Cleavage of lambda repressor and synthesis of RecA protein induced by transferred UV-damaged F sex factor

Summary Transfer of a UV-damaged F sex factor to a recipient lysogen induces prophage development. Under these conditions RecA protein synthesis was induced and repressor cleaved, as observed upon direct induction, that is, when the recipient lysogen was directly exposed to UV-light. The efficiency of induction of RecA protein synthesis in recipient bacteria which had received an irradiated F-lac factor was about 80% of that measured upon direct induction. We observed the simultaneous disappearance of repressor and a slight production of cleavage fragments; quantitation by densitometric scanning of the autoradiogram after correction for the efficiency of transfer indicated that 55% of repressor was cleaved. Transfer of UV-damaged Hfr DNA failed to induce RecA protein synthesis. A phage vector carrying oriF, the cloned origin of F plasmid replication, after exposure to UV-light and infection of a recipient lysogen, induced RecA protein synthesis and a moderate but significant cleavage of repressor. Indirect induction by UV-damaged F sex factor or phage oriF resulted in biochemical cellular reactions similar to those observed upon direct induction. LexA repressor that negatively controls RecA protein synthesis appeared more susceptible to cleavage than did repressor.     

Inactivation of DNA-binding activity of repressor in extracts of lambda-lysogen treated with mitomycin C

Summary Crude extracts from -lysogens treated with mitomycin C were prepared, and immunity repressor levels in the extracts were assayed by the binding activity specific to DNA immunity region. It has been shown that while the repressor levels in the extracts from C600(+) are reduced after mitomycin C treatment, the levels in C600recA(+) and C600 C72(+) which have defects in lifting the immunity are not affected by the treatment. The repressor levels in the extracts prepared from C600 T44(+) after temperature shift up, whose prophage is inducible at high temperature, are also reduced. From the study of chloramphenicol effect, it was indicated that de novo protein synthesis is required for the inactivation of the repressor in C600(+) by mitomycin C, but not in T44(+) by high temperature.     

Repressor and rex product of coliphage lambda: lack of collaboration and joint controls

Summary Exposure to 41° C for 10 to 100 minutes rapidly inactivates repressor bearing several ts mutations in the A or B region of gene cI, but does not result in simultaneous rapid loss of the rex function, which restricts phage T4 rII. One may conclude that the rex product does not directly collaborate with the repressor protein. Immediate loss of the rex activity at 47.5° C, observed with most of the cIts mutants and even cI⁺, appears to be unrelated to the repressor inactivation. In tof ⁺ lysogens carrying nonlethal cIts prophage mutants, the prolongation of induction at 41° C ultimately results in irreversible loss of the rex function, but only after about six cell generations. In similar experiments with tof deficient lysogens, loss of the rex activity requires about eleven cell generations and the rex function is regained in less than 30 minutes after return of the lysogen to 30° C. Two methods of rex assay, the more sensitive phage yield method and the infective center method, were employed.     

Regional replication of the bacterial chromosome induced by derepression of prophage lambda

Summary We have demonstrated previously by DNA-DNA hybridization that induction of phage with wild type O and P genes results in an increase of bacterial DNA in the chromosomal region adjacent to the left of the prophage, that is a segment between gal and att (gal DNA) (Imae and Fukasawa, 1970). Evidence is presented in this report that such an increase of bacterial DNA is also seen in the region to the right of the prophage; a segment between bio and att (bio DNA). We postulate therefore that the bidirectional replication of DNA extends beyond the prophage and copies the neighboring host DNA until the prophage is excised. The model is verified by making use of excision-defective phages. The synthesis of gal DNA (or bio DNA) slows down to a halt within 40 min after the induction in the normal lysogens. The results are attributed to the prophage excision: (1) In lysogens for int, synthesis of the bacterial DNA continues for longer times. (2) The synthesis of the bacterial DNA slows down to a halt in lysogens for xis or b2 as in the control. However DNA synthesis also slows down in parallel so that the amount of the bacterial DNA relative to that of DNA synthesized by a given time stays constant from 20 min to 80 min. During that time the relative amount of the bacterial DNA rapidly decreases in the normal lysogen.The first article of this series is in J. molec. Biol. 54, 585 (1970).     

Studies on lambda virulent mutants

Summary Lambda virC mutant, presumably an operator mutant for the operon including x, y, CII and O genes (Fig. 1), produce clearish plaque on a sensitive bacteria.Four revertants producing turbid plaques were isolated from virC and the mutational sites of which were studied. One (tw ₁) is located very close to and on the left side of virC₃₄, and another (tw ₃₂) is at the almost same site of virC₃₄. The others (tx ₆ and tx ₅₃) are located on the right side of virC₃₄. tx recombinants have been isolated and characterized. These recombinants produce very turbid plaques and the rate of the repressor formation in the presence of CIts repressor is somewhat higher than that of wild type. tx develops very poorly after infection to sensitive cells but CItx develops normally. tx lysogens synthesize two to three times more exonuclease than the wild type lysogen. On a function of x region for the repressor formation and on a presence of a possible anti-repressor were discussed. The mutant tw ₁ might be a promotor mutation of the CI-rex operon.This material has been published as an abstract in Jap. J. Genetics 45, 474 (1970).     

Requirement of protein and RNA synthesis for lambda repressor inactivation by tif-1: effects of chloramphenicol, neomycin and rifampicin.

Summary The inactivation of repressor was followed by the specific DNA binding assay during the course of lysogenic induction provoked by incubation at 42°C of an E. coli tif-1 lysogenic strain. The presence of up to 400 g/ml chloramphenicol during the inducing treatment did not impair the loss of repressor binding activity, whilst concentrations of 200 g/ml neomycin and 100 g/ml rifampicin effectively inhibited the inactivation of repressor.Residual protein synthesis in the presence of chloramphenicol, neomycin and rifampicin was 5%, 5% and 27% respectively of that observed in the drug-free control. This residual synthesis did not appear to involve amplification of the X-protein. These results suggest that tif-mediated inactivation of the repressor requires the activation of some specific gene(s), the translation of which appears to be resistant to chloramphenicol.     

Induction of lambdoid prophages by amino acid deprivation: Differential inducibility; Role of recA

Summary Lambda prophage in auxotrophic lysogens can be induced by omission of one or combinations of the required amino acids from the culture medium. Such amino acid deprivation can result in nearly as effective induction of lambda as thymine deprivation. Prophage 424 is also induced equally effectively under both conditions although to a lesser extent than lambda. By contrast prophage 21 and i²¹ are differentially induced effectively by thymine deprivation and virtually not at all during amino acid deprivation. The same differential induction of 21 and equivalent induction of and 424 occur when all three prophages are present in the same lysogen. Increasing the levels of repressor with a cI carrying-plasmid prevented amino acidless induction of as did the ind ^– mutation. A recA, but not a recB, mutation in the host prevented induction by amino acid deprivation. A recC mutant host showed increased spontaneous induction of and 21 prophages. The findings reported are used as an argument that the recA protease probably is not itself acting as the inducing protease and that a likely source of the observed specificity is an effector molecule. Different effector molecules may be produced in response to different exigent situations, to which the phage repressors may have evolved sensitivity. i⁸⁰ was inducible both by amino acid and thymine deprivation.     

Lysogenic induction of lambdoid phages in lexA mutants of Escherichia coli

Summary UV irradiation of lexA3 mutants of E. coli caused lysogenic induction of prophage , _i21, _i434 and 80. Maximal induction in lexA3 lysogens needed less UV than in lexA ⁺ bacteria and gave 25–100% of the normal levels of infective centres induced. Assays of gene expression arising from derepression of a defective prophage showed at least 40% of the normal levels of induction by mitomycin C in lexA3 bacteria. The need for post-irradiation protein synthesis for lysogenic induction in lexA3 lysogens was reduced by increasing the basal level of recA protein with a recA ⁺ plasmid. It is concluded that in lexA E. coli some recA protein synthesis, too small to be detected by physical means, is needed for UV induced lysogenic induction.     

Analysis of a temperature sensitive mutation in gene cII of bacteriophage lambda

Summary The mutation cIIts612 was found to map outside the immunity region of phage imm21 hybrid. As expected of a cII mutation, cIIts612 is unable to stimulate either cI repressor or Int synthesis during the establishment of lysogeny. These results indicate that part of the cII gene of is homologous to that of imm21 phage.     

Structure and function of the repressor of bacteriophage lambda

Summary By mutagenizing a cIts (cI857) lysogen, a mutant has been isolated with a wild-type phenotype. This mutant phage lysogenizes with low efficiency and produces a low burst. Though the initial rates of repressor synthesis in Escherichia coli after infection with wild-type and mutant are the same, the maximum level of repressor that is synthesized in the latter case is only about 30% of that synthesized in the former. Virulent plates on the lysogen of mutant with slightly less efficiency producing very tiny plaques. Operator-binding studies made in vitro with purified mutant and wild-type repressors show that the binding curve of the former repressor is a rectangular hyperbola while that of the latter is sigmoid. The half-lives of the complexes of mutant and wild-type repressors with right operator are 133 and 27 min, respectively. All these results suggest that the mutant repressor possibly has a higher affinity for the operators. This mutant has been named cIha (ha=high affinity).     

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.     

Repressor and int synthesis of bacteriophage lambda in the E. coli host mutant ER437.

Summary Analysis of phage infection of the host mutant ER437 by SDS polyacrylamide gel electrophoresis and autoradiography has revealed altered expression of repressor and integration function (Int). We show that in this host Int as well as repressor synthesis is not dependent upon the cIII gene product in the usual manner, nor is their synthesis turned off in the normal way.     

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.     

Cloning and characterization of the immunity region of phage ?80

Summary The immunity region of phage 80 has been localized. It codes for at least three proteins: a protein of 34 kDa which has the biological properties of the phage repressor, and two other proteins of 9 kDa and 18 kDa which are the first proteins on the rightward operon. These two proteins are negatively regulated by the 34 kDa protein at a divergent promoter site. By position analogy with phage , but not by its biological activity, the 9 kDa protein could be the cro roduct. The 18 kDa protein is able to block totally UV induction of phage 80.     

Human λ light chain locus: Organization and DNA sequences of three genomicJ regions

Evidence for the genomic organization of human lambda light chain joining (J) region gene segments is presented. A mouse J probe was used in Southern hybridizations to localize joining region sequences in a cosmid clone containing the genomic cluster of six human lambda constant (C) region gene segments. The results of these hybridizations suggest the presence of at least one J gene segment upstream from each constant region gene segment. The DNA sequences indicate that the human JI, J2, and J3 gene segments have consensus nonamer and heptamer sequences, proposed to be involved in V-J joining, are capable of encoding the known amino acid sequences for the respective J peptides, and have a sequence which could give functional RNA splice site at the end of their coding regions. Our data show that a single functional J is located 1.3 or 1.6 kb upstream of each of the C gene segments known to encode the Mcg, Kern^– Oz^–, and Kern^–Oz⁺ isotypes. Therefore, the gene organization of this region of the human lambda locus is J1 CI -J2C2-J3C3. The DNA sequences ofJ 1,J 2, andJ 3 presented in this paper establish that a singleJ gene segment precedes each expressed C gene segment, and support a model for the evolution of the human JC clusters where JICI andJ2C2-J3C3. arose from different ancestral JC units.     

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).     

A method for the isolation of phage mutants altered in their response to lysogenic induction

Summary Phage cl ⁺ gives clear plaques whereas phage cIind ^- gives turbid plaques on a lawn of a mutant strain of E. coli K12. This strain, called STS, carries mutation spr in a tif sfi genetic background. I hypothesize that upon temperate phage infection, STS bacteria spontaneously inactivate phage repressor by the same mechanism involved in normal lysogenic induction which results in obligatory lytic growth of ⁺. The use of the STS mutant facilitates the isolation and genetic analysis of phage mutants with an abnormal response to lysogenic induction.