Colicinogenic mutant of ColE1 plasmid that fails to confer immunity to colicin E1.

Insertion of the ampicillin transposon (Tn3) into ColE1 DNAs causes various mutations in the plasmids. Escherichia coli K-12 cells carrying one of these mutants showed novel properties; they were sensitive to colicin E1 and were able to produce active colicin E1. The site and the orientation of Tn3 insertion in this mutant ColE1 DNA were determined by heteroduplex analysis and by enzymatic digestion with restriction endonucleases. The potential usefulness of this mutant ColE1 DNA as a cloning vehicle is discussed.     

Construction of a colicin E1-R factor composite plasmid in vitro: means for amplification of deoxyribonucleic acid.

A composite plasmid has been constructed in vitro from colicin E1 factor (mass of 4.2 megadaltons [Md]) and nontransmissible resistance factor RSF 1010 (mass, 5.5. Md) deoxyribonucleic acids (DNAs) by the sequential action of Escherichia coli endonuclease (RI (Eco RI) and T4 phage DNA ligase on the covalently closed circular forms of the constituents. The composite plasmid was selected and amplified in vivo by sequential transformation of E. coli C600 with the ligated mixture and selection of transformants in medium containing streptomycin plus colicin E1, followed by amplification in the presence of chloramphenicol and purification of the extracted plasmid by dye-buoyant density gradient centrifugation in ethidium bromide-cesium chloride solution. Treatment of the composite plasmid with Eco RI yielded two fragments with mobilities corresponding to the linear forms of the parental plasmids, whereas Serratia marscesens endonuclease R (SmaR), which introduces a single scission in the colicin E1 factor but not in RSF 1010, convErted the composite plasmid to a single linear molecule (mass, 9.7 Md). Sequential degradation of colicin E1 factor with Sma R and Eco RI produced two fragments with masses of 3.5 and 0.7 Md; sequential degradation of RSF 1010 produced only one fragment (due to the cleavage with Eco RI), and sequential degradation of the composite plasmid produced the expected three fragments--an RSF 1010 Eco RI linear and the two expected products from the colicin E1 factor moiety. The composite plasmid conferred on the host cell resistance to streptomycin, sulfonamides, and colicin E1, but colicin E1 itself was not synthesized. In contrast, colicin E1 was synthesized by cells containing simultaneously both colicin E1 factor and RSF 1010 as separate entities. In the presence of chloramphenicol, the composite plasmid continued to replicate for 6 h. whereas replication of RSF 1010 and chromosomal DNA stopped within 2 h. Continued replication in the presence of chloramphenicol suggests that the replicator of the colicin E1 factor is functional in the composite plasmid.     

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.     

Altered tetracycline resistance in pSC101 recombinant plasmids

Summary Investigation of tetracycline resistance genetically determined by the plasmid pSC101 and several recombinants of pSC101 containing of EcoRI generated DNA fragments inserted at the EcoRI site has revealed significant differences in the phenotypic expression of that resistance. The altered phenotypes of the recombinant plasmids may be the result of the location of the EcoRI site of pSC101, which has been determined to be near the genetic elements involved with tetracycline resistance.     

Translation in Escherichia coli mini-cells containing hamster mitochondrial DNA-Co1E1 - Ampr recombinant plasmids.

Hamster mitochondrial DNA is cleaved into two fragments (4.2 and 11.4 kilobase pairs of DNA (kb)) by the restriction enzyme, Eco RI. Recombinant DNA molecules formed in vitro between an Escherichia coli plasmid, Co1E1 - Ampr, and Eco RI-digested hamster mitochondrial DNA were transformed into E. coli K12. The translation products of the parent plasmid, Co1E1 - Ampr, and recombinant plasmid DNAs containing (i) the 4.2 kb mitochondrial DNA fragment and (ii) the 11.4 kb fragment were characterized on sodium dodecyl sulfate-polyacrylamide gels using bacterial mini-cell lysates. The Co1E1 - Ampr plasmid specifies at least six polypeptides whose structural genes comprise 56% of the plasmid DNA. Insertion of hamster mitochondrial DNA at the Eco RI site of the plasmid alters the relative rate of synthesis of these six polypeptides and induces the occurrence of a new band on sodium dodecyl sulfate-polyacrylamide gels which is probably not specified by the inserted mitochondrial DNA sequences.     

Synthesis of proteins coded by plasmid vectors of pCV series (Apr, Tcr) and their recombinant derivatives (pDm) in E. coli minicells.

Polypeptide synthesis directed by vector plasmids of pCV series conferring ampicillin and tetracycline resistance (Apr, Tcr) and by recombinant plasmids (pDm) have been analyzed using the minicell system. It has been found that a polypeptide of 34 000 daltons is responsible for the Tcr phenotype and regulated from the promoter near the HindIII site. Cloning of DNA fragments into HindIII site allowed to conclude that DNA from Drosophila melanogaster contains nucleotide sequences which may act as promoters for a 34 000 dalton polypeptide gene. beta-Lactamase is expressed as five proteins of 24 000, 26 5000, 27 000, 28 500 and 29 500 daltons. Insertion of DNA fragments into PstI site prevents the synthesis of all five polypeptides. Recombinant clones Dm39 and Dm187 produce additional proteins of 19 000, 23 000, 24 000 and 27 000 daltons.     

Cloning and characterization of the ColE7 plasmid

The 6.2 kb ColE7-K317 plasmid was mapped and the DNA fragments of the colicin E7 operon subcloned into pUC18 and pUC19. The size of the functional colicin E7 operon deduced by subcloning was 2.3 kb. The colicin E7 gene product was purified by carboxymethylcellulose chromatography. Both colicin E7 and E9 were demonstrated to exhibit a non-specific DNAase-type activity by in vitro biological assay. The molecular mass of colicin E7 was 61 kDa, as determined by SDS-PAGE. From DNA sequence data, the estimated sizes of the E7 immunity protein and the E7 lysis protein were 9926 Da and 4847 Da, respectively. Comparison of restriction maps and DNA sequence data suggests that ColE7 and ColE2 are more closely related than other E colicin plasmids.     

Nucleotide sequence of small ColE1 derivatives: Structure of the regions essential for autonomous replication and colicin E1 immunity

Summary A small ColE1 derivative, pAO2, which replicates like the original ColE1 and confers immunity to colicin E1 on its host cell has been constructed from a quarter region of ColE1 DNA (Oka, 1978). The entire nucleotide sequence of pAO2 (1,613 base pairs) was determined based on its fine cleavage map. The sequence of a similar plasmid, pAO3, carrying additional 70 base pairs was also deduced.The sequence in the region covering the replication initiation site on these plasmids was consistent with those reported for ColE1 by Tomizawa et al. (1977) and by Bastia (1977). DNA sequences indispensable for autonomous replication were examined by constructing plasmids from various restriction fragments of pAO2 DNA. As a result, a region of 436 base pairs was found to contain sufficient information to permit replication. The occurrence of initiation and termination codons and of the ribosome-binding sequence on pAO2 DNA suggests that a polypeptide chain consisting of 113 amino acid residues may be encoded by the region in which the colicin E1 immunity gene has been mapped.Abbreviations ColE1 colicin E1 plasmid - Tris tris-(hydroxymethyl)aminomethane - EDTA ethylenediaminetetraacetate - dNTP deoxyribonucleoside triphosphates - ATP adenosine 5-triphosphate     

Mapping and cloning of Eco RI-fragments of bacteriophage T5+ DNA.

The Eco RI-fragments of bacteriophage T5 DNA were mapped using a technique which involves primarily length measurements of molecules observed in the electron microscope. Since Eco RI cleavage generates termini with 4-nucleotide long cohesive ends, fragments of complete and partial Eco RI digests were covalently circularized with DNA ligase at dilute DNA concentrations before measuring relative to internal length standards. This established the order of the internal Eco RI fragments. The two external Eco RI fragments, which had only one Eco RI terminus, were positioned relative to the internal fragments by identifying the location of some of the naturally-occurring nicks in partially denatured linear Eco RI fragments. An attempt was made to clone each of the internal Eco RI-fragments of T5 DNA via transformation into E. coli after ligation in vitro with the plasmid pMB 9. Only one fragment could be cloned and this fragment did not specify any new polypeptides in minicells of either the E. coli EK1 host, X1411, or the EK 2 host, X1776.     

cea-kil operon of the ColE1 plasmid.

We isolated a series of Tn5 transposon insertion mutants and chemically induced mutants with mutations in the region of the ColE1 plasmid that includes the cea (colicin) and imm (immunity) genes. Bacterial cells harboring each of the mutant plasmids were tested for their response to the colicin-inducing agent mitomycin C. All insertion mutations within the cea gene failed to bring about cell killing after mitomycin C treatment. A cea- amber mutation exerted a polar effect on killing by mitomycin C. Two insertions beyond the cea gene but within or near the imm gene also prevented the lethal response to mitomycin C. These findings suggest the presence in the ColE1 plasmid of an operon containing the cea and kil genes whose product is needed for mitomycin C-induced lethality. Bacteria carrying ColE1 plasmids with Tn5 inserted within the cea gene produced serologically cross-reacting fragments of the colicin E1 molecule, the lengths of which were proportional to the distance between the insertion and the promoter end of the cea gene.     

A DNA segment within the colicin E1 structural gene on ColE1 affecting immunity to colicin

Summary Insertion of DNA at the EcoRI site of ColE1 results in increase of immunity to colicin killing in E. coli harboring such recombinant ColE1 plasmid as compared to E. coli (ColE1). This effect is neither due to cis or trans interactions originating from the inserted foreign DNA fragment, nor to changes in plasmid copy number. This defect in the immunity mechanism is not trans complemented for by wild type ColE1. Increase in immunity can also be obtained by deleting a DNA segment from the ColE1 genome. This segment is 120 bp left to the EcoRI site within the colicin structural gene. It is concluded that the structure of DNA per se, around the EcoRI site, within colicin structural gene, is the structure which affects immunity expression.     

Nucleotide sequences from the colicin E5, E6 and E9 operons: Presence of a degenerate transposon-like structure in the ColE9-J plasmid

Summary The nucleotide sequences of 1288 bp of plasmid ColE5-099, 1609 bp of ColE6-CT14 and 2099 bp of ColE9-J were determined. These sequences encompass the structural genes for the C-terminal receptor-binding and nuclease domains of colicins E5, E6 and E9, theircis- ortrans-acting immunity proteins and four lysis proteins including an atypical one of non-lipoprotein nature (Lys^*) present in the ColE9-J plasmid. The ColE6 gene organisation, in the ordercol-imm-E8imm-lys, is identical to that found in the previously described double-immunity gene system of ColE3-CA38 (an RNase producer). The corresponding genes in the two plasmids are 87%–94% homologous. In ColE9-J, the genes are organised ascol-imm-lys ^*-E5imm-lys. The E9col-imm gene pair is homologous to the colicin E2-P9 type (a DNase producer). Downstream from E9imm is an E5imm (designated E5imm[E9]) which istrans-acting. Neither the predicted structures of E5Imm[E9] nor thecis-acting Imm resident in the ColE5-099 plasmid which differs by a single amino acid shows any resemblance to other immunity structures which have been sequenced. Furthermore, the E5col sequences differ from those predicted previously for other colicins except for the conservedbtuB-specified receptor-binding domain. A novel 205 nucleotide long insertion sequence is found in the ColE9-J plasmid. This insertion sequence, which we named ISE9, has features reminiscent of the degenerate transposon IS101 previously found in plasmid pSC101. One effect of ISE9 is the presence of the atypical lysis gene,lys ^*. The presence of a transposon-like element in the ColE9 plasmid exemplifies a new phenomenon relevant to the evolution of colicin E plasmids. Issued as NRCC publication no. 30065     

Cloned DNA fragment specifying major outer membrane protein a in Escherichia coli K-12.

Plasmid pMC44 is a recombinant plasmid that contains a 2-megadalton EcoRI fragment of Escherichia coli K-12 DNA joined to the cloning vehicle, pSC101. The polypeptides specified by plasmid pMC44 were identified and compared with those specified by pSC101 to determine those that are unique to pMC44. Three polypeptides specified by plasmid pMC44 were localized in the cell envelope fraction of minicells: a Sarkosyl-insoluble outer membrane polypeptide (designated M2), specified by the cloned 2-megadalton DNA fragment, and two Sarkosyl-soluble membrane polypeptides specified by the cloning plasmid pSC101. Bacteria containing plasmid pMC44 synthesized quantities of M2 approximately equal to the most abundant E. coli K-12 outer membrane protein. Evidence is presented that outer membrane polypeptide M2, specified by the recombinant plasmid pMC44, is the normal E. coli outer membrane protein designated protein a by Lugtenberg and 3b by Schnaitman.     

Analysis of the promoter-distal region of the tra operon of the F sex factor of Escherichia coli K-12 encoded by EcoRI restriction fragments f17, f19, and f2.

The promoter-distal region of the tra operon of the F sex factor Escherichia coli K-12 was analyzed, using the chimeric plasmid pRS31, which contains the F EcoRI restriction fragments f17, f19, and f2 cloned into the EcoRI site of pSC101. A series of deletion plasmids of pRS31, extending increasing distances from a site in f17 through f19 and ending in f2, were isolated. These plasmids were examined by heteroduplex analysis with the parent DNA, and a restriction map of this region of DNA was constructed. A series of Tn5 insertion derivatives of pRS31 were also isolated and mapped, using both heteroduplex analysis and restriction mapping. Both the insertion and deletion mutants were tested in minicells for the synthesis of radioactively labeled proteins. This allowed the identification of the individual gene products and mapping of the genes. The result is a saturated physical map of this region of DNA from fragment f17 through to the IS3 insertion sequence near the promoter-distal end of f2.     

On the nature of tetracycline resistance controlled by the plasmid pSC101.

In vitro enzymatic alteration of plasmid phenotype and in vitro construction of recombinant plasmids containing genetic information derived from the plasmid pSC101 have been used to investigate the mechanism of function of tetracycline resistance determined by the plasmid pSC101. The resistance has been shown to be inducible and involves the increased synthesis of membrane-associated polypeptides of 34,000, 26,000 and 14,000 daltons that are encoded for by the plasmid. The 34,000 dalton polypeptide along with another plasmid-encoded polypeptide of 18,000 daltons function in an ATP-independent manner to prevent the accumulation of tetracycline by the cell. These polypeptides are sufficient for resistance. A second component of plasmid-determined resistance involves the 14,000 dalton polypeptide and reduces the initial adsorption of tetracycline by sensitive cells, but is not alone sufficient for the generation of resistance. The role of the 26,000 dalton polypeptide in tetracycline resistance has not been identified.     

Plasmid pSC101 replication mutants generated by insertion of the transposon Tn1000

A derivative of pSC101, pLC709, was constructed by ligation of the HincII-A fragment of pSC101 to the mini-colEI plasmid pVH51 and to a DNA fragment encoding resistance to the antibiotics streptomycin and spectinomycin. Insertions of the transposon Tn1000 (gamma-delta) into the pSC101 replication region of pLC709 were isolated following cotransfer of the plasmid with the sex factor F. The sites of insertion of the transposon were determined by restriction enzyme analysis and the replication and incompatibility properties of the insertion plasmids and DNA fragments cloned from them were analysed. The insertion mutations defined a locus, inc, of approximately 200 base-pairs that is responsible for pSC101-specific incompatibility. Two mutations adjacent to this region inactivate pSC101 replication but can be complemented in trans by a wild-type pSC101 plasmid, and thus define a trans-acting replication function, rep. The inc locus is within a larger region of some 450 base-pairs that is essential for pSC101 replication and that includes the origin of replication. This 450 base-pair segment can replicate in the presence of a helper plasmid that supplies the rep function in trans.