首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到10条相似文献,搜索用时 125 毫秒
1.
2.
Involvement of host DNA gyrase in growth of bacteriophage T5.   总被引:1,自引:0,他引:1       下载免费PDF全文
Bacteriophage T5 did not grow at the nonpermissive temperature of 42 degrees C in Escherichia coli carrying a temperature-sensitive mutation in gyrB [gyrB(Ts)], but it did grow in gyrA(Ts) mutants at 42 degrees C. These findings indicate that the A subunit of host DNA gyrase is unnecessary, whereas the B subunit is necessary for growth of T5. The necessity for the B subunit was confirmed by a strong inhibition of T5 growth by novobiocin and coumermycin A1, which interfere specifically with the function of the B subunit of host DNA gyrase. However, T5 growth was also strongly inhibited by nalidixic acid, which interferes specifically with the function of the A subunit. This inhibition was due to the interaction of nalidixic acid with the A subunit and not just to its binding to DNA, because appropriate mutations in the gyrA gene of the host conferred nalidixic acid resistance to the host and resistance to T5 growth in such a host. The inhibition by nalidixic acid was also not due to a cell poison formed between nalidixic acid and the A subunit (K. N. Kreuzer and N. R. Cozzarelli, J. Bacteriol. 140:424-435, 1979) because nalidixic acid inhibited growth of T5 in a gyrA(Ts) mutant (KNK453) at 42 degrees C. We suggest that T5 grows in KNK453 at 42 degrees C because its gyrA(Ts) mutation is leaky for T5. Inhibition of T5 growth due to inactivation of host DNA gyrase was caused mainly by inhibition of T5 DNA replication. In addition, however, late T5 genes were barely expressed when host DNA gyrase was inactivated.  相似文献   

3.
4.
Bacillus subtilis deoxyribonucleic acid gyrase   总被引:15,自引:7,他引:8       下载免费PDF全文
Bacillus subtilis 168 was shown to contain a deoxyribonucleic acid (DNA) gyrase activity which closely resembled those of the enzymes isolated from Escherichia coli and Micrococcus luteus in its enzymatic requirements, substrate specificity, and sensitivity to several antibiotics. The enzyme was purified from the wild type and nalidixic acid-resistant and novobiocin-resistant mutants of B. subtilis and was functionally characterized in vitro. The genetic loci nalA and novA but not novB were shown to code for portions of the functional gyrase. Enzyme from the antibiotic-resistant mutants was resistant to the drug in vitro. The most striking observation was the remarkable similarity between the B. subtilis enzyme and other DNA gyrases, especially with respect to the oxolinic acid-induced DNA cleavage in the presence of sodium dodecyl sulfate. All of the enzymes appeared to possess the same specificity of cutting sites regardless of the source or type of DNA used. This result implies that gyrase binding to DNA is highly specific.  相似文献   

5.
6.
Several spontaneous cya and crp mutants of Escherichia coli have been selected as clones simultaneously resistant to phage lambda and nalidixic acid and characterized. Both cya and crp mutants have been found to grow as cocci with increased doubling times. They have increased resistance to some mutagens (methylmethanesulfonate, ultraviolet light, gamma rays), antibiotics (nalidixic acid, ampicillin), phages (lambda, T6), sublethal heat and hypotonic shock, and decreased resistance to neutral detergents (sodium dodecyl sulfate, sodium deoxycholate), a protein synthesis inhibitor (streptomycin), and a respiratory inhibitor (sodium azide). The nature of changes in cell parameters indicate fundamental alterations in the envelope structure of the cya and crp mutant cells. The new cya and crp mutants have been found to be multiply carbohydrate negative and nonmotile in conformity with similar previously isolated mutants. Studies of revertants and phi80 cya+ and phi80 cya transductants indicated that the pleiotropic phenotype is related to a single mutational event at the cya or the crp locus in the mutants.  相似文献   

7.
SP01 development was inhibited by nalidixic acid and novobiocin in the sensitive host Bacillus subtilis 168M. Inhibition by novobiocin was prevented by a Novr mutation in the cellular DNA gyrase gene. Nalidixic acid inhibition persisted in hosts carrying a Nalr gyrase, but could be overcome by phage mutation. We conclude that SP01 requires for its development subunit B of the host DNA gyrase, but replaces or modifies subunit A.  相似文献   

8.
Incorporation of labeled deoxynucleoside triphosphates into mtDNA by isolated rat liver mitochondria has been shown previously to reflect DNA replication. We have used this system to seek evidence for a mtDNA gyrase. Coumermycin, novobiocin, nalidixic acid, and oxolinic acid are known to be inhibitors of Escherichia coli gyrase, to inhibit E. coli DNA replication, to abolish colicin E1 replication, and to depress the supercoiling of phage lambda DNA, the last two via inhibition of the DNA gyrase. Our results show that these agents inhibit [3H]dATP incorporation into bulk mtDNA at concentrations similar to those used for E. coli. Analysis by sucrose gradient sedimentation confirms the inhibition and shows further that the synthesis of the highly supercoiled form of mtDNA (i.e. 39 S DNA) is depressed relative to other mtDNA forms (i.e. 27 S DNA), suggesting an inhibition of the supercoiling process. Analysis of the DNA by CsCl/propidium diiodide centrifugation shows, in addition, that incubation with coumermycin results in the appearance of a mtDNA form shown to be relaxed mtDNA. The results are consistent with the occurrence of a mtDNA gyrase and its operation in mtDNA replication.  相似文献   

9.
Wild-type bacteriophage T4 and DNA-delay am mutants defective in genes 39, 52, 60 and 58–61 were tested for intracellular sensitivity to the antibiotics coumermycin and novobiocin, drugs which inhibit the DNA gyrase of Escherichia coli. Treatment with these antibiotics drastically reduced the characteristic growth of gene 39, 52 and 60 DNA-delay am mutants in E. coli lacking an amber suppressor (su?). Wild-type phage-infected cells were unaffected by the drugs while the burst size of a gene 58–61 mutant was affected to an intermediate extent. A su?E. coli strain which is resistant to coumermycin due to an altered gyrase permitted growth of the DNA-delay am mutants in the presence of the drug. Thus, the characteristic growth of the DNA-delay am mutants in an su? host apparently depends on the host gyrase. An E. coli himB mutant is defective in the coumermycin-sensitive subunit of gyrase (H. I. Miller, personal communication). Growth of the gene 39, 52 and 60 am mutants was inhibited in the himB mutant while the gene 58–61 mutant and wild-type T4 showed small reductions in burst size in this host. Experiments with nalidixic acid-sensitive and resistant strains of E. coli show that wild-type phage T4 requires a functional nalA protein for growth.Novobiocin and coumermycin inhibit phage DNA synthesis in DNA-delay mutant-infected su?E. coli if added during the early logarithmic phase of phage DNA synthesis. The gene 58–61 mutant showed the smallest inhibition of DNA synthesis in the presence of the drugs. Addition of the drugs during the late linear phase of phage DNA synthesis had no effect on further synthesis in DNA-delay mutant-infected cells. Coumermycin and novobiocin had no effect on DNA synthesis in wild-type-infected cells regardless of the time of addition of the antibiotics. Models are considered in which the DNA-delay gene products either form an autonomous phage gyrase or interact with the host gyrase and adapt it for proper initiation of phage DNA replication.  相似文献   

10.
The 1600-bp (base pair) fragment encoding a portion of the nalidixic acid resistant DNA gyrase, subunit B, was characterized to determine what parameters effect transformation in the gonococcus. When this DNA (pSY2) was isolated from Escherichia coli, it was able to transform a variety of gonococcal strains to resistance to nalidixic acid via DNA-mediated transformation, irrespective of their restriction-modification phenotype. Nalidixic acid resistant transformants contained no plasmid DNA sequences that corresponded to the vector, as measured by plasmid screening procedures and colony hybridization techniques. Supercoiled and linear DNA transformed the gonococcus at the same efficiency. DNA fragments as small as 615 bp were able to transform the gonococcus. The presence of a 10-bp uptake sequence enhanced a DNA fragment's ability to transform the gonococcus by four orders of magnitude. When the fragment encoding the nalidixic acid resistant DNA gyrase was subcloned into M13mp18, both the replicative form and the single-stranded form of the phage were able to transform the gonococcus to nalidixic acid resistance.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号