Pseudovirulent mutants of lambda b221poriCasnA resulting from mutations in or near oriC, the E. coli origin of DNA replication

Summary Mutants of the specialized transducing phage b221poriCansA have been isolated which form plaques on lambda lysogens. Genetic and physical evidence is presented to show that the mutations responsible for the pseudovirulent phenotype map in or near oriC, the origin of chromosomal replication in Escherichia coli.     

Localization of the metJBLF gene cluster of Escherichia coli in lambda met transducing phage

Summary The position of the metJBLF gene cluster in the transducing phage dmet102 was determined by ligation of its leftmost EcoRI fragment (102-1) to the BCDEF (nin5) EcoRI fragment of gtl (BC) and characterization of the resultant recombinant phage. The new transducing phage carries about 6kb of bacterial DNA which contains the entire met gene cluster including the promoter of its rightmost member metF. Reasonable estimates of the coding capacity required for the four genes indicate that most of the bacterial DNA of the recombinant phage is occupied by the met gene cluster.     

A transducing lambda phage carrying grpE, a bacterial gene necessary for lambda DNA replication, and two ribosomal protein genes, rpsP (S16) and rplS (L19).

Summary A grpE mutation of Escherichia coli K12, which blocks DNA replication of the phage (Saito and Uchida, 1977), was mapped at 56 min on the standard genetic map. A transducing phage, grpE22, carrying the wild type allele of the grpE gene was constructed in vitro. Structures of grpE22 and its viable deletion derivatives were determined by electron microscopic analyses of appropriate heteroduplexes. Proteins coded by the bacterial DNA incorporated into the transducing phages were detected by two-dimensional gel electrophoresis. The results showed that the product of the grpE gene is a weakly acidic protein of molecular weight 24,000. Structural genes for two ribosomal proteins, rplS (L19) and rpsP (S16) were also shown to be carried by grpE22.     

Cloning and characterization of the Escherichia coli chromosomal region surrounding the dnaG gene, with a correlated physical and genetic map of dnaG generated via transposon Tn5 mutagenesis

Summary A 24 kilobase pair region of the E. coli chromosome surrounding the dnaG gene has been cloned and characterized. A phage library was first constructed by ligating a Sau3A (GATC) partial DNA digest of the entire E. coli chromosome into the BamHI (G GATCC) cloning vector charon 28. Partial digestion was performed to generate overlapping chromosomal fragments and to allow one to walk along the chromosome. This library was probed with a nick-translated plasmid (pRRB1) containing the rpoD gene, which maps adjacent to dnaG at 66 min. Four bacteriophages: 3, 4, 5, 6 that hybridized to the probe were isolated from the 2,500 plaques screened. One phage recombinant 4, was shown to contain the dnaG gene. Three recombinant plasmids containing dnaG: pGL444, pGL445, pBS105, were constructed via subcloning of 4 using different restriction fragments. Plasmids pGL444 and pBS105 were subjected to transposon Tn5 mutagenesis and 88 Tn5 inserts into the cloned region were isolated. The location of the Tn5 inserts were mapped by restriction enzyme analysis of the plasmids and the insertion mutations were checked for ability to complement a dnaGts chromosomal marker at nonpermissive 40° C. In this manner a correlated physical and genetic map of dnaG was determined. A large number of Tn5 inserts map to a specific 900 b.p. region which we propose may be involved in the regulation of dnaG gene expression.     

A transducing bacteriophage λ carrying the structural gene for elongation factor Ts

Summary A specialized transducing bacteriophage dpolCdapD-9 has been isolated that carries the structural gene for EF-Ts¹ (tsf). The presence of EF-Ts among the proteins synthesized under the direction of this phage in UVL-inactivated cells has been detected by two-dimensional gel electrophoresis and has been verified by antibody precipitation. In an induced lysogen of this phage the relative rate of synthesis of EF-Ts is increased 4-fold. Evidence is presented which suggests that the structural genes for ribosomal protein S2 (rpsB) and RNA polymerase factor (sit) also lies on dpolCdapD-9.     

Generalized recombination in tandem duplications of bacteriophage lambda

Summary Recombination between the tandem duplicated segments of b221a106-15 yields unduplicated (single-copy) b221 phage. The apparent frequency of intramolecular events among these recombinations was determined for both cellular (Rec) and bacteriophage (Red) generalized recombination systems. The progeny from single-cycle growth experiments with genetically marked duplication phages were treated with EDTA to inactivate all but the singlecopy phages produced by recombination. Analysis of the genotypes of the EDTA-resistant phages suggested that intramolecular events were about 1 to 5 times as frequent as intermolecular ones. While the results suggest that intramolecular events are not intrinsically forbidden, the quantitative values for the ratio depend on the assumption that intracellular phage chromosomes are completely mixed.     

Requirement of the Escherichia coli dnaA gene function for integrative suppression of dnaA mutations by plasmid R100-1

Summary The phenotype of Escherichia coli dnaA missense and nonsense mutations was integratively suppressed by plasmid R100-1. The suppressed strains, however, could not survive when the dnaA function was totally inactivated. This was demonstrated by the inability of replacing the dnaA allele in the suppressed strain by a dnaA::Tn10 insertion using phage P1-mediated transduction. When the intact dnaA ⁺ allele was additionally supplied by a specialized transducing phage, imm ²¹ dnaA ⁺, which integrated at the att site on the E. coli chromosome, then the dnaA::Tn10 insertion, together with a oriC deletion, were able to be introduced into the suppressed strain. Thus, the mechanisms of dnaA function for oriC and for the replication origin of R100-1 may not be quite the same.     

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.     

Identification of the protein products of the rrnC, ilv, rho region of the Escherichia coli K-12 chromosome

Summary Two methods have been used to identify the protein products of the Escherichia coli K-12 ilv region at 84 min and the flanking rrnC (counterclockwise) and rho (clockwise) loci. First, a set of dilv specialized transducing phages, including some phages that carry rho and others that carry part of rrnC, was used to infect UV irradiated cells. The proteins produced by the infecting dilv phage were selectively labelled with radioactive amino acids and identified by SDS gel electrophoresis and autoradiography. Second, restriction enzyme fragments were cloned from the dilv phage into pBR322 and the plasmid specific gene products produced in maxicells were similarly identified by SDS gel electrophoresis and autoradiography. The proteins produced were correlated with specific genes and restriction enzyme fragments present in the dilv phage and the pBR322 derivatives. Several ilv gene products that have previously been refractory to protein purification attempts have been identified for the first time by this technique. The presence of mutations at the ilvO site is shown to activate the cryptic ilvG gene and to result in the production of a 62,000 dalton protein. A 15,000 dalton protein of unknown function is synthesized from a DNA segment between ilv and rrnC. The rho gene was cloned from dilv phage into pBR322 and shown to be dominant to a rho mutation on the host cromosome. The rho gene product and four additional proteins coded by genes near or between rho and ilv have been detected.     

Gal transduction by phage lambda: on the origin and nature of LFT transducing genomes

Summary There are at least two classes of transducing particles made on the induction of normal lysogens: the first is capable of transducing by the insertion of the whole transducing genome into the host chromosome, so its genome must be capable of circularizing; the second transduces less well by insertion—perhaps not at all; if it does not transduce by insertion then its genome need not be linear.The formation of a transducing genome can be accomplished in three steps: (a) breaking the lysogenic bacterial chromosomes in two places, (b) joining the fragment ends together to form a circular structure, (c) opening the circle (by ter) to form a linear genome. If the resultant structure meets the requirements for packaging, it may be formed into a transducing phage, like a bougus .Any meaningful rearrangement of these steps in which step (b) is omitted or delayed leads to the formation of genomes, which are (1) unable to transduce by insertion (because both of its mature ends are unexposed) and (2) are on the average smaller than genomes which are capable of transducing by insertion (so the resultant transducing phage is less dense). Consequence (2) has been confirmed.We assume that the red function of catalyzes the joining of broken DNA molecules to each other. So red is responsible for rehealing the product of (a) back into a lysogenic chromosome and for catalyzing step (b), the healing of fragment ends into a circular structure. The much elevated level of stable transductants on induction of red ^– lysogens hereby is explained.Supported by grant E-2862 of the U.S.P.H.S. to Dr. Allan Campell.     

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.     

Identification of the E. coli dnaJ gene product

Summary We have previously shown that a mutation (groPC259) in the E. coli dnaJ gene renders the cell inviable at high temperatures and arrests bacteriophage DNA replication at all temperatures (Sunshine et al., 1977). We have isolated dnaJ ⁺⁺ transducing phages both by in vitro cloning and by abnormal excision of a dnaK transducing phage integrated near the dnaJ locus. The dnaJ gene product has been identified on SDS polacrylamide gels after infection of UV-irradiated E. coli cells by dnaJ ⁺⁺ derivative phages. It is a polypeptide chain with an apparent molecular weight of 37,000-daltons. This has been verified by the fact that a transducing phage carrying an amber mutation in the dnaJ gene fails to induce the synthesis of the 37,000-dalton polypeptide chain upon infection of sup ⁺⁺ bacteria, but does so upon infection of supF or supD bacteria.     

Transposition of DNA inserted into deletions of the Tn5 kanamycin resistance element

Summary Tn5-trp hybrid transposons have been constructed by insertion of a trpPOED Hind III fragment into an in vivo Tn5 internal deletion mutant or by substitution of trp for the internal Tn5 Hind III fragment. These hybrids are called, respectively, Tn409 and Tn410. Both Tn409 and Tn410 will transpose into in the presence of a complementing Tn5 element. In the absence of a wild Tn5, lysogens carrying R1162::Tn409 and R1162::Tn410 plasmids will yield trp phages at less than six per cent of the complemented frequency. This reduction indicates that Tn409 and Tn410 lack a diffusible transposition function provided by wild Tn5 elements. However, the formation of trp phages without complementation is real. Most of these transducing particles contain Tn409 and Tn410 still linked to the carrier R1162 plasmid. This observation suggests that uncomplemented Tn409 and Tn410 elements mediate the formation of -transposon-plasmid cointegrate structures. Thus, the missing transposition function may be involved in resolving these cointegrate structures to the final ::Tn409 or ::Tn410 product.Abbreviations p.f.u. plaque-forming units - MIC minimal inhibitory concentration - LFT low frequency transducing - HFT high frequency transducing     

Fertility functions of resistance factors

Summary The isolation of transducing phages carrying the tolPAB cluster is described. These genes map between gltA and gal in Escherichia coli, and thus are relatively close to att. To isolate these transducing phages, it was necessary to use a strain deleted of most of the intervening genes (nadA to chlD) between tolPAB and att. Using a lysogen of such a deletion strain, several defective dtol phages were isolated that carry different amounts of the tolPAB cluster.All of these dtolPAB phages were defective in both lysogenization and vegetative growth, and in this respect were similar to dgal transducing phages.The usefulness of such specialized transducing phages in studying the cell surface is discussed.Research Fellow of the National Cancer Institute of Canada.     

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.     

Reversion of the gal3 mutation of Escherichia coli: Partial deletion of the insertion sequence

Summary The gal3 mutation of E. coli is an insertion of a DNA sequence, 1,100 base pairs in length, into the operator-promoter region of the galactose operon. This mutation reverts spontaneously to gal⁺ by excision of the insertion to produce stable, inducible revertants, or by tandem duplications of the gal operon to produce unstable, constitutive revertants. The nature of a third class of revertants, which are stable and constitutive, is the subject of the present study.The stable, constitutive class of revertants included approximately 30% of all gal⁺ revertants obtained from a gal3() strain. Although the constitutive reversions could be transduced by , the efficiency was found to be extremely poor and the rare transductants which did appear seemed to originate from abnormal transducing particles. It was concluded that these reversions were not normally packaged by .In order to facilitate the packaging of these reversions, the chlD-pgl region was deleted from the parent gal3() strain. Unexpectedly, the gal3 mutation in the majority of these deletions reverted to produce stable, constitutive reversions exclusively. The explanation proposed was that the chlD-pgl deletions had also removed part of the gal operator-promoter up to the gal3 insertion, so that simple excisions of the insertion yielded stable, constitutive revertants by connecting the gal structural genes to a different promoter. These revertants were not considered to be true representatives of the stable, constitutive class. The specificity of deletion end-points at the insertion was found only in the gal3() strain, and not in gal ⁺, gal ⁺(), or gal3 strains. Moreover, the frequency of spontaneous chlD-pgl deletions increased 10- to 15-fold in presence of the gal3 insertion.A gal phage bearing a true stable, constitutive reversion (gal ^c 200) was isolated from the revertant strain by subsequent deletion of the chlD-pgl segment (31). Electron micrographs of gal ⁺ and gal ^c 200 31(chlD pgl) DNA heteroduplexes were interpreted to indicate that the stable, constitutive reversion had arisen by a deletion of 3/4 of the gal3 insertion sequence.The main conclusions are: (i) the stable, constitutive reversions of gal3 can arise by partial deletions of the insertion sequence, apparently by elimination of the nucleotide sequence which causes polarity; (ii) the chlD-pgl deletions may exhibit preferential termination at the right extremity of the gal3 insertion in presence of prophage ; and (iii) the gal3 insertion appears to inhibit the production of gal particles by providing a nucleotide sequence which is recognized and degraded by a specific endonuclease. It is suggested that inhibition of transducing particle formation by gal3 and the preferred termination of deletions at gal3 might represent related phenomena.     

Physical characterisation of the "Rac prophage" in E. coli K12.

Summary We confirm the hypothesis of Low (1973) that many E. coli K 12 strains contain a prophage (the Rac prophage) located a few minutes clockwise of the trp operon on the genetic map. We have used restriction endonucleases and ³²P-labelled probes to construct a physical map of this prophage. Some E. coli K 12 strains, including AB1157, have lost the entire prophage, apparently by a specific deletion. This is consistent with prophage excision by site-specific recombination. reverse (rev) phages (Zissler et al., 1971) are recombination proficient derivatives of phage in which the phage recombination functions have been replaced by analogous functions (RecE) derived from the host chromosome (Gottesman et al., 1974; Gillen et al., 1977). Our data support the origin of rev phages by recombination between and the Rac prophage following excision of the Rac prophage from the E. coli chromosome.Important experimental data are included in the Figure legends.     

Plasmid formation from bacteriophage lambda in Escherichia coli

Summary Among the survivors of Escherichia coli derivatives infected with phage c1 or vir that are unable to establish ordinal lysogeny, clones arise which perpetuate the nondefective phage genome. When the bacteria bears a mutation(s) that makes the cell tolerant to the phage multiplication, such clones appear readily.The bacteria- complex was studied genetically and chemically, and it was concluded that the intact phage genomes, about two to four circular copies per bacterial chromosome, are perpetuated in bacterial cytoplasm as plasmids or in lysogenic state in cytoplasm.Several lines of evidence suggests that the phage genome in the lysogenic state in cytoplasm is under a different regulatory system from that in the normal prophage state on chromosome.     

Directed integration of an F'' plasmid by integrative suppression: isolation of plaque forming lambda transducing phage for the dnaC gene.

Summary A new approach for isolation of a plaque forming specialized transducing phage is described. It consists of directed transposition of an F plasmid into the gal region of a dnaAts galE ^- Escherichia coli strain by integrative suppression and deletion of the chlD region in order to shorten the distance between the marker of interest on the F and the prophage serving to prepare an LFT¹ lysate.An F danC ⁺ thr ⁺ plasmid was used here and dthr and ddnaC phages were isolated. In addition, pdnaC was obtained from a double lysogen for ddnaC and b2.     

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.