Homology is not required for recombination mediated by DNA gyrase of Escherichia coli

Summary We have previously shown that DNA gyrase of Escherichia coli can promote recombination between heterologous DNAs in a cell-free system (Ikeda et al. 1982). In the present paper, we have studied the nucleotide sequences of several recombination junctions of -pBR322 recombinants and found that there were not more than three-basepair homologies between the parental DNAs in six combinations of the and pBR322 recombination sites. Based on this and previous results, we concluded that homology was not required for the DNA gyrase-mediated recombination. Furthermore, the structures of the recombinant DNAs we have analyzed suggest the occurrence of multiple crossovers in our in vitro 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.     

A hotspot of spontaneous and UV-induced illegitimate recombination during formation ofλbio transducing phage

To study the mechanism of spontaneous and UV-induced illegitimate recombination, we examined the formation of thebio specialized transducing phage inEscherichia coli. Because mostbio transducing phages have double defects in thered andgam genes and have the capacity to form a plaque on anE. coli P2 lysogen (Spi^– phenotype), we selectedbio transducing phage by their Spi^– phenotype, rather than using thebio marker. We determined sequences of recombination junctions ofbio transducing phages isolated with or without UV irradiation and deduced sequences of parental recombination sites. The recombination sites were widely distributed onE. coli bio and DNAs, except for a hotspot which accounts for 57% of UV-inducedbio transducing phages and 77% of spontaneously inducedbio transducing phages. The hotspot sites onE. coli and DNAs shared a short homology of 9 bp. In addition, we detected direct repeat sequences of 8 by within and near both thebio and hotspots. ArecA mutation did not affect the frequency of the recombination at the hotspot, indicating that this recombination is not a variant ofrecA-dependent homologous recombination. We discuss a model in which the short homology as well as the direct repeats play essential roles in illegitimate recombination at the hotspot.     

Construction and some properties of packageable plasmid F

Summary A derivative of plasmid F which is packageable in phage coat was constructed using techniques of in vitro recombination. This plasmid is composed of three DNA fragments generated by restriction enzyme EcoRI: a miniF fragment (fragment f5 of F'lac) which is able to replicate autonomously, a DNA fragment from Staphylococcus Plasmid that carries the -lactamase gene, and a portion of guaA (B) transducing phage DNA carrying cohesive ends (cos site) along with almost all the late genes but devoid of all those genes and sites that are needed for replication, regulation, and recombination. The hybrid plasmid has a molecular weight of 2.7×10⁷ daltons, about 84% size of phage genome, and can be packaged in coat when helper phage replicates in the plasmid-carrier cell. The package plasmid and the helper phage particles are separated by CsCl density gradient centrifugation. The replication characteristics of the recombinant plasmid are all those of F including the copy number, incompatibility, and curing with acidine orange. The packaged plasmid is injected into an F^- cell and establishes a plasmid state with normal efficiency. In F⁺ or Hfr cells, the resident F factor hinders this process.     

Bacteriophage lambda replication proteins: formation of a mixed oligomer and binding to the origin of lambda DNA

Summary The purified bacteriophage replication proteins O and P sediment separately in metrizamide gradients of low ionic strength as dimers. Together they interact with each other forming an oligomer, composed of two molecules of O and one molecule of P. The O-P oligomer is active in the in vitro replication of ori-containing DNA.Equilibrium sedimentation in preformed metrizamide density gradients under conditions that separate DNA-protein complexes from free proteins was employed in order to study possible interactions among the replication proteins and ori DNA. It was found that the P protein binds specifically to ori-containing plasmid DNA only in the presence of O protein. About 100 molecules of O and 10 molecules of P form a complex with the ori DNA. The DNA-O-P complex was shown to be active in an in vitro replication system.Since the physical interactions between ori and O and between P and the Escherichia coli dnaB replication protein are well documented, the evidence for a O-P interaction presented in this paper provides the missing link in the molecular mechanism that enables to direct the host replication machinery to the replication of its own DNA.     

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.     

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).     

Cloning of the replication gene P of bacteriophage lambda: Effects of increased P-protein synthesis on cellular and phage DNA replication

Summary A restriction fragment of DNA carrying the P gene was cloned in the high copy number plasmid RSF2124. Cells harbouring this new plasmid RSF2124/E complement Pam80 phage. A lac promoter-operator region (lacP), produced by EcoRI digestion of plasmid pKB252, was inserted into RSF2124/glE such that induction of the lac promoter by IPTG or lactose leads to increased production of the P gene product. A high amount of P protein in E. coli cells results in a slow inhibition of bacterial DNA synthesis, suggesting that the initiation reaction is blocked by P protein. Synthesis of DNA proceeds normally under these conditions.Nonsuppressing groPA15 mutant bacteria which are unable to support the replication of wild-type (wt), acquire the ability to replicate Pam80 phage but not wt when they are transformed with a plasmid carrying the P gene. When harbouring a plasmid containing the mutant Pamber 80 gene, groPA15 mutants are able to support the replication of wt phage when infected at a high multiplicity. Pam80 phage does not multiply in these cells.     

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.     

Availability of oncogene activated production system for mass production of light chain of human antibody in CHO cells

We previously established a ras-oncogene amplified Chinesehamster ovary (CHO) cell line, named ras clone I, as anuniversal host cell line for oncogene activated production(OAP) system to mass-produce recombinant protein by activationof the cytomegalovirus immediate early (CMV) promoter with ras protein. The light chain(C5) of human monoclonal antibody HB4C5 is expected tobe potentially useful for lung cancer targeting. We generated aC5 hyper-producing cell line by transfecting ras cloneI with the C5 gene expression plasmid regulated by theCMV promoter, of which productivity was 5.3 times greater thanthe hyper productive CHO cell line generated by using conventional CHO cells. Introduction of the adenovirus E1A geneinto the hyper-producing cell line derived from ras clone I resulted in further 9.5 times enhancement of the productivity,suggesting the synergistic effect of E1A and ras oncogenes on the recombinant protein production driven by the CMV promoter. In addition, intracellular accumulation of C5 andupregulation of BiP was found in hyper-producing cell lineswhich were introduced E1A and ras oncogene. This resultsuggests that excessive intracellular accumulation ofC5 protein, which might be caused by that the amount of produced C5 in ER is beyond the ability of CHO cells to secrete, might signal the BiP promoter. Our data imply that ras clone I is available as a general host cell for establishing the recombinant protein hyper-producing CHOcells by the OAP system, and suggest that further mass production of recombinant proteins in the OAP system can be possible by clarifying the accurate role of upregulated BiP protein.     

Role of the recF gene of Escherichia coli K-12 in lambda recombination

Summary When Escherichia coli K12() lysogens are infected with heteroimmune phage, which are unable to replicate, general recombination between phage and prophage depends on the bacterial recF gene. It has been shown that in E. coli K12 postconjugational recombination, the RecF pathway only works with full efficiency if exonuclease I is absent (Clark 1973). However, results presented in this paper indicate that under conditions in which replication is blocked, the recombination pathway dependant on the recF gene is fully active in producing viral recombinants even, if the phage is Red⁺, in the presence of exonuclease I. In contrast, removal of exonuclease and protein requires elimination of exonuclease I for an efficient RecF pathway. It is concluded that the Red system cooperates with the RecF pathway and that this cooperation involves overcoming the inhibitory effects of exonuclease I. In the absence of exonuclease, protein stimulates recF-dependent recombination but does not suffice to prevent the negative effect of exonuclease I. In the presence of protein, full efficiency of the RecF pathway can be obtained either via cooperation with exonuclease I or, if the viral exonuclease is defective, via inactivation of exonuclease I. Since activity of exonuclease appears necessary to overcome the inhibitory effects of exonuclease I, it is proposed here that exonuclease diverts material from the RecF pathway in a shunt reaction which allows completion of recF-initiated recombinational intermediates via a mechanism insensitive to exonuclease I.When replication is allowed, the Rec system produces viral recombinants mainly via a recF-independent mechanism. However, a major contribution of the RecF pathway to recombination is observed after removal of the Red system and exonuclease I.Obra social de la Caja de Ahorros de Valencia (Director: S. Grisolía)     

Lambda transducing phages for the nalA gene of Escherichia coli and conditional lethal nalA mutations.

Summary Defective transducing phages for the nalA region of the Escherichia coli chromosome were isolated from a lysogen in which is inserted in the nearby glpT gene. The three classes of transducing phages designated nrdA, dubiG, and dnalA contained bacterial DNA extending from glpT through nrdA, ubiG, and nalA, respectively. The bacterial genes are in the left arm of the chromosome. Of the eleven polypeptides coded by dnalA that were resolved by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate only one was not also specified by dubiG This 105,000 dalton polypeptide is the nalA gene product. The electrophoretic mobility and isoelectric point of this protein were unaffected by a nalA mutation (nalA48) that confers nalidixic acid resistance. Temperature-sensitive and amber mutations in the nalA gene were isolated using a dnalA48 lysogen which is heterodiploid for nalA. The conditional lethality of these mutations proves that nalA is an essential locus.     

Waves in a simple,excitable or oscillatory,reaction-diffusion model

A simple one variable caricature for oscillating and excitable reaction-diffusion systems is introduced. It is shown that as a parameter, , varies the system dynamics change from oscillatory ( > ₀) to excitable ( < ₀) and the frequency of the oscillation vanishes as for ₀. When such dynamics are coupled by continuous diffusion in a ring geometry (1-space dimension), propagating wave trains may be found. On an infinite ring excitable devices lead to unique solitary waves which are analogous to pulse waves. A solvable example is presented, illustrating properties of dispersion, excitability, and waves. Finally it is shown that the caricature arises in a natural way from more general excitable/oscillatory systems.     

lambdaimm P22dis: a hybrid of coliphage lambda with both immunity regions of Salmonella phage P22.

Summary Genetically marked and P22 phages were recombined in Escherichia coli-Salmonella typhimurium hybrid WR4028, a host sensitive to infection by both of these phages. Hybrid phages that acquired the immC region of P22, but retained the genes for the protein coat were selected on WR4027 (), a -immune, P22-resistant derivative of WR4028. In these immP22 hybrids, at least the c through P genes of were replaced with functionally related P22 genes. Phage recombinants with more extensive regions of the P22 genome were selected on the double lysogen WR4027 (, immP22). One such hybrid, immP22dis, was determined by heteroduplex analysis to contain approximately 40% of the P22 genome. Genetic studies established that immP22dis possesses the two widely separated immunity control regions of P22 (immC and immI) and that these loci are expressed in E. coli K-12 lysogenic for immP22dis. In addition, immP22dis contains the P22 a1 locus responsible for somatic 0–1 antigen conversion in Salmonella. Although the immP22dis phage particle has the head and tail, the phage genome also carries P22 tail gene 9 as evidenced by the production of free P22 tails. It also has the P22 att site as indicated by the integration of the immP22dis prophage near the proA locus on the bacterial chromosome.     

The p lambda CM system: phage immunity-specific incompatibility with IncP-1 plasmids

Summary A pCM2 replicon derived by an N^– deletion from ::Tn9 which carries the imm434 immunity region is incompatible with some (but not all) IncP-1 plasmids. The imm pCM1 replicon does not show the same incompatibility behavior.     

Genetic exchanges caused by ultraviolet photoproducts in phage λ DNA molecules: The role of DNA replication

Summary Genetic recombination induced by structural damage in DNA molecules was investigated in E. coli K12 () lysogens infected with genetically marked phage . Photoproducts were induced in the phage DNA before infection by exposing them either to 313 nm light in the presence of acetophenone or to 254 nm light. To test the role of the replication of the damaged phage DNA on the frequency of the induced recombination, both heteroimmune and homoimmune crosses were performed.First, samples of a heteroimmune phage imm434 P80 exposed to these treatments were allowed to infect cells lysogenic for prophage cI857 P3. Phage DNA replication and maturation took place, and the resulting progeny phages were assayed for the frequency of P ⁺ recombinants. Recombination was less frequent in infected cells exposed to visible light and in wild type cells able to perform excision repair than in excision-defective lysogens. Therefore, much of the induced recombination can be atributed to the pyrimidine dimers in the phage DNA, the only photoproducts known to be dissociated by photoreactivating enzyme.Second, in homoimmune crosses, samples of similarly treated homoimmune P3 phages were allowed to infect lysogens carrying cI857 P80. Replication of the phage DNA containing ultraviolet photoproducts was repressed by immunity, and was futher blocked by the lack of the P gene product needed for replication. The lysogens were purified and scored for both colony forming ability and for P ⁺ recombinant prophages. The 254 nm photoproducts increased the frequency of recombination in these homimmune crosses, even though phage DNA replication was blocked. Irradiation with 313 nm light and acetophenone M, which produces dimers and unknown photoproducts, was not as effective per dimer as the 254 nm light.It is concluded from these results that certain unidentified 254 nm photoproducts can cause recombination even in the absence of DNA replication. They are not pyrimidine dimers, as they are not susceptible to excision repair or photoreactivation. In contrast, pyrimidine dimers appear to cause recombination only when the DNA containing them undergoes replication.     

Construction in vitro of "phage-plasmid" chimerae: a new tool to analyse the mechanism of plasmid maintenance.

Summary In this paper, we report the construction in vitro of chimerae between lambdoid replacement vectors (Murray et al., 1977) and the miniF Ap^r plasmid: pSC138 (Timmis et al., 1975). F recombinants were shown to be chimerae between the and the F replicons. By genetical tests, we have demonstrated that both and F replication mechanisms are functional: the F recombinant behaves as a non defective plaque forming phage on sensitive bacteria and establishes itself as a stable plasmid on recA F^- homoimmune bacteria. In the extra-chromosomal state, the F recombinant apparently retains the controlled autonomous replication and the FI incompatibility characteristics of the F plasmid. The potential experimental uses of these phages are discussed.