Mapping hisS, the structural gene for histidyl-transfer ribonucleic acid synthetase, in Escherichia coli.

The structural gene for histidyl-tRNA synthetase was localized to 53.8 min on the Escherichia coli genome. The gene order in this region was determined to be dapE-purC-upp-purG-(guaA, guaB)-hisS-glyA.     

Specialized transducing bacteriophage lambda carrying the structural gene for a major outer membrane matrix protein of Escherichia coli K-12.

A specialized transducing phage lambda carrying the structural gene for the OmpF protein, an outer membrane matrix protein, was isolated. The phage carries the 20.5--21-min region of the Escherichia coli K-12 chromosome and carries asnS, ompF, and aspC genes.     

Genetic and physical studies of lambda transducing bacteriophage carrying the beta subunit gene of the Escherichia coli ribonucleic acid polymerase.

The prophage lambdac1857 was inserted into the bfe gene located near rif (the structural gene for the beta subunit of deoxyribonucleic acid [DNA]-dependent ribonucleic acid polymerase) on the Escherichia coli chromosome. Induced lysates (low-frequency transducing lysates) of such a lysogen contained defective lambda phage particles (lambdadrif+) that can specifically transduce the wild-type rif+ gene. Upon transduction into a recipient strain carrying recA, heterogenotes harboring both the wild-type and the mutant rif genes were isolated. Rec+ derivatives of these heterogenotes produce high-frequency transducing lysates that contain lambdadrif+ and normal active phages at a ratio of 1 to 2. The results of marker rescue experiments and of density determination with several transducing phages indicate that most of the late genes are deleted and replaced by a segment of the chromosomal DNA carrying the bfe-rif region. The length of the chromosomal segment seems to vary between approximately 0.5 and 0.6% of the total bacterial DNA among the three independently isolated lambdadrif+ phages. Electron microscopy of heteroduplex DNA consisting of one strand from lambdadrif+-6 and the other from lambdaimm-21 phages directly confirmed that most of the phage DNA of the "left arm" was replaced by the bacterial DNA. The heteroduplex study also demonstrated that the integration of prophage lambda into the bfe region occurred at the normal cross-over point within the phage attachment site.     

The nucleotide sequence of the promoter region of hisS, the structural gene for histidyl-tRNA synthetase

A plasmid has been constructed which carries hisS, the structural gene for histidyl-RNA synthetase of E. coli, on a 1.6-kb fragment bounded by PvuII and BstEII sites. The DNA sequence of both ends of this fragment was determined. The amino-terminal sequence of histidyl-tRNA synthetase was also determined to locate the promoter proximal coding region and the frame in which it is read. Three promoters were identified by consensus criteria. The region surrounding these promoters contains extensive twofold symmetry.     

Isolation of a lambda transducing bacteriophage carrying the relA gene of Escherichia coli.

In Escherichia coli the relA and pyrG loci are 99% cotransducible. On the basis of this knowledge, we have isolated lambdacI857S7dpyrG transducing bacteriophages carrying both the pyrG and relA genes. Single lysogens of this bacteriophage show basal levels of ppGpp that are 10-fold higher than normal. Stringent factor is present among the gene products synthesized by lambdadpyrG relA after infection of ultraviolet-killed cells, as analyzed by polyacrylamide gel electrophoresis. The intracellular content of stringent factor, as determined by enzymatic activity, rises 20-fold after induction of a single lysogen of lambdadpyrG relA. As measured by two-dimensional gel electrophoresis, the amount of stringent factor in an exponentially growing strain carrying a pyrG relA plasmid is at least 10-fold greater than in a normal strain. These data constitute strong evidence that stringent factor is the relA gene product.     

Isolation and characterization of specialized lambda transducing bacteriophage carrying the metBJF methionine gene cluster.

Secondary attachment site lysogens of Deltaatt(lambda)Deltappc-argECBH strains of Escherichia coli with lambdacI857 integrated into the bfe gene (88 min) were isolated. Of 20 such lysogens examined, 2 produce lysates with transducing phage containing the metBJF gene cluster (87 min). Reintroduction of the ppc-argECBH chromosome segment (which lies between the bfe and met genes) into these strains virtually abolishes the production of met transducing phage. All of the phage examined have lost essential genes from the left arm of the lambda chromosome. Approximately 85% of the phage appear to have the same genetic composition, containing the metBJF gene cluster, but not the closely linked gene cytR, and having lost phage genes G and J. Analytical CsCl density gradient centrifugation of five representatives of this major class of phage shows four of them to have identical densities (lighter than lambda), while the fifth cannot be resolved from lambda. The four apparently identical phage were isolated from three separate lysates, which suggests the existence of preferred sites for illegitimate recombination on the bacterial and phage chromosomes. Three specialized transducing phage that carry cytR in addition to metB, metJ, and metF have also been studied. Each of these viruses has a different amount of phage deoxyribonucleic acid. Two of them have less deoxyribonucleic acid than lambda, whereas the third has about the same amount. The metB, metF, and cytR genes of the transducing phage have been shown to function in vivo. The phage-borne metB and metF genes are subject to metJ-mediated repression.     

The isolation and characterization of plaque-forming arabinose transducing bacteriophage lambda.

Non-defective arabinose transducing phage, λpara, were isolated in two steps: first, Escherichia coli strains containing rare insertions of λ DNA into the arabinose C or B genes were selected; and second, these lysogens were induced and transducing phage were selected from the resulting lysates. The approximate location of the bacterial substitution on the phage and the ara gene content of the substitution were determined genetically. The precise location of the substitution was determined by electron microscopy of DNA heteroduplexes.Transducing phage, derived from the strain possessing λ inserted into the araC gene, carried part of the araC gene, the ara regulatory region, and all of the araB gene. Transducing phage, derived from eight independent strains possessing λ inserted in the same orientation and in the same position in the araB gene, carried a portion of the araB gene, the ara regulatory region and all of the araC gene. In these nine cases the ara DNA on the phage was immediately adjacent to the normal phage attachment site, indicating that the transducing phage were formed by the same type of abnormal excision which produces gal or bio transducing λ phage. The relative orientations of ara and phage genes were deduced from the topology of such excisions. One anomalous transducing phage was also characterized.     

Restriction endonuclease analysis of the transducing bacteriophage lambda rif d18

The rif d18 bacteriophage carries essential parts of the E. coli genome which can not be mapped by conventional methods. The phage DNA was analysed with four restriction endonucleases (endo R. BamHI, Sall, HpaI and EcoRI) and a physical map was constructed.     

Plaque assay for lambda transducing phage carrying the E. coli metB gene

A halo plaque assay has been developed for the detection of nondefective lambda transducing phage carrying functional alleles of the metB gene of Escherichia coli K12. The assay is based upon the production of phage plaques on lawns of metB- bacterial cells which are supplemented with limiting amounts of methionine and upon the subsequent transduction of methionine-starved cells in the lawn surrounding the plaques. The resulting prototrophic transductants give rise to a halo of bacterial growth surrounding the plaque. A precise genotype can be ascribed to the characteristic morphologies of selected haloes. This technique has general application for all biosynthetic markers.     

Structural studies of lambda transducing bacteriophage carrying bacterial deoxyribonucleic acid from the metBJLF region of the Escherichia coli chromosome.

The structures of several lambda dmet and related lambda darg transducing phage were studied by restriction fragment mapping and electron microscopic measurements of homoduplexes and heteroduplexes. A new transducing phage (lambda dmet141), in which metF is the only functional gene of the cluster, was isolated. In contrast, lambda dmet117, which expresses the entire metBJLF cluster, has only 3 kilobases more bacterial deoxyribonucleic acid (DNA) than lambda dmet141. An EcoRI restriction fragment of lambda dmet117, which carries the leftmost 6 kilobases of the bacterial DNA insert, was isolated and shown to contain a functional copy of metB. Small structural differences at the attachment sites of some of the phage were shown to result from different sites of lambda integration in the two parent insertion lysogens.     

Isolation and characterization of a lambda transducing bacteriophage carrying the cysE gene of Escherichia coli K-12

A specialized lambda transducing phage carrying the cysE and gpsA genes of E. coli K-12 has been isolated. The transducing phage has been separated from the helper phage on equilibrium gradients and has been shown to be defective. Evidence is presented that the phage kil gene is not expressed.     

Cyanobacterial ribonucleic acid polymerases recognize lambda promoters.

We compared the initiation specificities in vitro of deoxyribonucleic acid-dependent ribonucleic acid polymerases purified from two cyanobacteria, Fremyella diplosiphon and Anacystis nidulans, and from Escherichia coli. A restriction fragment made from lambda deoxyribonucleic acid was used as a template. The cyanobacterial and E. coli ribonucleic acid polymerases recognized the same lambda promoters but exhibited different sensitivities to the inhibitor heparin, suggsesting differences in the structure of the initiation complexes.     

Lethal action of bacteriophage lambda S gene.

The functions of the bacteriophage lambda lysis genes S, R, and Rz were investigated. Different combinations of wild-type and inactive alleles of all three lysis genes were cloned into the plasmid pBH20 and were expressed under the control of a lac operator-promoter. The involvement of the Rz gene in lysis was proposed in our previous work and was confirmed by the Mg2+-dependent lysis defect of clones in which part of the Rz gene is deleted. Membrane vesicles prepared from induced S+ cells were shown to have a severely reduced capacity for active transport of glucose; this defect was detectable at least 20 min before lysis. Cell viability was also shown to decrease very soon after induction, long before physiological death and lysis; this decrease in viability is absolutely dependent on S expression and independent of R and Rz. The nonviable fraction of cells at any time after induction was demonstrated to be equal to the fraction committed to eventual lysis. Induction of an Sts clone showed that the S gene product is stable and capable of inducing lysis long after the cessation of synthesis of S gene product. A model for S action is proposed.     

Purification of the bacteriophage lambda xis gene product required for lambda excisive recombination

Excision of the lambda prophage from the chromosome of its Escherichia coli host requires the products of the two viral genes int and xis. This paper reports a purification of the lambda xis gene product using a complementation assay in which functional Xis must be added to purified Int and an E. coli-derived host factor extract. Excisive recombination between a left (attL) and right (attR) prophage attachment site cloned on the same plasmid DNA substrate occurred efficiently under these conditions. Purified Int and Xis together could not carry out excision in vitro unless an extract derived from the E. coli host was added; purified integration host factor satisfied this requirement. Xis appears to have a molecular weight of 8800 as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. It possesses no detectable endonuclease or topoisomerase activities, does not appear to bind DNA to filters, and does not increase the ability of Int to bind DNA. The addition of Xis not only stimulated excisive recombination in vitro but also inhibited integrative recombination. Xis protected Int protein from heat inactivation, suggesting a possible interaction between the two proteins. In light of these observations, possible roles for Xis in recombination are discussed.     

Improved generalized transducing bacteriophage for Caulobacter crescentus.

Caulobacter phage phi Cr30T, a temperature-sensitive derivative of the lytic, generalized transducing phage phi Cr30, was isolated as a double temperature-sensitive recombinant in a cross between phi Cr30ts1 and phi Cr30ts2, phi Cr30T mediated generalized transduction of Caulobacter crescentus at frequencies comparable to those of phi Cr30 and eliminated the requirement for irradiation of transducing lysates to prevent killing of transductants on the plate.     

MP13, a generalized transducing bacteriophage for Bacillus megaterium.

The first generalized transducing bacteriophage reported for Bacillus megaterium has been characterized. Optimum conditions for lysate production and transduction procedures were established so that transducing frequencies of 8 x 10(-6) and higher are now possible. The phage, MP13, has a head diameter of 97 nm and a contractile tail (202 by 17 nm) and adsorbs to the periphery of the cell. MP13 was inactivated rapidly at 60 degrees C, but not at 55 degrees C, and was sensitive to toluene, ether, and chloroform. When centrifuged in a neutral CsCl gradient, two bands were observed, a major band of 1.490 g cm-3 and a minor band of 1.482 g cm-3 buoyant density. The major band contained only infective particles, whereas the minor band contained both infective and transducing particles. Phage DNA was resistant to several restriction endonucleases, but yielded 9 fragments with MboI, more than 34 with HindIII, and 7 with BstEII. The molecular weights for the fragments from MboI-BstEII double digests total 97 x 10(9).