Origin of replication, oriC, or the Escherichia coli chromosome on specialized transducing phages lambda asn.

Summary Specialized transducing phages asn harboring chromosomal DNA and genetic markers on either side of the asn gene were isolated. Phages carrying chromosomal DNA counterclockwise of the asn gene can upon infection establish themselves as self-replicating plasmids in asn, recA hosts lysogenic for lambda. It is concluded that this bypassing of normal lambda immunity is due to the presence of the chromosomal replication origin, oriC, in this class of phages. Genetic analysis and the determination of restriction endonuclease cleavage patterns of the different asn lead to the allocation of oriC within 1.5 megadaltons of the asn gene towards the uncA, uncB genes at 82 min on the genetic map of E. coli, The clockwise order of genes on the chromosome is found to be: bglB, (pst, glmS), (uncA, uncB), criC, asn, trkD, rbs, rrnC, ilv.Abbreviations CCC covalently closed circular - MD 10⁶ Daltons; mw, molecular weight - R. restriction endonuclease - LFT, HFT low (high) frequency transducing - a.p.i. average phage input - m.o.i. multiplicity of infection     

Map location of the Escherichia coli origin of replication.

Summary Working with restriction fragments obtained directly from the Escherichia coli K12 chromosome, the EcoRI-HindIII restriction map of the section of the chromosome containing the replication origin has been extended by 14 kilobase pairs (kb) to cover 56kb. Within this newly mapped portion, the liv and rrnC cistrons have been identified by (1) hybridization of individual restriction fragmenents to the ilv-transducing phage dilv5 and (2) a comparison of the restriction map of this region with the EcoRI map of dilv5 and the HindIII map of the plasmid pJC110, a ColE1-ilv hybrid. The replication origin is located approximately 30 kb from the ilvE gene and 20 kb from the rrnC 16S rRNA cistron. This places the origin near 82.7 min on the genetic map, close to uncA.     

Replication intermediate of a hybrid plasmid carrying the replication terminus (ter) site of R6K as revealed by agarose gel electrophoresis

Summary A 4.32 kb DNA fragment, on which the DNA replication terminus (terR) site of plasmid R 6K was located, was inserted into the unique EcoRI site of plasmid pUC9. To detect replication intermediate molecules with a replication fork halted at the terR site, a cell DNA extract was digested with EcoRI, electrophoresed through an agarose gel and stained with ethidium bromide. In addition to two major bands, one derived from vector DNA and the other from the ter insert fragment, two extra minor bands were detected. Following DNA-DNA hybridization and electron microscopic observation we concluded that the two minor bands corresponded to the two Y-shaped molecules, produced from the -shaped intermediate molecules by EcoRI digestion.Abbreviations Ap ampicillin - kb kilobase pair(s) - EtBr ethidium bromide     

Molecular analysis of the histone gene cluster of Psammechinus miliaris: II. The arrangement of the five histone-coding and spacer sequences

Histone DNA of Psammechinus miliaris was obtained in an enriched form by buoyant density gradient centrifugation and was cleaved into 6 kb repeat units (Birnstiel et al., 1975a) by the action of the specific endonucleases EcoRI and HindIII. Since it was suspected that the 6 kb unit harbored all five histone-coding sequences, the histone DNA unit was subdivided into five segments with the aim of providing five fragments carrying just one coding sequence each. This was achieved by the combined use of EcoRI HindII, HindIII, and Hpa I. A physical map was constructed from the overlaps arising in these restriction experiments. Each of the five segments was shown to hybridize uniquely with just one of the five highly purified histone mRNAs (Gross et al., 1976a). By this procedure, the order of the mRNA sequences on the histone DNA was found to be a, c, d, b, e (Gross et al., 1976a), and hence of the protein coding sequences H4, H2B, H3, H2A, and H1. Further evidence is presented that the 6 kb repeat unit, amplified by means of a Murray λ vector phage, contains AT-rich DNA sequences which would be expected not to code for histone proteins.     

Suppression of the Escherichia coli dnaA46 mutation by amplification of the groES and groEL genes

Summary A hybrid phage (Sda1), containing an 8.1 kb EcoRI DNA fragment from the Escherichia coli chromosome, was selected on the basis of its ability to suppress bacterial thermosensitivity caused by the dnaA46 mutation. We have shown that this suppression is due to a recA ⁺-dependent amplification of the 8.1 kb fragment; consistent with this observation, cloning of the 8.1 kb fragment into a high copy number plasmid (pBR325) leads also to suppression of dnaA46. In the suppressed strains growing at high temperature, bidirectional replication starts in or near the oriC region and requires the presence of the DnaA polypeptide. These findings suggest that the overproduction of a gene product(s), encoded by the cloned 8.1 kb fragment, can restore dnaA-dependent initiation of replication at high temperature in the oriC region. Genetic mapping shows that the groES (mopB) and groEL (mopA) genes are located on the 8.1 kb suppressor fragment. Further analysis, including in vitro mutagenesis and subcloning, demonstrates that the amplification of the groES and groEL genes is both necessary and sufficient to suppress the temperature sensitive phenotype of the dnaA46 mutation.     

Asymmetric replication of an oriC plasmid in Escherichia coli

Summary Plasmid pTSO118 containing the Escherichia coli origin of replication, oriC, initiated replication simultaneously with the chromosome when temperature-sensitive host cells were synchronized by temperature shifts. Replicating intermediates of the plasmid as well as of the chromosome were isolated from the outer membrane fraction of the cell. Plasmid DNA with eye structures was enriched when cytosine-1--arabinofuranoside was introduced into the culture during replication. Electron microscopy of the replicating molecules, after digestion with restriction endonucleases, showed that the replication fork proceeds exclusively counter-clockwise towards the unc operon. We conclude that the replication of the oriC plasmid is unidirectional or, if bidirectional, is highly asymmetric.     

Isolation and characterization of lambda transducing phages for the E. coli genes ksgA and pdxA

Summary Lambda phages carrying the Escherichia coli genes ksgA and pdxA were isolated from secondary site lysogens in araB. 1) The phage genomes were characterized by genetic complementation tests, restriction endonuclease digestion and electron microscopy. 2) A 6.3 kilobasepair (kb) EcoRI restriction fragment carrying both ksgA and pdxA was cloned in a lambda vector; this fragment has proven useful in further characterization of the ksgA gene (Andrésson and Davies, 1980a, b). The ksgA and pdxA genes are about 14 and 12–13 kb, respectively, counterclockwise of the arabinose operon and 1.5 and 2.5–3.5 kb clockwise of folA.     

Replication mutants of the F-plasmid of Escherichia coli: II. Cloned replication regions of temperature-sensitive mutants

A series of temperature-sensitive mutations affecting maintenance of the F plasmid were mapped by cloning with restriction enzymes. The 14 mutations tested mapped in the region F43.9–46.9 kb, which has been shown to be essential for replication of F. The rates of incorporation of radioactive precursors at the restrictive temperature are consistent with at least some of the mutations primarily affecting plasmid replication rather than partition. Comparison of the curing kinetics of F and mini-F-plasmids showed that the parental F-plasmids were lost more slowly than their mini-F derivatives. This effect is attributed to replication from the secondary replicative origin of F found in EcoRI fragment f7. Mini-F-plasmids containing only F43.9–46.9 kb from wild type F were found to be unstable.     

Recombinant plasmids capable to replication in B. subtilis and E. coli.

Summary The plasmid pBC16 (4.25 kbases), originally isolated from Bacillus cereus, determines tetracycline resistance and can be transformed into competent cells of B. subtilis. A miniplasmid of pBC16 (pBC16-1), 2,7 kb) which has lost an EcoRI fragment of pBC16 retains the replication functions and the tetracycline resistance. This plasmid which carries only one EcoRI site has been joined in vitro to pBS1, a cryptic plasmid previously isolated from B. subtilis and shown to carry also a single EcoRI site (Bernhard et al., 1978). The recombinant plasmid is unstable and dissociates into the plasmid pBS161 (8.2 kb) and the smaller plasmid pBS162 (2.1 kb). Plasmid pBS161 retains the tetracycline resistance. It possesses a single EcoRI site and 6 HindIII sites. The largest HindIII fragment of pBS161 carries the tetracycline resistance gene and the replication function. After circularization in vitro of this fragment a new plasmid, pBS161-1 is generated, which can be used as a HindIII and EcoRI cloning vector in Bacillus subtilis.Hybrid plasmids consisting of the E. coli plasmids pBR322, pWL7 or pAC184 and different HindIII fragments of pBS161 were constructed in vitro. Hybrids containing together with the E. coli plasmid the largest HindIII fragment of pBS161 can replicate in E. coli and B. subtilis. In E. coli only the replicon of the E. coli plasmid part is functioning whereas in B. subtilis replication of the hybrid plasmid is under the control of the Bacillus replicon. The tetracycline resistance of the B. subtilis plasmid is expressed in E. coli, but several antibiotic resistances of the E. coli plasmids (ampicillin, kanamycin and chloramphenicol) are not expressed in B. subtilis. The hybrid plasmids seem to be more unstable in B. subtilis than in E. coli.     

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.     

UV irradiation inhibits initiation of DNA replication from oriC in Escherichia coli

Summary Irradiation of Escherichia coli with UV light causes a transient inhibition of DNA replication. This effect is generally thought to be accounted for by blockage of the elongation of DNA replication by UV-induced lesions in the DNA (a cis effect). However, by introducing an unirradiated E. coli origin (oriC)-dependent replicon into UV-irradiated cells, we have been able to show that the environment of a UV-irradiated cell inhibits initiation of replication from oriC on a dimer-free replicon. We therefore conclude that UV-irradiation of E. coli leads to a trans-acting inhibition of initiation of replication. The inhibition is transient and does not appear to be an SOS function.     

In vitro replication of a DNA fragment containing the vicinity of the origin of E. coli DNA replication.

Summary The restriction nuclease cleavage pattern of E. coli DNA synthesized in vitro in the cellophane membrane system (Schaller et al., 1972) is similar to the one obtained after labelling E. coli in vivo. This is shown for exponentially growing cells and for cells synchronized by amino acid starvation followed by thymine starvation. In synchronized cells a piece of some 180 kilobase pairs is labelled containing oriC and neighbouring regions at 82 min on the genetic map of E. coli. A pulse label in vitro is incorporated into the same piece of DNA, but the center of this region, i.e. the EcoR1 fragment of 8.6 kbp length which contains the oriC region (Marsh and Worcel, 1977; v. Meyenburg et al., 1977; Yasuda and Hirota, 1977) is missing.     

Identification of the minimal essential region for the replication origin of miniF plasmid

Summary The minimal replication origin of miniF plasmid was found to lie within a region of 217 bp in length. This region contains an AT cluster and the four 19 bp direct repeats responsible for incompatibility, termed incB. Its location coincides with that of ori2 of plasmid F, previously inferred to be the replication starting point by electron microscopic analysis (Eichenlaub et al. 1981).Abbreviations kb kilobase(s) - bp base pairs - Ap ampicillin - Tc tetracycline     

Mini-chromosomes: plasmids which carry the E. coli replication origin.

Summary We have isolated plasmids by linking the 5.9 MD EcoRI fragment of E. coli that carries the origin of replication to an EcoRI fragment that carries an ampicillin resistance determinant, but lacks an origin of replication. 3 plasmids of this type, pOC1, pOC2, and pOC3, are described in detail in this report. Although the plasmids have some adverse effect on the growth properties of the host strain, their existence shows that two functioning chromosomal origins can coexist in one cell.Deletions generated from this type of plasmids allow an allocation of the origin of replication of E. coli within a DNA segment less than 0.4 MD in size.     

The genes for the eight subunits of the membrane bound ATP synthase of Escherichia coli

Summary The genes for the eight subunits of the membrane bound ATP synthase of Escherichia coli (Ca⁺⁺, Mg⁺⁺ dependent ATPase, EC 3.6.1.3) were mapped through genetic, physical and functional analysis of specialized transducing phages asn (von Meyenburg et al. 1978). The ATP synthase genes, designated atp ¹, are located at 83.2 min in a segment of the chromosome between 3.5 and 11.3 kb left (counterclockwise) of the origin of replication oriC. The counterclockwise order of the genes for the eight subunits, the expression of which starts from a control region at 3.5 kb-L, was found to be: a, (c, b, ), , , (, ) which in the notation of Downie et al. (1981) reads atpB (E F H) A G (C D). The analysis was in part based on the isolation of new types of atp (unc, Suc^-) mutations. We made use of the fact that specialized transducing phages asn carrying oriC can establish themselves as minichromosomes rendering asnA cells Asn⁺, and that the resulting Asn⁺ cells grow slowly if the asn carries part or all of the atp operon. Selecting for fast growing strains mutations were isolated on the asn which either eliminated atp genes or affected their expression (promoter mutations). The relationship between these atp mutations and the cop mutations of Ogura et al. (1980), which also appear to map in front of or within the atp genes, is discussed.     

Location and nucleotide sequence of a tobacco chlorophlast DNA segment capable of replication in yeast

Summary A 1.7 Kbp EcoRI fragment of Nicotiana tabacum chloroplast DNA cloned in YIp5, consisting of pBR322 and the yeast ura3 gene, possessed ars (autonomously replicating sequences) activity in Saccharomyces cerevisiae. This fragment was located in the small single copy region proximal to the 23S rRNA gene.Sequences responsible for potential ars activity were narrowed to about 350 base pairs, where clusters of nucleotides similar to a consensus sequence (11 bp) essential for several yeast ars (Broach et al. 1982), to the stem-and-loop structure typical of yeast ars3 (Feldmann et al. 1981), and regions surrounding the replication origin of mitochondrial DNAs of HeLa Cells (Crews et al. 1979) and yeast (de Zamaroczy et al. 1981) can be observed.Abbreviations ctDNA chloroplast DNA - Kbp kilobase pairs     

Construction and BamHL analysis of chimeric plasmids containing EcoRL DNA fragments of the F sex factor.

The construction of seven chimeric plasmids (pRS series) carrying EcoRI endonuclease-generated segments of the F sex factor cloned onto the vector pSC101 is described. BamHI endonuclease analysis of these seven plasmids, the six previously described pRS plasmids (Skurray, R. A., Nagaishi, H., and Clark, A. J. (1976) Proc. Nat. Acad. Sci. USA73, 64–68) and F plasmid DNA has enabled a partial BamHI map of F to be constructed; the orientation of insertion of F DNA segments into the pSC101 vector was also established for nine of the pRS plasmids. Results indicate that in the absence of their normal promoter, F cistrons cloned into the EcoRI site of pSC101 are expressed regardless of orientation of insertion although there is a preferred orientation for high levels of expression.     

Mapping of the resistance genes of the R plasmid NR1.

Summary The drug resistance genes on the r-determinants component of the composite R plasmid NR1 were mapped on the EcoRI restriction endonuclease fragments of the R plasmid by cloning the fragments using the plasmid RSF2124 as a vector. The sulfonamide (Su) and streptomycin/spectinomycin (Sm/Sp) resistance genes are located on EcoRI fragment G of NR1. The expression of resistance to mercuric ions (Mer) requires both EcoRI fragment H and I of NR1. The expression of chloramphenicol (Cm) and fusidic acid (Fus) resistance requires EcoRI fragments A and J of NR1. The kan fragment of the related R plasmid R6-5 can substitute for EcoRI fragment J of NR1 in the expression of Cm and Fus resistance. The structural genes for Cm and Fus resistance appear to be a part of an operon whose expression is controlled by the same promoter.