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1.
Summary A conditional lethal mutator, dnaQ49, was found in Escherichia coli K12. The dnaQ49 mutation caused stimulation of rifampicin-, nalidixic acid- and streptomycin-resistant mutation frequencies 100 to 2000 fold at 30°C and the frequencies were further increased 50 to 100 fold at 35°C or higher temperatures. Cells carrying dnaQ49 were unable to grown in salt-free L-broth at 44.5°C, and DNA synthesis but not protein synthesis of the cells was suppressed under the restrictive conditions. The dnaQ gene was located at about 5 min on the E. coli linkage map and the order of the genes residing in this region was determined to be on A-dnaE-metD-dnaQ-proA.  相似文献   

2.
Summary The sdrA102 mutation confers upon cells the ability to replicate DNA in the absence of protein synthesis. This mutation was combined with the recA200 mutation, which renders the recA protein thermolabile, and had little effect on normal replication. However, the sdrA102 recA200 double mutant exhibited temperature-sensitive stable DNA replication: it replicated DNA continuously in the presence of chloramphenicol at 30°C, whereas at 42°C DNA replication ceased after the DNA content increased only 40–45%. Suppressor mutants (rin; recA-independent) capable of stable DNA replication at 42°C were isolated from the double mutant. The suppressor mutant retained all other recA characteristics, i.e., deficient general recombination, severe UV-sensitivity, and incapability of prophage induction in lysogens. This indicates that the rin mutation specifically suppresses the recA + dependency of stable DNA replication. It is suggested that the recA + protein stabilizes a specific structure, similar to an intermediate in recombination, which may function in the initiation of stable DNA replication.  相似文献   

3.
Summary Epsilon, a fidelity subunit of Escherichia coli DNA Polymerase III, is encoded by dnaQ +. dnaQ49 is a recessive allele that confers temperature-sensitive and saltsuppressible phenotypes for both replication fidelity and viability. SOS mutagenesis in E. coli is regulated by LexA and requires activated RecA (RecA*) and the products of the umuDC operon. dnaQ49 strains with various recA, lexA and umuDC alleles were constructed to determine if activities induced as part of the SOS response influence epsilon activity. We found: (1) both UmuDC and RecA* independently enhance the dnaQ49 mutator phenotype, and (2) expression of RecA* activity in the absence of UmuDC function increases the temperature sensitivity for viability of dnaQ49. These results support the hypothesis that RecA and one or both of the UmuDC proteins interact with the replication complex during SOS mutagenesis.  相似文献   

4.
The Escherichia coli mutator mutD5 is a conditional mutator whose strength is moderate when the strain is growing in minimal medium but very strong when it is growing in rich medium. The primary defect of this strain resides in the dnaQ gene, which encodes the epsilon (exonucleolytic proofreading) subunit of the DNA polymerase III holoenzyme. In one of our mutD5 strains we discovered a mutation that suppressed the mutability of mutD5. Interestingly, the level of suppression was strong in minimal medium but weak in rich medium. The mutation was localized to the dnaE gene, which encodes the alpha (polymerase) subunit of the DNA polymerase III holoenzyme. This mutation, termed dnaE910, also conferred improved growth of the mutD5 strain and caused increased temperature sensitivity in both wild-type and dnaQ49 backgrounds. The reduction in mutator strength by dnaE910 was also observed when this allele was placed in a mutL, a mutT, or a dnaQ49 background. The results suggest that dnaE910 encodes an antimutator DNA polymerase whose effect might be mediated by improved insertion fidelity or by increased proofreading via its effect on the exonuclease activity.  相似文献   

5.
Summary We have found that the cells possessing the polA6 mutation affecting DNA polymerase I are unable to accept another mutation (uvr502) leading to UV-sensitivity. The introduction of the polA12 mutation determining the synthesis of a temperature sensitive DNA polymerase I into the uvr502 mutant results in the temperature sensitivity of colony forming ability of the double mutant. These data show that the uvr502 derivatives lacking DNA polymerase I are inviable. Reversions to temperature resistance in the population of the double mutant uvr502 polA12 may occur because of reverse mutations at one of the mutated sites or because of mutations suppressing DNA polymerase I deficiency but not UV- or MMS-sensitivity of revertants. DNA and protein synthesis in uvr502 polA12 cells continues after a shift to 45°C with rates almost indistinguishable from those in single mutants or wild type cells. No differences in DNA degradation were observed during incubation of single and double mutants at 45°C. The single strand molecular weight distribution of parent DNA from the double mutant as well as that from wild type cells is not affected by the shift to 45°C and 3 hours incubation at this temperature. We suggest that DNA polymerase I and/or the product altered by the uvr502 mutation are required for some step(s) of discontinuous DNA replication nonessential for the formation of acid insoluble DNA. The DNA polymerase I and the uvr gene product seem to be able to substitute for each other in accomplishing this process.  相似文献   

6.
Summary We have characterized a new mutation rpoD800 affecting the sigma gene of E. coli. Upon transfer to high temperature, a strain with the rpoD800 mutation ceases growth within 30 min. We find that this mutation renders sigma about 10-fold more thermolabile than the wild type sigma at 45°C in vitro. We have compared the temperature profile for inactivation of wild type and mutant sigma and find that the mutant inactivates at a temperature about 9° C lower than does the wild type.The chromosomal locus affected by rpoD800 is shown to be allelic to the locus affected by the spontaneous mutants ts285 and alt-1. All three mutations result in altered sigma and in altered growth at high temperature. We argue that the single locus affected is the structural gene for the sigma subunit of E. coli RNA polymerase.  相似文献   

7.
Summary The temperature-sensitive mutation in Bacillus subtilis 168-134ts, a conditional lethal DNA initiation mutant, was transferred to the minicell producing strain, CU 403 div IV-B1, to study he relationship of DNA synthesis to cell division. Markers in the combined mutant were verified by transduction. DNA replication kinetics, genome location by autoradiography, and clonal analysis of cell division patterns during spore outgrowths were investigated. Growth of the double mutant at the restrictive temperature results in an impressive reduction of the percentage cell length covered by DNA grain clusters (60.2% at 30° C compared to 8.6% after 2 h at 45° C). The probability of a minicell producing division in double mutant clones is essentially the same at 30° C and during the initial 2–3 h growth at 45° C at which time lysis begins. Residual division at 45° C is attributable to processes initiated at 30° C. The CU 403 div IV-B1, 134ts, double mutant divides about 25% as frequently relative to growth as do wild type CU 403 clones when incubated at permissive temperature. This is approximately 15% greater division suppression than previously found in the CU 403 div IV-B1 mutant strain, and is presumably due to interactions of the mutant gene products both of which affect DNA.  相似文献   

8.
Summary The nucleotide sequences of the recessivednaQ49 and the dominantmutD5 mutator were determined. ThednaQ49 mutator has a single base substitution in thednaQ gene, thus causing one amino acid change,96Val (GTG)→ Gly (GGG), in the DnaQ protein (ε subunit of DNA polymerase III holoenzyme). ThemutD5 mutator possesses two base substitutions in the same gene, resulting in two amino acid changes,73Leu (TTG)→Trp (TGG) and164Ala (GCA)→Val (GTA), which were designated themutD52 andmutD51 mutations, respectively. Construction of chimaeric genes carrying one or two of these mutations revealed: (1) eithermutD51 ormutD52 alone causes the dominant mutator phenotype when present in a multi-copy plasmid; (2)mutD51, but notmutD52, exerts the dominant mutator phenotype when present in a low-copy plasmid; (3) the dominantmutD51 mutator activity is suppressed by thednaQ49 mutation when both mutations are present in the same gene. Based on these findings, we devised a model for the action of these mutators.  相似文献   

9.
Summary Seven mutants of E. coli with temperature-sensitive synthesis of DNA have been isolated. Synthesis of RNA, protein and DNA precursors does not appear to be directly affected. The mutants can be divided into at least two groups on the basis of their pattern of DNA synthesis, their ability to support phage growth at 41° and their genetic mapping.Mutants of the first group are heterogeneous in their pattern of DNA synthesis at 40°. Some mutants cease DNA synthesis abruptly upon transfer to 40° and any residual DNA synthesis is barely detectable. In others there is substantial residual synthesis at 40°. All these Group 1 mutants are alike, however, in that they support the growth of phage T4 but not Lambda at 41°. Two mutants with barely detectable residual DNA synthesis carry DNA mutations which have been mapped by P1 transduction and show about 72% linkage to the malB locus. It has not yet proved possible to map accurately the mutants showing substantial residual synthesis, and the possibility that these mutations are in a different gene(s) has not been excluded.A single mutant has been placed in a second group. Like some Group 1 mutants it synthesizes substantial amounts of DNA at 40° before synthesis stops. However, unlike them it supports the growth of T4 and Lambda at 41°. The DNA mutation maps near the leu locus. Certain properties of this mutant are consistent with the idea that initiation of DNA synthesis is temperature-sensitive in this strain.Adapted from a dissertation presented in partial fulfillment of the degree of Doctor of Philosophy. This investigation was supported in part by U.S. Public Health Services Grant 5-TO1-GM00829 from the National Institute of General Medical Sciences and in part by U.S.P.H.S. research grant GM12524.  相似文献   

10.
DNA polymerase III holoenzyme is a multiprotein complex responsible for the bulk of chromosomal replication in Escherichia coli and Salmonella typhimurium. The catalytic core of the holoenzyme is an alpha epsilon theta heterotrimer that incorporates both a polymerase subunit (alpha; dnaE) and a proofreading subunit (epsilon; dnaQ). The role of theta is unknown. Here, we describe a null mutation of holE, the gene for theta. A strain carrying this mutation was fully viable and displayed no mutant phenotype. In contrast, a dnaQ null mutant exhibited poor growth, chronic SOS induction, and an elevated spontaneous mutation rate, like dnaQ null mutants of S. typhimurium described previously. The poor growth was suppressible by a mutation affecting alpha which was identical to a suppressor mutation identified in S. typhimurium. A double mutant null for both holE and dnaQ was indistinguishable from the dnaQ single mutant. These results show that the theta subunit is dispensable in both dnaQ+ and mutant dnaQ backgrounds, and that the phenotype of epsilon mutants cannot be explained on the basis of interference with theta function.  相似文献   

11.
Summary The isolation and properties of a new radiation sensitive mutant of Escherichia coli K-12 are described which shows a correlation between radiation sensitivity and replication of irradiated DNA. The mutation, called rer, is located between argB and purD loci. The mutant, when grown in tryptone broth after irradiation, is sensitive to UV and -rays and incorporates little or no 3H-thymidine but in minimal glucose-salts medium both the radiation sensitivity and incorporation of 3H-thymidine remain identical to that of the parent strain. Studies with a temperature sensitive double mutant rer dnaC show that 1 hr incubation of irradiated cells at 42° C before their transfer to 30° C results in higher survival as compared to their incubation at 30° C only. It is suggested that rer controls the replication of irradiated DNA and thus regulates the coordination between replication and repair of DNA.  相似文献   

12.
The temperature-sensitive DNA polymerase III (Pol III) encoded by the dnaE486 allele confers a spontaneous mutator activity in SOS-induced bacteria that is largely dependent upon DNA polymerase V (Pol V), encoded by umuD, C. This mutator activity is influenced by the defective proof-reading sub-unit of Pol III encoded by the dnaQ905 (mutD5) allele arguing that Pol V is most likely fixing mutations arising from mismatched primer termini produced by Pol III(486). The size of the dnaQ effect is, however, modest leaving open the possibility that Pol V may be responsible for some of the mutator effect by engaging in bursts of processive activity.  相似文献   

13.
Using a papillation method, a large number of Escherichia coli K-12 mutator mutations have been isolated. Only one of these (out of 1,250) mutator mutations has proved to be conditionally lethal at high temperatures. In vivo complementation tests indicated that this mutation, dnaE9, lies in dnaE, the structural gene for DNA polymerase III. The dnaE9 polymerase was not thermolabile in vitro; however, it showed a slow decline in specific activity in vivo at the nonpermissive temperature. Cultures of this mutant exhibited a comparably slow shutoff of DNA synthesis on shift to a nonpermissive temperature. dnaE9 showed temperature-sensitive mutator activity, which is not dependent on recA.  相似文献   

14.
Summary A tif-1 umuC36 double mutant of Escherichia coli was constructed. It has been found that the umuC36 mutation prevents both increased spontaneous mutagenesis and enhanced reactivation of UV-irradiated , phenomena normally observed in the tif-1 strain grown at 42°C. When the plasmid pKM101 was introduced into tif-1 umuC36, an elevated spontaneous reversion rate of the his-4 mutation observed at 30°C was further increased 6-fold at 42°C. This was accompanied by a 10-fold increase in the ability of tif-1umuC36 containing pKM101 and grown before infection at 42°C to reactivate UV-irradiated .  相似文献   

15.
An Escherichia coli strain bearing the dnaQ49 mutation, which results in a defective s subunit of DNA polymerase III, and carrying the lexA71 mutation, which causes derepression of the SOS regulon, is totally unable to maintain high-copy-number plasmids containing the umuDC operon. The strain is also unable to maintain the pAN4 plasmid containing a partial deletion of the umuD gene but retaining the wild-type umuC gene. These results suggest that a high cellular level of UmuC is exceptionally harmful to the defective DNA polymerase III of the dnaQ49 mutant. We have used this finding as a basis for selection of new plasmid umuC mutants. The properties of two such mutants, bearing the umuC61 or umuC95 mutation, are described in detail. In the umuC122:: Tn 5 strain harbouring the mutant plasmids, UV-induced mutagenesis is severely decreased compared to that observed with the parental umuDC + plasmid. Interestingly, while the frequency of UV-induced GC AT transitions is greatly reduced, the frequency of AT TA transversions is not affected. Both mutant plasmids bear frameshift mutations within the same run of seven A residues present in umuC +; in umuC61 the run is shortened to six A whereas in umuC95 is lengthened to eight A. We have found in both umuC61 and umuC95 that translation is partially restored to the proper reading frame. We propose that under conditions of limiting amounts of UmuC, the protein preferentially facilitates processing of only some kinds of UV-induced lesions.  相似文献   

16.
Summary A heat resistant mutant of E. coli dnaAts46 was isolated, which grows normally only at temperatures above 39°. After a temperature shift from 42° to 32° the mutant overproduces DNA relative to protein. This is due to overinitiation of rounds of chromosome replication at low temperature, as indicated by hybridization and other experiments. The mutation is cotransduced by Pl with ilv and could not be separated from dnaAts46 by transduction.  相似文献   

17.
Summary DNA-DNA hybridisation experiments show that chloramphenicol induces a burst of initiation from the oriC region of a dnaA46 mutant of Escherichia coli at 36.5° C but not from the isogenic dnaA + strain. Following this stimulation of initiation, DNA replication proceeds normally towards the terminus. The temporal pattern of the extra initiation is in parallel with the induced stimulation of RNA synthesis caused by chloramphenicol in the same strain. This is consistent with the hypothesis that the stimulation of initiation in the dnaA mutant is the result of the stimulation of the synthesis of an RNA species.  相似文献   

18.
DNA polymerase III has been recognized as the required replication enzyme in Escherichia coli. The synthesis subunit of DNA polymerase III holoenzyme (alpha subunit) is encoded by the dnaE gene. We have reported that E. coli cells can survive and grow in the absence of a functional dnaE gene product if DNA polymerase I and the pcbA1 mutation are present. Existing mutations in the dnaE gene have been conditionally defective thermolabile mutations. We report here construction of nonsense mutations in the dnaE gene by use of a temperature-sensitive suppressor mutation to permit survival at the permissive temperature (32 degrees C). Introduction of the pcbA1 mutation eliminated the temperature-sensitive phenotype. We confirmed by immunoblotting the lack of detectable alpha subunit at 43 degrees C.  相似文献   

19.
Summary A mutant of E. coli has been isolated that is temperature-sensitive in respect of tryptophanase. When incubated at 60°C, cell-free extracts of the mutant suffer inactivation of enzyme activity much more rapidly than similar extracts of the wild type. After lysogeny with a specialized transducing phage carrying the wild-type tryptophanase gene, the mutant is able to synthesize tryptophanase that is wild-type in its response to treatment at 60°C. It is concluded that the mutation lies in the structural gene for the enzyme.Two further mutants have been isolated that synthesize tryptophanase constitutively. One mutation renders synthesis of the enzyme indifferent to the presence of inducer; the other mutation allows synthesis of the enzyme in the absence of inducer at about 35% of the fully induced wild-type rate. Neither mutation alleviates catabolite repression. Genetic mapping shows that the constitutive mutations lie very close to the structural-gene mutation, on the side of the structural gene distant from bglR.  相似文献   

20.
Summary A total of 59 new temperature sensitive cdc mutants are described which grow normally at 25°C but become blocked at DNA replication or mitosis when incubated at 36°C. Thirtynine of the mutants are altered in cdc genes which have been identified previously. The remaining 20 mutants define 10 new cdc genes. These have been characterised physiologically, and 6 of the genes (cdc 17, 20, 21, 22, 23, 24) were found to be required for DNA replication, 2 for mitosis (cdc 27, 28), and 2 (cdc 18, 19), could not be unambigously assigned to either DNA replication or mitosis but were definitely required for one or the other.Three genes, the previously identified cdc 10, and cdc 20, 22 are likely to be required for the initiation of DNA replication. Mutants in two genes, cdc 17, 24 undergo bulk DNA synthesis at 36°C, but this DNA is defective. In the case of cdc 17 the defect is in the ligation of Okazaki fragments. cdc 23 is required for bulk DNA synthesis, whilst cdc 21 may possibly be required for the initiation of a particular sub-set of replicons.A previously isolated mutant cdc 13.117 is also further described. This mutant becomes blocked in the middle of mitosis with apparently condensed chromosomes.  相似文献   

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