Studies on radiation-sensitive mutants of E. coli. II. Breakage and repair of ultraviolet irradiated intracellular DNA of phage lambda

Summary It has been shown that linear DNA molecules of phage are converted to the twisted circular structure (species I) by covalent closure of the both strands at the cohesive ends after infection to the immune bacteria and that the twisted circular molecules are transformed to the circular form (species II) by a single-strand break in one of the strands of their DNA. This system offers a very sensitive method to study on the strand breaks or their repair. For characterization of the defects of ultraviolet sensitive strains, the structural changes of ultraviolet irradiated DNA in these strains were studied.Ultraviolet irradiation to phage greatly reduced the extent of conversion of the molecules to the species I in the uvrD mutant while the irradiation showed little effect on the conversion in the uvrA, B and C mutants. When infected bacteria carrying species I molecules were irradiated, the species I molecules in the uvrD mutant were disrupted while most of the molecules in the uvrA, B and C mutants kept the structure. These results indicate that in the irradiated DNA strand breaks are rarely introduced or, if introduced, repaired rapidly in the uvrA, B and C mutants and they are introduced in the uvrD mutant leading to the degradation of the DNA. These results provide a firm evidence that the defect of the uvrD mutant is different from other Her^- mutants and in the process of repair synthesis.Ultraviolet irradiation to the uvrD mutants promote the formation of the species I molecules from the infected irradiated -DNA.Such effect was not observed with the uvrA mutant. Since the uvrD mutant has UV reactivation capacity and the uvrA mutant has not, the above phenomenon is probably caused by UV reactivation and may provide a more direct method to study the mechanisms of UV reactivation than the plaque assay.Abbreviations used UV Ultraviolet light - UVr Ultraviolet light reactivation This work was aided in part by a research grant GM 08384 from the United States Public Health Service.     

Carbohydrate metabolism and transport in Bacillus subtilis. A study of ctr mutations

Summary Indirect ultraviolet induction of prophage occurs when lysogenic E. coli K12 cells are mated with ultraviolet-irradiated donor strains carrying a transmissible episome such as F lac ⁺. Indirect induction occurs in wild type, uvrA, or recB recipient lysogens, but not in recA lysogens. When nonpermissive lysogens carrying prophages susO or susP are similarly mated, the defective prophages are induced and indirect curing takes place.Although indirect induction is independent of the capacity of the lysogen for repair by pyrimidine dimer excision, indirect curing (and hence indirect induction) is subject to photoreactivation when the recipient lysogen is exposed to visible light after mating. This confirms that the structure initiating indirect ultraviolet induction is a damaged transferred episome consisting of one DNA strand containing ultraviolet photoproducts and a newly synthesized discontinuous DNA strand such that pyrimidine dimers remain in single-stranded regions.F^- lac ⁺ recombinants are formed in either nonlysogenic or lysogenic Lac^- cells receiving damaged F lac ⁺ episomes from ultraviolet irradiated F lac ⁺ donors. prophage induction occurs more frequently in zygotes that form Lac⁺ recombinants than in zygotes that remain Lac^-. In contrast, cells receiving intact (undamaged) episomes are converted to F lac ⁺ secondary donors, but are rarely induced or cured.     

Lambda transducing phages derived from a FinO- R100::lambda cointegrate plasmid: proteins encoded by the R100 replication/incompatibility region and the antibiotic resistance determinant.

Summary Three transducing phages have been isolated from pEDR20, an R100:: cointegrate plasmid in which the insertion inactivated the R100 finO gene. Physical analysis of the three phages showed that the is inserted at kilobase coordinate 81.3 of R100. All three phages carry different amounts of R100 DNA in the left arm of . Each phage contains IS1b, the mer genes and the region between coordinate 81.3 and 88.6; thus, all contain the genes necessary for R100 replication. One phage, VA73, contains the entire r-determinant of R100 in addition to the above DNA. Five proteins coded by the region between 81.3 and 88.6 were detected. These had subunit molecular weights of 10,400; 12,200; 16,200; 19,600; and 38,300. The first was made constitutively and the other four only from a promoter. Other constitutive proteins were one from the cml fus region with a molecular weight of 22,400 (cml) and two from the str sul region with molecular weights of 31,500 (str?) and 30,100 (sul?). Mercuric ion induced synthesis of at least 10 proteins. Six of these were known from earlier work. The total size of the proteins which appear to derive from the mer genes exceeds by a factor of 1.5, the coding capacity of this region without overlapping genes. Some, or all of these extra proteins may be chromosomal in origin, possibly derepressed in response to mercury gene products.     

A role for single-strand breaks in bacteriophage phi-X174 genetic recombination

Formation of genetic recombinants in bacteriophage φX174 is stimulated up to 50-fold in host cells carrying the recA⁺ allele by subjecting the virus particles to ultraviolet irradiation before infection, or by starving the host cell for thymine during infection; in recA host strains no such increases are observed.φX174 replicative form DNA molecules formed in vivo from ultraviolet-irradiated bacteriophage consist of an intact, circular full-length viral (+) strand and a partially complete complementary (?) strand extending from the point of origin of complementary strand DNA synthesis to an ultraviolet lesion. φX174 replicative form DNA molecules formed in thymine-deficient host strains during thymine starvation have nearly complete circular viral (+) and complementary (?) strands, which contain random single-strand nicks or gaps.Correlation of these structures with the observed increases in recombination suggests that single-strand “breaks” are aggressive intermediate structures in the formation of φX174 genetic recombinants mediated by the host recA⁺ gene product.     

UV-induced allevation of lambda restriction in Escherichia coli K-12: kinetics of induction and specificity of this SOS function

Summary In UV-irradiated cells of Escherichia coli K-12 a partial release of the restriction of non-modified phage is observed when the cells are recA ⁺ lexA ⁺. We show here that the induction of this restriction allevation (RA) also depends on the recBC enzyme and that the expression of RA requires protein synthesis. Maximum expression was reached within 60 to 90 min after irradiation. Experiments are presented which show that upon UV-irradiation a signal is created which triggers the development of RA when protein synthesis is allowed. This signal decayed with a half-life of only a few minutes in cells treated with chloramphenicol. The decay kinetics were similar in uvr ⁺ and uvrA mutants. RA appeared to be specific for EcoK insofar as no allevation of restriction by EcoRI, EcoRII and EcoP1 occurred. During maximum expression of RA no gross reduction of the activities of the recBC enzyme (exonuclease V) and the restriction endonuclease EcoK was observed and no new DNA modifying activity appeared in the cells. Since, in fully expressed cells, up to 75% of the infecting DNA was converted to acid-soluble material within 20 min after infection we suggest that only a small specific fraction of infections may undergo RA.     

Kinetics of induction of error-prone repair of bacteriophage lambda by temperature shift in an Escherichia coli dnaB mutant.

Summary Preincubation at 42^o, before infection at permissive temperature by phage , of an Escherichia coli dnaB mutant, provokes a significant increase in survival and mutagenesis of ultraviolet irradiated phage as well as mutagenesis of untreated phage. Similarly to UV irradiation and many chemical mutagens, the inhibition of DNA synthesis by temperature shift of this dnaB mutant induces SOS repair. This work shows that replication blockage in bacterial DNA is not only mutagenic for bacterial DNA itself (Witkin, 1975) but also for normally replicating DNA, probably due to induction of diffusible products.     

Repair of ultraviolet-light damaged ColE1 factor carrying Escherichia coli genes for guanine synthesis.

Summary Hybrid ColE1 plasmids called ColE1-cos-guaA or ColE1-cos-gal can be efficiently transduced into various E. coli K-12 cells through packaging into phage particles. Using these plasmids, repair of ultraviolet-light (UV) damaged ColE1 DNAs was studied in various UV sensitive E. coli K-12 mutants. (1) The host mutations uvrA and uvrB markedly reduced host-cell reactivation of UV-irradiated ColE1-cos-guaA. (2) Pre-existing hybrid ColE1 plasmids had no effect on the frequency of phage-mediated transduction of another differentially marked hybrid ColE1 DNAs. (3) ColE1-cos-guaA and ColE1-cos-gal DNAs could temporarily but not stably co-exist in E. coli K-12 recA cells. (4) The presence of ColE1-cos-gal in uvrB cells promoted the repair of super-infected UV-irradiated ColE1-cos-guaA about 7-fold. (5) The same ColE1-cos-gal plasmid in a uvrB recA double mutant did not have this promoting effect. These results indicate that the effect of resident hybrid ColE1 plasmids is manifested by the host recA ⁺ gen function(s) and suggest that ColE1 plasmid itself provides no recA ⁺-like functions.     

Bacteriophage lambda DNA packaging: A mutant terminase that is independent of integration host factor

Summary ⁺ is able to grow in Escherichia coli cells lacking integration host factor (IHF), producing a burst of approximately 25% that produced in IHF⁺ cells. In vitro, however, we find that the DNA packaging enzyme terminase is strongly dependent on IHF in both cos cleavage reactions and DNA packaging reactions. The cos59 mutation renders dependent on IHF in vivo. The cos59 mutation is a deletion of 3 base pairs at the XmnI site in the cohesive end site (cos) of . Variants of cos59 that were able to grow in the absence of IHF were isolated and found to carry a mutation, called ms1, in the Nu1 gene, which codes for the small subunit of terminase. The Nu1ms1 mutation results in a change of the 40th amino acid of the Nu1 gene product from leucine to phenylalanine. The Nu1ms1 terminase was independent of IHF in packaging reactions in vitro. The results indicate that the mutation either renders terminase: (1) able to utilize some host protein other than IHF, or (2) totally independent of host factors.     

Effect of gamma- and ultraviolet-irradiation on survival and totipotency of haploid tobacco cells in culture

Summary Haploid tobacco (Nicotiana tabacum L.) cell suspensions subjected to varying doses of gamma and UV rays showed LD₅₀ of about 3.7 Krad and 2,700 ergs/mm² respectively. On exposure of UV-irradiated cells to visible light, an increase in suvival was observed. Regeneration of shoot buds from gamma-irradiated cells was completely inhibited at a dose of 2 Krad, while the same phenomenon with UV-irradiated cells was observed at 8,000 ergs/mm². Regeneration pattern was similar for both photoreactivated and non-photoreactivated cells.     

Studies on lambda virulent mutants

Summary The clearish plaque mutants virC which were isolated from true-virulent, virLvirCvirR (virLCR), do not complement CI mutants but CII, CIII and mutant (c ₄₂) for lysogenization. No complementation for lysogenization was observed between virCR and any CI, CII, CIII or y mutants. No lysogen was obtained when virC or virC carrying susN, susO or susP was infected to -sensitive sup ^- host. This was also true for virCR. Infection of ind ^- lysogen with virCRsusNO(P) or virCsusNO(P) results in marked prophage induction. Effect of virCRsusNO(P) on prophage induction is stronger than that of virCsusNO(P). These results suggest the existence of gene(s) for anti-repressor. When virCsusNO(P) or virCRsusNO(P) was infected to W3350 sup ^- at high m.o.i., lysogen in anti-immune state and that in weak-immune state was obtained, respetively. Wild type phage forms clear plaque on virCsusNO(P) lysogen with e.o.p. of one and no plaque on virCRsusNO(P) lysogen. T4rII can plate on both lysogens. This weak-immunity caused by virCRsusNO(P) prophage is different from CI immunity and not abolished by irradiation of ultraviolet light (hereafter this is referred to as the vir-immunity). Action of anti-immunity and vir-immunity are almost specific. Possible functional sites for anti-and vir-immunity substances are suggested to be virL and virR regions. A hypothesis was presented that the vir-immunity may caused by the overproduced anti-immunity substance coded from x region.This material has been published as an abstract in Jap. J. Genetics 45, 479 (1970).     

Induction of c-mutations in extracellular phage lambda by gamma-rays

Summary Mutagenic action of ⁶⁰Co -rays on extracellular phages red ⁺ and red1 13 after irradiation in 4% nutrient broth in the absence or in the presence of 0.1 M cysteamine or in dried samples was studied. The yield of c mutations was almost independent of the repair genotype of the host cells (uvrA6, polA1, recA13, lexA102, uvrE502, uvrD3 or xthA9), of the phage Red function and of the conditions of -irradiation and was 1·10^-12 per base pair and 1 rad. When the SOS-repair system of the host cells was induced by moderate UV irradiation, the yield of c-mutations was drastically enhanced in phage irradiated in broth, but not in phage irradiated in the dried state. These data allow us to suppose that the direct action of -rays induces, in phage DNA, premutational lesions that are fixed into mutations by replication. On the other hand after -irradiation in broth, when indirect radiation effects are only partially suppressed, about 85% of premutational lesions are converted into mutations by means of the inducible, errorprone SOS-repair system.     

lamB mutations in E. coli K12: Growth of λ host range mutants and effect of nonsense suppressors

Summary Over sixty EMS induced mutations affecting gene lamB, presumably the structural gene for the receptor in Escherichia coli K12, were examined for growth of host range mutants and effect of nonsense suppressors. By the first criterion the mutations could be grouped in three classes. Bacteria with class I mutations allow growth of mutants with extended host range (noted h) of the type already described (Appleyard, Mac Gregor and Baird, 1956). Bacteria with class II mutations allow growth of h mutants with still more extended host range (noted hh ^*). No host range mutants of could be found which would grow on bacteria with class III mutations. Using nonsense suppressors it was found that class I and II consist of missense mutations, while class III consists of nonsense mutations. Exceptions are likely to exist (especially in class III) but were not found among the mutations tested. These observations are briefly discussed in terms of outer membrane protein integration and of phage receptor interaction.     

Host specificity of DNA produced by Escherichia coli. XVI. Phage lambda DNA carries a single site of affinity for A-specific restriction and modification

Summary Bacteria with A-specific restriction plate unmodified phage with an efficiency of 10^-2. One mutational event can produce restriction insensitive (sA^o) mutants of . These differ from the original sA form of by no other property than their response to A-host specificity. Two-parental phage crosses involving sA and sA^o, respectively, as non-selective marker allowed to map sA between genes cII and O. These data indicate that sA is the only site on DNA with affinity for A-specific restriction. DNA is thus an interesting substrate in in vitro A-specific restriction and modification. Using an assay based on the infectivity of DNA on helper-infected bacteria, A-specific modification activity was found in partially purified sonicates of bacteria with A-host specificity. In parallel to modification, ³H-methyl label from s-adenosylmethionine, the only cofactor required for modification, was transferred to unmodified DNA. No association of radioactivity was observed in control experiments with DNA from either modified ·A or from asA^o mutant. These data suggest that A-specific modification is brought about by DNA methylation and that the sA^o mutation not only abolished the affinity for A-specific restriction, but also for A-specific modification.     

Molecular cloning of the uvrD gene of Escherichia coli that controls ultraviolet sensitivity and spontaneous mutation frequency

Summary The uvrD gene of Escherichia coli that control UV sensitivity and spontaneous mutation frequency has been cloned with phage as vector. The increased sensitivity to ultraviolet light (UV) of uvrD3, uvrE502, recL152, and pdeB41 mutants, high mutability of uvrD3 and pdeB41 mutants, and conditional lethality of strain TS41 that carried pdeB41, polA1, and sup126 mutations were all suppressed by lysogenization of the mutant cells with uvrD ⁺. These results were consistent with the idea that the uvrD, uvrE, recL, and pdeB mutations are alleles of the uvrD gene. In addition to the uvD gene, uvrD ⁺ carried the corA gene that controls transport of Mg⁺⁺, Mn⁺⁺, and Co⁺⁺ through the cell membrane. Hybrid plasmids carrying both uvrD and corA genes were also constructed by using pKY2289 as a cloning vehicle. Orientational isomers that carried the same 12.0 kb fragment in the opposite direction were equally efficient in complementing the UvrD^- as well as CorA^- defects of the transformed host cells, suggesting that the DNA insert contains all the genetic signals needed to express the two gene products. Insertion of the sequence into recombinant plasmids was performed to generate appropriate restriction endonuclease target sites in the cloned DNA fragments.     

The R gene product of bacteriophage lambda is the murein transglycosylase

Summary The radioactively labeled proteins synthesised in Escherichia coli minicells infected by bacteriophage R and R ⁺ were compared by polyacrylamide gel electrophoresis. R mutants, which have lost the ability to lyse host cells, lack a polypeptide of molecular weight 17.5 kD corresponding to the molecular weight of murein transglycosylase — a bacteriolytic enzyme from lysates which we have described previously. It has been shown by direct comparison using radio-labeled enzyme that transglycosylase comigrates with the R gene product. The enzyme was endetectable in induced cultures of E. coli W3350 su ^o (cI857 Ram5) and C600 (cI857 acR301), while it was present in a R _– ⁺ mutant lysate. We conclude that the transglycosylase is the R gene product.Abbreviations Muropeptide CA GlcNac-1-4-1,6-anhydro-MurNac-L-Ala-D-Glu-msA₂pm-D-Ala - muropeptide CB GlcNac-MurNac-GlcNac-1,6-anhydro-MurNac in which the carboxyl groups of MurNac and 1,6-anhydro-MurNac are substituted by the tetrapeptide L-Ala-D-Glu-msA₂pm-D-Ala - muropeptide C3 dimer of the two units GlcNac-MurNac-L-Ala-D-Glu-msA₂pm-D-Ala which are connected by D-D peptide bond between D-Ala and msA₂pm - GlcNac N-acetyl-D-glucosamine - MurNac N-acetylmuramic acid - msA₂pm meso-diaminopimelic acid - rivanol 6,9-diamino-2-ethoxyacridine lactate - SDS sodium dodecyl sulfate     

Plasmid (pKM101)-mediated enhancement of repair and mutagenesis: Dependence on chromosomal genes in Escherichia coli K-12

Summary The drug resistance plasmid pKM101 plays a major role in the Ames Salmonella/microsome carcinogen detecting system by enhancing chemical mutagenesis. It is shown that in Escherichia coli K-12 the plasmid pKM101 enhances both spontaneous and methyl methanesulfonate-caused reversion of an ochre mutation, bacterial survival after ultraviolet irradiation, and reactivation of ultraviolet-irradiated in unirradiated cells. All these effects are shown to be dependent on the recA ⁺ lexA⁺ genotype but not on the recB ⁺ recC⁺ or recF ⁺ genotypes. The recA lexA-dependence of the plasmid-mediated repair and mutagenesis suggests an interaction with the cell's inducible error-prone repair system. The presence of pKM101 is shown to cause an additional increase in methyl methanesulfonate mutagenesis in a tif mutant beyond that caused by growth at 42°. The presence of the plasmid raises the level of the Weigle-reactivation curve for the reactivation of ultraviolet-irradiated in E. coli and causes a shift of the maximum to a higher UV fluence. These observations suggest that pKM101 does not exert its effects by altering the regulation of the cell's error-prone repair system but rather by supplying a mechanistic component or components.     

Studies on radiation-sensitive mutants of E. coli. 3. Participation of the rec system in induction of mutation by ultraviolet irradiation

Summary The bacterial recA gene participates in the induction by UV irradiation of the clear mutation of phage and the Lac^- mutation of bacteria. The necessary function is induced by irradiation of Rec⁺ bacteria and acts upon DNA irradiated with UV light.