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1.
Summary Uvm mutants of Escherichia coli K12 selected for defective UV reversion induction have previously been reported to differ considerably from the UV-reversion-less recA and lexA mutants with regard to survival or mutagenic response to UV, X-rays and alkylating agents. In the present study, the phenotypic characterization of uvm mutants was extended to investigate several cellular processes which also may be related to or involved in UV mutagenesis. Like recA and lexA mutations, the uvm mutations exhibit highly reduced Weigle reactivation and normal host cell reactivation of UV irradiated phage . But unlike recA and lexA, the uvm mutations do not impair genetic recombination, UV induction of prophage or R plasmid-mediated UV resistance and mutagenesis. These phenotypical characteristics and preliminary results of genetic mapping lend further support to the assumption that the uvm site may be a novel locus affecting, apart from the recA and lexA loci, the error-prone repair pathway in E. coli.  相似文献   

2.
Summary Trimethoprim inhibits dihydrofolate reductase. Mutations conferring trimethoprim-resistance on E. coli K12 result in either an altered reductase with decreased affinity for the drug, or in 2–30 fold higher levels of the enzyme. Studies of the latter class of mutants indicate that dihydrofolate reductase is regulated by a diffusible molecule, and is probably under negative control. The regulatory mutants, some of which are temperature-sensitive, act cis.  相似文献   

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5.
Evidence of abortive recombination in ruv mutants of Escherichia coli K12   总被引:5,自引:0,他引:5  
Summary Genetic recombination in Escherichia coli was investigated by measuring the effect of mutations in ruv and rec genes on F-prime transfer and mobilization of nonconjugative plasmids. Mutation of ruv was found to reduce the recovery of F-prime transconjugants in crosses with recB recC sbcA strains by about 30-fold and with recB recC sbcB sbcC strains by more than 300-fold. Conjugative plasmids lacking any significant homology with the chromosome were transferred normally to these ruv mutants. Mobilization of the plasmid cloning vectors pHSG415, pBR322, pACYC184 and pUC18 were reduced by 20- to 100-fold in crosses with ruv rec + sbc + strains, depending on the plasmid used. Recombinant plasmids carrying ruv + were transferred efficiently. With both F-prime transfer and F-prime cointegrate mobilization, the effect of ruv was suppressed by inactivating recA. It is proposed that the failure to recover transconjugants in ruv recA +strains is due to abortive recombination and that the ruv genes define activities which function late in recombination to help convert recombination intermediates into viable products.  相似文献   

6.
7.
Summary F-prime heterogenotes of dam-3 bacteria segregate F-prime homogenotes at a frequency 30–200 times higher than the isogenic dam + strain. A hyperrecombination mutant which shows increased recombination between chromosomal duplications was characterized as a dam mutant. The dam-3 allele causes a reduction in linkage of proximal unselected markers in transconjugants and increases the recombination frequency between a pair of closely linked markers. It is concluded that dam mutations confer a hyperrecombination phenotype to the cell.  相似文献   

8.
Summary A mutant strain of E. coli which was isolated initially because of its strong hyper-recombination phenotype was shown to carry a lesion in uvrD. The presence of this mutation, designated uvrD210, increased the frequency of recombination between chromosomal duplications in F-prime repliconant cells and reduced linkage between closely linked markers in crosses with Hfr donors. A comparable hyper-rec phenotype was demonstrated in strains carrying other alleles of uvrD previously referred to as mutU4, uvr502 and recL152. The recombination activity of a uvrD210 strain was abolished by mutation of recA but the mutator activity associated with this allele proved to be independent of recA. It is suggested that uvrD mutations reduce the fidelity of DNA replication and that the accumulation of lesions in the newly synthesized strand provides additional sites for initiating recombination.  相似文献   

9.
Summary Infection with the bacteriophage mutant Mu c + gemts2 at 42° C induces synchrony in cell division in cultures of Escherichia coli K12. This synchrony may last for several cycles and is not only due to selection since synchronization is observed even when bacterial survival to the infection is over 80% as in lysogens for Mu c + gemts2. The mechanism by which sycnhrony is induced is not known, but since the product of Mu gene gem (previously called lig) has been shown to interact with the enzymatic system in the bacteria controlling the degree of DNA supercoiling, the phenomenon could be a consequence of this interaction.  相似文献   

10.
Summary Mutations in the cysB and cysE genes of Escherichia coli K12 cause an increase in resistance to the gyrase inhibitor novobiocin but not to coumermycin, acriflavine and rifampicin. This unusual relationship was also observed among spontaneous novobiocin resistant (Novr) mutants: 10% of Novr mutants isolated on rich (LA) plates with novobiocin could not grow on minimal plates, and among those approximately half were cysB or cysE mutants. Further analyses demonstrated that cysB and cysE negative alleles neither interfere with transport of novobiocin nor affect DNA supercoiling.  相似文献   

11.
Two routes of single-carbon (C1) biosynthesis have been described in Escherichia coli K12 previously: from serine via serine transhydroxymethylase and from glycine via a little known set of enzymes, the Glycine Cleavage Pathway. Strains deficient in both of these still have a source of C1. There therefore exists a third pathway of C1 formation. Serine appears to be the donor for the pathway. No donor of C1 other than serine of glycine appears to be of quantitative importance in E. coli K12 growing in a synthetic glucose-supplemented medium.  相似文献   

12.
Summary Low concentrations of the antibiotic coumermycin A1, the inhibitor of bacterial DNA gyrase, effectively eliminate pBR322, pMB9 and other ColE1 related plasmids from E. coli K12 strains. The curing action of antibiotic seems to result from the plasmid degradation and not just from the inhibition of replication.  相似文献   

13.
Summary We have found that several excision deficient derivatives of Escherichia coli K12 survive better after UV irradiation if incubated at 42°C than if incubated at 30°C. The highest survival was observed when incubation at 42°C followed UV irradiation and was maintained for at least 16 h. Our results indicate that this temperature dependent resistance (TDR) requires a functional recA gene, but not uvr A, uvrB, recF, or recB genes, or the recA441 (tif-1) mutation which allows thermoinduction of the recA-lexA regulon. Our data are consistent with the idea that the increase in survival observed at 42°C reflects enhanced daughterstrand gap repair by DNA strand exchange. Although the conditions used to elicit TDR can induce heat shock proteins and thermotolerance in E. coli, the relationship between the two responses remains to be elucidated.  相似文献   

14.
Summary The phenomenon of conjugation consists of many stages. The most important are: the formation of contacts between mating cells, the transfer of DNA from the donor to the recipient, and the integration of the transfered DNA fragments into the chromosome of the recipient. Only after completion of all these stages are recombinants formed. With the aid of specific inhibitiors (nalidixic acid, FUDR), thymine starvation, and use of special thermosensitive mutants it is possible to study the role of DNA synthesis during every stage of conjugation. It was demonstrated that the genetic transfer is due to semiconservative DNA-replication in the donor cell. The fragments of DNA transfered are synthesized in the period of mating by a special replication system (F-replicon). In case of T DNA S mutants unable to grow at 41°, the ability to synthesize DNA during conjugation is preserved.The inhibition of the DNA synthesis in the donor cell by poisons leads to complete inhibition of genetic transfer. The third stage — formation of recombinants requires DNA synthesis in the recipient cell and is inhibited by poisoning, thymine starvation or T DNA S mutations in the recipient. In cases where recombination is not involved (i.e. sexduction) the inhibition of DNA synthesis in the recipient has no significant effect.  相似文献   

15.
Summary Gene libraries from the magnetotactic bacterium, Aquaspirillum magnetotacticum were constructed in Escherichia coli with cosmids pLAFR3 and c2RB as vectors. Recombinant cosmids able to complement the thr-1, leuB, and proA mutations of the host were identified. The Pro+ recombinant cosmid restored wild-type phenotype in proA and proB but not in the proC mutants of E. coli. The results of restriction endonuclease digestion and Southern hybridization analysis indicate that the relevent leu and pro biosynthetic genes of A. magnetotacticum are not closely linked on the chromosome.  相似文献   

16.
Summary Mutations in the fnr gene of Escherichia coli have pleiotropic effects leading to deficiencies in the reduction of fumarate and nitrate, hydrogen production and the ability to grow anaerobically with fumarate or nitrate as terminal electron acceptors. Transducing phages (fnr) carrying the wild-type fnr gene were isolated from populations of artificially-constructed recombinant lambda phages by their ability to complement the lesions of fnr mutants. The fnr phages restored anaerobic growth with fumarate and nitrate as electron acceptors and, as prophages, they promoted normal synthesis of fumarate reductase, nitrate reductase and hydrogenase in fnr mutants. Five independently-isolated fnr phages each contained a R.HindIII fragment (11.5 kilobases) that possessed three internal R.EcoRI targets and had inserted with the same orientation relative to the phage. A physical map of the fnr region was constructed by restriction analysis and flanking fragments were identified by DNA:DNA hybridization.  相似文献   

17.
Summary The female-specific phages, I, II, W31 and H (but not T3 and T7) show a low efficiency of plating on all F-minus strains of Escherichia coli K12 except for the thr leu thi mutants descended from strain Y53. The locus responsible is linked to the histidine region and was presumably eliminated from the Y53 line of mutants in the course of mutagenesis.  相似文献   

18.
Summary A method was developed for the isolation of spontaneous mutants of Escherichia coli K-12 with deletions extending from the srl operon to the adjacent recA gene. The srl-recA deletion mutants were extremely sensitive to DNA-damaging agents; unable to support growth of the feckless red gam mutant bio11; and recombination-deficient in transduction and in conjugation. They therefore resembled recA point mutants such as recA13. The existence of these recA deletion mutants shows that the recA gene is not essential for viability.  相似文献   

19.
Summary The efficacy of linear DNA as a substrate for general homologous recombination was demonstrated using BamHI-linearized pKLC8.5, a plasmid that carries internal direct repeats flanking the unique BamHI site. An analogous plasmid, pKLC2.31, was used in a parallel and comparative study of intramolecular homologous recombination in circular DNA substrates. When the rec + wild-type strain, AB1157, and its isogenic rec derivatives were transformed with linear pKLC8.5 DNA, intramolecular homologous recombination was independent of recA, recB, recN, recO and exonuclease III (xth-1) functions. Although the recBCsbcA and recBCsbcBC cells were both very recombination proficient, only linear but not circular DNA was used as substrate for intramolecular homologous recombination in the recBCsbcA cells. In both the recBCsbcA and recBCsbcBC genetic backgrounds, the recombination frequencies for linearized pKLC8.5 DNA were 100%. A notable difference between the two strains was that none of the recBCsbcA transformants obtained with circular pKLC8.5 DNA were Tcs recombinants, whereas 11% of the corresponding recBCsbcBC transformants were Tcs recombinants. The sbcB mutation was responsible for the recombination proficiency of the recBCsbcBC cells. Unlike the case in recBCsbcA cells, intramolecular homologous recombination of linear DNA in the recBCsbcBC cells was dependent on recA and recF as well as recN and recO gene functions, but was independent of recJ and reeL gene functions.  相似文献   

20.
Summary The ana mutation leads E. coli to need an exogenous electron acceptor for anaerobic growth. The affected gene maps near 26 min between chlC and tdk on the chromosome of the organism.  相似文献   

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