首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
Summary Mutation of the recN gene of Escherichia coli in a recBC sbcB genetic background blocks conjugational recombination and confers increased sensitivity to UV light and mitomycin C. The basis for this phenotype was investigated by monitoring the properties associated with recN mutations in otherwise wild-type strains. It was established that recN single mutants are almost fully resistant to UV irradiation, and that there is no detectable defect in repair of UV lesions by excision, error-prone, or recombinational mechanisms. However, recN mutations confer sensitivity to mitomycin C and ionizing radiation both in wild-type and recB sbcB strains. The sensitivity to ionizing radiation is correlated with a deficiency in the capacity to repair DNA double-strand breaks by a UV inducible mechanism. Recombinant phages that complement the recombination and repair defects of recN recBC sbcB mutants have been identified, and the recN gene has been cloned from these phages into a low copy-number plasmid.  相似文献   

2.
Summary The mutagenic activity of ozone was investigated by the isolation of streptomycin-resistant mutants (Sm1) in different strains of Escherichia coli. RecA, lexA, polA and parental strains were ozonated and streptomycin-resistant mutants were scored after a short or long phenotypic delay. Our results suggest that ozone is an active mutagen for forward mutation and that this oxidizing agent could be able to induce mutations via two mechanisms: directly and indirectly by the rec-lex error-prone repair system.  相似文献   

3.
The growth of Brevibacterium flavum No. 2247 was inhibited over 90% at a concentration above 1 mg/ml of α-amino-β-hydroxyvaleric acid, a threonine analogue, and the inhibition was reversed by the addition of l-threonine, and to lesser extent by l-leucine, l-isoleucine, l-valine and l-homoserine. l-Methionine stimulated the inhibition. Several mutants resistant to the analogue produced l-threonine in the growing cultures. The percentage of l-threonine producer in the resistant mutants depended on the concentration of the analogue, to which they were resistant. The best producer, strain B-183, was isolated from resistant strains selected on a medium containing 5 mg/ml of the analogue. Mutants resistant to 8 mg/ml of the analogue was derived from strain B-183 by the treatment with mutagen, N-methyl-N’-nitro-N-nitrosoguanidine. Among the mutants obtained, strain BB-82 produced 13.5 g/liter of l-threonine, 30% more than did the parental strain. Among the resistant mutants obtained from Corynebacterium acetoacidophilum No. 410, strain C-553 produced 6.1 g/liter of l-threonine. Several amino acids other than l-threonine were also accumulated, and these accumulations of amino acids were discussed from the view of regulation mechanism of l-threonine biosynthesis.  相似文献   

4.
Summary Broad host range plasmids have previously been shown to be suitable as vectors to introduce antibiotic resistance genes intoZ. mobilis. However, attempts to use these vectors to carry other genes with enteric promoters and controlling elements have resulted in limited success due to poor expression. Thus we have constructed a promoter cloning vector in a modified pBR327 and used this vector to isolated 12 promoters fromZ. mobilis which express various levels of -galactosidase inEscherichia coli. Four of these were then subcloned into pCVD 305 for introduction intoZ. mobilis. All expressed -galactosidase inZ. mobilis with activities of 100 to 1800 Miller units. One of these retained aBamHl site into which new genes can be readily inserted immediately downstream from theZ. mobilis promoter. Genetic traits carried by pCVD 305 were initially unstable but spontaneous variants were produced during sub-culture in which the plasmid was resistant to curing at elevated temperature. One of these variants was examined in some detail. The increased stability of this variant appears to result from an alteration in the plasmid rather than a chromosomal mutation or from chromosomal integration.  相似文献   

5.
Cell death and mutagenesis in bleomycin-treated cells of Thiocapsa roseopersicina (a purple sulfur bacterium) was studied by cultivation in a semisolid medium (agar-shake technique). This technique has also proven useful in assessing the frequency of antibiotic mutations by detecting and counting individual colonies of Thiocapsa roseopersicina. The frequencies of spontaneous mutants resistant to ampicillin, rifampicin, cloramphenicol, tetracycline, kanamycin, streptomycin, and neomycin were also studied: they ranged between 2×10-9 and 9×10-8. Bleomycin (4 g/ml) sharply increased the frequency of ampicillin-resistant mutants, from 10-8 (spontaneous) to 4×10-4 (induced), in 17 h. An inducible, error-prone mechanisms of DNA synthesis seems to be responsible for this enhancement of the mutagenic effect. This is the first report on the sensitivity to several antibiotics, and capacity of lethality and mutagenesis by bleomycin has been studied in a purple sulfur bacterium.  相似文献   

6.
Rhizobium trifolii was highly resistant to the lethal effect ofN-methyl-N-nitro-N-nitrosoguanidine (MNNG), but it was sensitive to the mutagenic action of this chemical. A concentration of 500g/ml yields a survival of between 1% and 10%, which allows us to obtain a higher number of mutants than lower concentrations that yield higher survival rates. Lethal damage produced by nitrosoguanidine was repaired, and repair is inhibited by acriflavine.  相似文献   

7.
Summary Host cell reactivation and UV reactivation and mutagenesis of UV-irradiated phage were measured in tsl recA + and tsl recA host mutants. Host cell reactivation was slightly more efficient in the tsl recA strain compared to the tsl + recA strain. Phage was UV-reactivated in the tsl recA strain with about one-half the efficiency of that in the wild type strain, but there was no corresponding mutagenesis of phage. UV-reactivation was also slightly lower and mutagenesis several-fold lower than normal in the tsl recA + strain. To account for these observations, we propose that there is an inducible, error-free pathway of DNA repair in E. coli that competes with error-prone repair for repair of phage lesions.  相似文献   

8.
Zymomonas mobilis is being considered for the industrial production of ethyl alcohol. Expansion of its substrate range of glucose, fructose and sucrose could be advantageous, but genetic manipulation of Z. mobilis is restricted as it is resistant to transformation. We present a protocol using electroporation for high efficiency transformation of this bacterium. Optimal parameters included cooled cells (0–4° C), use of 10% glycerol as an osmotic support medium, a pulse in the 12 kV/cm range for 10 ms and outgrowth on GYx medium prior to selection. The routine efficiency achieved was greater than 1.0 × 107/g DNA, a major increase over other transformation methods in which yields ranged from 100–2000/g DNA.  相似文献   

9.
The gene from Bacillus licheniformis coding for a thermostable -amylase was subcloned into the broad-host-range plasmid pKT210 in Escherichia coli. The recombinant plasmid pGNB6 was transferred into Zymomonas mobilis ATCC 31821 by conjugation. Plasmid pGNB6 was stably maintained in E. coli and unstable in Z. mobilis. The amylase gene was expressed in Z. mobilis at a lower level (25%) than in E. coli and regulation of enzyme biosynthesis was different in the host cells. Almost all the -amylase activity was recovered in the culture medium of Z. mobilis. This enzyme localization seemed to be the result of protein secretion rather than cell lysis. Integration of the amylase gene into a cryptic plasmid of Z. mobilis was observed. The amylase gene was still expressed, although at a lower level, and the -amylase activity, associated with a protein of molecular mass 62,000 daltons, was immunologically identical in Z. mobilis, E. coli and B. licheniformis.  相似文献   

10.
Summary In anadn met di-auxotrophic strain ofSchizosaccharomyces pombe met + reversions are several hundred times more frequent thanadn + reversions after treatment with ultra-violet light. They are only slightly more frequent thanadn + reversions when HNO2 is used as a mutagen (mutagen specificity). The poor response of theadn-1,199 allele to the mutagenic action of U.V. can be largely overcome by replacing themet-4,D19 allele with its normalmet + allele (influence of the genetic background). It was shown that both the mutagen specificity and its dependence on the genetic background are due, largely at least, to the inhibition ofadn + reversions on a plating medium containingl-methionine. This inhibition is very strong for U.V.-induced reversions but only weak for HNO2-induced ones. It would be wrong to assume that other mutants at theadenine-1 locus behave in the same manner.With 1 Figure in the Text  相似文献   

11.
Mutagenic and error-free DNA repair in Streptomyces   总被引:2,自引:0,他引:2  
Summary Two mutants of Streptomyces fradiae defective in DNA repair have been characterized for their responses to the mutagenic and lethal effects of several chemical mutagens and ultraviolet (UV) light. S. fradiae JS2 (mcr-2) was more sensitive than wild type to agents which produce bulky lesions resulting in large distortions of the double helix [i.e. UV-light, 4-nitroquinoline-1-oxide (NQO), and mitomycin C (MC)] but not to agents which produce small lesions [i.e. hydroxylamine (HA), methyl methanesulfonate (MMS), ethyl methanesulfonate (EMS) and N-methyl-N-nitro-N-nitrosoguanidine (MNNG)]. JS2 expressed a much higher frequency of mutagenesis induced by UV-light at low doses and thus appeared to be defective in an error-free excision repair pathway for bulky lesions analogous to the uvr ABC pathway of Escherichia coli. S. fradiae JS4 (mcr-4) was defective in repair of damage by most agents which produce small or bulky lesions (i.e., HA, NQO, MMS, MNNG, MC, and UV, but not EMS). JS4 was slightly hypermutable by EMS and MMS but showed reduced mutagenesis by NQO and HA. This unusual phenotype suggests that the mcr-4 + protein plays some role in error-prone repair in S. fradiae.  相似文献   

12.
Summary Wild-type strains ofZymomonas mobilis have a limited substrate range of glucose, fructose and sucrose. In order to expand this substrate range, transconjugants ofZ. mobilis containing Lac+ plasmids have been constructed. Although -galactosidase is expressed in such strains, they lack the ability to grow on lactose. We now report the development ofZ. mobilis strains capable of growth on lactose. This was achieved in two stages. First, a broad host range plasmid was constructed (pRUT102) which contained the lactose operon under the control of aZ. mobilis promoter plus genes for galactose utilization.Z. mobilis CP4.45 containing pRUT102 was then subjected to mutagenesis combined with continued selection pressure for growth on lactose. One strain,Z. mobilis SB6, produced a turbid culture that yielded 0.25% ethanol from 5% lactose (plus 2% yeast extract) in 15 days.  相似文献   

13.
    
Summary The ral function modulates the restriction and modification activities of the Escherichia coli K12 and B restriction enzymes (Zabeau et al., 1980). In order to further analyse this function, ral deficient mutants have been isolated, using a method which exploits the property of the strong mutagen N-methyl-N-nitro-N-nitrosoguanidine (N.G.) to induce multiple closely linked mutations. Hence, mutagenized phages carrying mutations in one locus were frequently found to contain additional mutations in adjacent loci. This very efficient mutagenesis procedure enable us to isolate 27 independent Ral deficient mutants. Seven mutants were found to effect the ral gene directly and were located between the genes N and cIII. Detailed mapping of two of these mutants showed that the ral gene is located at position 70.6–70.9% on the physical map. The isolation and characterization of these mutants further supports the conclusion that ral is a gene different from the N gene, and demonstrates that the ral gene product is responsible for both counteracting restriction and enhancing modification.  相似文献   

14.
Summary By using mercury(II)-chloride (HgCl2) and Dl-6-fluorotryptophan (6FT) as positive selection conditions we were able to show that N-methyl-N-nitro-N-nitrosoguanidine (NG) is an effective mutagen for Petunia hybrida suspension cells.A number of the 205 calli resistant to HgCl2 and 17 calli resistant to 6FT were isolated. The highest mutation frequency was 1.0 x 10–5 and 2.0 x 10–6 for HgCl2 and 6FT, respectively. A preliminary characterization of the mutants is presented.A significant increase in the number of drug-resistant calli was only obtained at NG-concentrations (5–40 g/ml) that had no observable effect on the survival of the mutagenized cultures.  相似文献   

15.
Zymomonas mobilis is a Gram-negative ethanologen that can ferment glucose, fructose, and sucrose. Three enzymes that hydrolyze sucrose were found in a zymogram of electrophoretically separated proteins of Z. mobilis CP4. Two were invertase,, Inv A and Inv B; the latter was studied. Inv B is extracellular and accounts for at least 60% of the saccharolytic activity found in the culture broth of Z. mobilis CP4. The enzyme was purified 51-fold in 17% yield from culture broth of Z. mobilis grown on sucrose. It is a -fructosidase, monomeric with a molecular mass of 47 kDa and pI of 4.3. Its K m for sucrose is 86 mm, and it has high catalytic activity (V max = 1800 mol product/min per milligram protein). The purification and some properties of Inv B are presented. Correspondence to: D. E. Eveleigh  相似文献   

16.
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   

17.
Growth of Brevibacterium flavum FA-1-30 and FA-3-115, L-lysine producers derived from Br. flavum No. 2247 as S-(2-aminoethyl)-L-cysteine (AEC) resistant mutants, was inhibited by α-amino-β-hydroxyvaleric acid (AHV), and this inhibition was reversed by L-threonine. All the tested AHV resistant mutants derived from FA-1-30 accumulated more than 4 g/liter of L-threonine in media containing 10% glucose, and the best producer, FAB-44, selected on a medium containing 5 mg/ml of AHV produced about 15 g/liter of L-threonine. Many of AHV resistant mutants selected on a medium containing 2 mg/ml of AHV accumulated L-lysine as well as L-threonine, AHV resistant mutants derived from FA-3-115 produced 10.7 g/liter of L-threonine maximally. AEC resistant mutants derived from strains BB–82 and BB–69, which were L-threonine producers derived from Br. flavum No. 2247 as AHV resistant mutants, did not produce L-threonine more than the parental strains, and moreover, many of them did not accumulate L-threonine but L-lysine. Homoserine dehydrogenases of crude extracts from L-threonine producing AHV resistant mutants derived from FA–1–30 and FA–3–115 were insensitive to the inhibition by L-threonine, and those of L-threonine and L-lysine producing AHV resistant mutants from FA–1–30 were partially sensitive.

Correlation between L-threonine or L-lysine production and regulations of enzymatic activities of the mutants was discussed.  相似文献   

18.
Present knowledge on the genetics of the ethanologenic anaerobeZymomonas mobilis includes background information on: size, restriction, and to some extent hybridization, analysis of indigenous plasmids; mutagenesis and isolation of a wide variety of auxotrophic, drug resistant and conditional mutants; construction of shuttle cloning vectors able to replicate and express inZ. mobilis; development of gene transfer systems based on conjugal mobilization of plasmids fromEscherichia coli donors toZ. mobilis; expression of heterologous genes inZ. mobilis; cloning and analysis of genes encoding enzymes of the Entner-Doudoroff pathway. Moreover, preliminary data on recombinational repair mechanisms and plasmid stability, which are now available, makeZ. mobilis an attractive model system for molecular genetic research and, furthermore, they contribute towards expansion of the substrate and product range of this industrial microorganism.G.A. Sprenger is with the Institut für Biotechnologie I, Forschungszentrum, KFA Julich, Postfach 1913, D-5170 Julich, Germany. M.A. Typas is with the Department of Biochemistry, Molecular & Cellular Biology and Genetics. University of Athens, Kouponia 105 71 Athens, Greece. C. Drainas is with the Sector of Organic Chemistry and Biochemistry, Department of Chemistry, University of loannina, 451 10 loannina, Greece.  相似文献   

19.
Two genes of Aspergillus nidulans are known to function in UV mutagenesis, but have been assigned to different epistasis groups: uvsC, which is also required for meiosis and mitotic recombination, and uvsI, which may have no other function. To clarify their role in error-prone repair and to investigate their interaction, uvsI and uvsC single and uvsI;uvsC double mutant strains were further tested for mutagen sensitivities and characterized for effects on mutation. Spontaneous and induced frequencies were compared in forward and reverse mutation assays. All results confirmed that uvsI and uvsC are members of different epistasis groups, and demonstrated that these uvs mutants have very different defects in UV mutagenesis. The uvsI strains showed wild-type frequencies in all forward mutation tests, but greatly reduced spontaneous and UV-induced reversion of some, but not other, point mutations. In contrast, uvsC had similar effects in all assay systems: namely pronounced mutator effects and greatly reduced UV mutagenesis. Interestingly, the uvsI;uvsC double mutant strains differed from both single mutants; they clearly showed synergism for all types of reversion tested: none were ever obtained spontaneously, nor after induction by UV or EMS (ethylmethane sulfonate). Based on these results, we conclude that uvsI is active in a mutation-specific, specialized error-prone repair process in Aspergillus. In contrast, uvsC, which is now known to show sequence homology to recA, has a basic function in mutagenic UV repair in addition to recombinational repair, similar to recA of Escherichia coli. Received: 23 September 1996 / Accepted: 2 December 1996  相似文献   

20.
Summary We introduced the dnaE486 and polC74 mutations (which are associated with decreased DNA polymerase III replication fidelity) into excision defective Escherichia coli strains with varying SOS responses. These mutations increased the UV-induced frequency of base pair substitution mutations in all strains tested, except recA430 and umuC122 derivatives. This UV mutator effect therefore requires expression of the SOS error-prone repair system. In recA441 lexA51 strains where the SOS system is constitutively expressed, the UV mutator effect of the dnaE alleles was similar in relative terms (though greater in absolute terms). Since these dnaE alleles decrease rather than increase survival after UV it is argued that they promote a burst of untargeted mutations close to UV photoproducts (hitch-hiking mutations) rather than increase the number of translesion synthesis events. The fact that there was no UV mutagenesis in dnaE486 umuC122 or polC74 umuC122 strains indicates that infidelity associated with these dnaE alleles did not of itself enable translesion synthesis to occur. The spontaneous mutator effect conferred by dnaE486 and polC74 was not affected by umuC122 or recA430 indicating that it is not dependent upon error-prone repair ability. In recA441 lexA51 bacteria, where SOS error-prone repair is constitutively induced, the mutator effect of dnaE486 was greater and was largely blocked by umuC122. It is suggested that spontaneously occurring cryptic lesions that are themselves unable to induce the SOS system are subject to translesion synthesis under these conditions and trigger a burst of hitch-hiking mutations that are therefore effectively umuC dependent.  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