV damage when assayed in a uvr-host. This is attributed to the fact that in transfection SPP1 DNA must undergo recombination for productive infection to occur. The recombination process strongly interferes with the repair of damaged DNA.  相似文献   

19.
Two species of restriction endonuclease were isolated by gel filtration and DEAE-cellulose chromatography from a cell-free extract of Bacillus amyloliquefaciens (B. subtilits) N strain; a lower molecular weight endonuclease (endonuclease R.BamNI) and a higher molecular-weight one (endonuclease R.BamNx). Both of them required only Mg2+ for their activities. Endonuclease R.BamNx introduced a larger number of site-specific scissions in Excherchia coli phage lambda DNA that endonuclease R.BamNI did. Endonuclease R.BamNx cleaved Bacillus phage phi 105C DNA at the specific sites which are classified into two groups: one type of sites is modified by B. amyloliquefaciens H strain in vivo while the other is not affected. It was also active on DNA'S OF E. coli phage T7, lambdadvl, Simian virus 40 (SV40) and colicinogenic factor ColEI and was inactive on DNAs of Bacillus phages phi 29 and M2. Endonuclease R.BamHI isolated from H strain by Wilson and Young. This endonuclease was active on DNAs of phage lambda, lambdadvl and SV40, adn was inactive on DNAs of phages phi 105C, phi 29, M2 and T7, and ColEI DNA.  相似文献   

20.
Recombination-deficient mutants of Bacillus subtilis.   总被引:8,自引:7,他引:1       下载免费PDF全文
Two mutant strains of Bacillus subtilis Marburg, NIG43 and NIG45, were isolated. They showed high sensitivities to gamma rays, ultraviolet light (UV), and chemicals. Deficiencies in genetic recombination of these two mutants were shown by the experiments on their capacity in transformation. SPO2 transfection, and PBS1 phage transduction, as well as on their radiation and drug sensitivities and their Hcr+ capacity for UV-exposed phage M2. Some of these characteristics were compared with those of the known strains possessing the recA1 or recB2 alleles. Mapping studies revealed that the mutation rec-43 of strain NIG43 lies in the region of chromosome replication origin. The order was purA dna-8132 rec-43. Another mutation, rec-45, of strain NIG45 was found to be tightly linked to recA1. The mutation rec-43 reduced mainly the frequency of PBS1 transduction. On the other hand, the mutation rec-45 reduced the frequency of recombination involved both in transformation and PBS1 transduction. The mutation rec-43 of strain NIG43 is conditional, but rec-45 of strain NIG45 is not. The UV impairment in cellular survival of strain NIG43 was gradually reverted at higher salt or sucrose concentrations, suggesting cellular possession of a mutated gene produce whose function is conditional. In contrast to several other recombination-deficient strains, SPO2 lysogens of strain NIG43 and NIG45 were not inducible, indicating involvement of rec-43+ or rec-45+ gene product in the development of SPO2 prophage to a vegetative form. The UV-induced deoxyribonucleic acid degradation in vegetative cells was higher in rec-43 and rec-45 strains.  相似文献   

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