Restriction endonuclease mapping of the colicin Ib plasmid

Summary A cleavage site map of the colicin Ib plasmid (ColIb) has been determined for the enzymes Sall, XhoI, and HindIII by analysis of partial digests, double digests, DNA-DNA hybridization, and Tn5-induced insertion mutants. The site of the colicin gene has been determined by probing with cloned DNA coding for colicin production, as well as by analysis of a colicin negative ColIb:Tn5.     

Location of the abi, col and imm genes on pHU011, a colicin Ib plasmid derivative

A cleavage site map of pHU011, a derivative of the colicin Ib plasmid containing the complete SalI-B fragment ligated to pBR322, has been determined. Sites of cleavage by PstI were determined using the Smith and Birnstiel [Nucl. Acids Res. 3 (1976) 2387-2398] method of mapping, whereas those for XbaI, XhoI, and HindIII were determined by double digestions or digestion of isolated fragments. In addition, the sites of the abi gene, which causes the abortive infection by T5 bacteriophage, and of the colicin (col) gene have been determined. The results indicate that these genes are not contiguous.     

Isolation of conjugation-constitutive mutants of colicin factor Ib

Summary Colicin factor ColIb-P9 is known to act as a sex factor in E. coli or Salmonella. Although ColIb-P9 confers mating ability on its host bacteria, this ability appears to be repressed since only a small proportion of cells in a culture of a colicinogenic strain are able to pair with, and transmit the factor to recipient bacteria. We have isolated mutants of ColIb-P9 which confer constitutive donor ability on their host. De-repression in these mutants is probably due to failure to produce repressor, rather than to insensitivity to repressor. As the colicin production by the mutants is still repressed, colicin synthesis and conjugation ability are subject to independent systems of regulation.     

Studies of colicin E1 plasmid functions by analysis of deletions and TnA insertions of the plasmid.

The further identification of regions of the colicin E1 plasmid that affect plasmid functions has been achieved by studying deletions and TnA insertions of the plasmid. Colicin production, colicin immunity, relaxation of plasmid deoxyribonucleic acid, and plasmid incompatibility functions have been examined. A strong correlation has been observed between the ability of colicin E1 plasmid deoxyribonucleic acid to be relaxed and the ability of that plasmid to be transferred by conjugation.     

Properties and incompatibility behavior of miniplasmids derived from the bireplicon plasmid pCG86

Summary Many plasmids belonging to the F incompatibility groups contain more than one basic replicon. The chimeric plasmid pCG86 is an example of such a multireplicon plasmid. The two basic replicons of pCG86, RepFIIA/FIC and RepFIB have been cloned and re-ligated, the copy numbers of the clones have been determined, and the incompatibility behavior of plasmids containing the ligated replicons and the individual replicons has been studied. The bireplicon plasmids are not expected to be incompatible as recipients with monoreplicon RepFIB or RepFIIA/RepFIC plasmids, since when one replicon is challenged by an incoming replicon, the other should be able to handle the plasmid's replication. In our studies, we found that challenge with either monoreplicon plasmid resulted in incompatibility. This incompatibility was increased in bireplicon plasmids in which RepFIB was duplicated. We conclude that in the bireplicon plasmids, challenging the replication control of one replicon by an incompatible plasmid can interfere with the replication originating from the second replicon.     

Characteristics of hybrid plasmids carrying the genes of colicinogenic plasmid Collb-P9 responsible for colicin Ib synthesis and inhibition of phage T5 development

The EcoRI and HindII restriction endonucleases and pBR325 vector plasmid were used to obtain a set of hybrid plasmids containing ColIb-P9 fragments carrying the characters for colicin Ib synthesis and immunity and the ability to inhibit T5 phage growth. The genes responsible for colicin synthesis and immunity are closely linked and localized in the EcoRI fragment with a molecular weight of 1.85 MD (pIV41) or in the HindII fragment of 2.4 MD (pIV1). The clones containing these plasmids show an increased level of both spontaneous and mitomycin C-induced colicin synthesis and an increased level of immunity due to a larger dosage of the genes. The genes controlling T5 growth inhibition are localized in other restriction fragments of ColIb DNA: the EcoRI fragment of 1.45 MD (pIV7) and the HindII fragment of 4.3 MD (pIV5). We have demonstrated by means of hybrid plasmids that T5 growth inhibition is not connected with the colicin Ib synthesized in infected cells and is controlled by other specific product(s) of the ColIb plasmid genes. T5 phage growth was as efficient in clones containing plasmids with cloned colicin Ib genes as in a strain without plasmids. An investigation of the expression of the genes inhibiting T5 phage growth in an in vitro protein synthesis system has revealed a protein with a molecular weight of 36 000 which seems to take part in the process.     

Mode of action of colicin Ib Formation of ion-permeable membrane channels

Addition of purified colicin Ib to whole Escherichia coli cells or cytoplasmic membrane vesicles inhibits their subsequent ability to generate a membrane potential. In addition, this colicin is shown to bring about a voltage-dependent increase in the conductance of an artificial planar bilayer membrane prepared from soybean phospholipids. This results from the formation of ion-permeable channels. These data provide strong evidence that the depolarization of Escherichia coli cells by this colicin results from an Ib-induced increase in membrane permeability to ions.     

A type Ib plasmid segregation machinery of the Advenella kashmirensis plasmid pBTK445

pBTK445 is a newly described large (～60Kb), low-copy number, conjugative plasmid indigenous to the sulfur-chemolithoautotroph Advenella kashmirensis. Based on its minimal replication region, a shuttle vector, pBTKS was constructed which can be used for diverse Alcaligenaceae members. The construct was found to be stably maintained both in the native host as well as in Escherichia coli in the absence of selective pressure which indicated that pBTKS harbors the stabilizing system of pBTK445, that are commonly coded by low-copy-number plasmids. Deletion analyzes of pBTKS confirmed the essentiality of parA (encoding a Walker-type ATPase of 214 amino acids) and the downstream located small parB (encoding an 85 amino acid protein having no sequence homolog in the database) in the faithful partitioning of pBTK445. A 1075bp PCR product, containing parA, parB and an upstream sequence having nine 11bp direct repeats (parS site) was found to comprise the partition functions of pBTK445, stabilizing both low-copy or high-copy number homologous and heterologous replicons in diverse hosts. The incompatibility determinant and the par promoter, P(par) were both found to be present within a 191bp iterated sequence present upstream of parA. ParB was found to regulate the expression of the Par proteins from P(par). The presence of a typical Walker-type ATPase motif in ParA, a short phylogenetically unrelated ParB, that acts as a repressor of P(par), and location of the iterated parS site upstream of parA, confirm that the active partition system of pBTK445 belongs to the type Ib.     

Generation of miniplasmids from copy number mutants of the R plasmid NR1.

Small, closed circular deoxyribonucleic acid molecules, called miniplasmids, were observed in Escherichia coli harboring copy number mutants of the R plasmid NR1 after growth in medium containing tetracycline. The level of tetracycline resistance conferred by the copy mutant plasmids was lower (3 to 6 microgram/ml) than that conferred by NR1 (100 MICROGRAM/ML). The presence of the miniplasmid enhanced the level of tetracycline resistance conferred by the copy mutant. Miniplasmids of molecular weights 4 X 10(6) to 13 X 10(6) were found. They carried no antibiotic resistance markers and could be eliminated by growth in the presence of chloramphenicol and/or streptomycin-spectinomycin. Studies with the restriction endonucleases EcoRI and Sal I indicated that the miniplasmids are derived from the region of the copy mutant plasmids that contains the origin for replication of the resistance transfer factor. There were approximately 12 copies of the miniplasmid per chromosome, compared with 3 and 6 copies of the copy mutants of NR1. The miniplasmids appeared to be incompatible with the copy mutant plasmids.     

Tn1 insertion in Col Ib plasmid

Eight clones ColIb::Tn1 were isolated by means of transformation of E. coli 921 with DNA ColIb, RP4. Linkage between markers controlling ampicillin-resistance and synthesis of colicine was found in conjugation and transduction experiments.     

Structural and functional organization of the colicin operon in the ColD-CA23 plasmid

The organization of the genes involved in colicin D synthesis was studied. These are colicin, immunity and lysis genes. The nucleotide sequence of the immunity gene, its structural and regulatory regions were determined. This gene was shown to be located next to the colicin gene on the same strand and followed by the lysis gene. When colicin synthesis is induced with mitomycin C the immunity gene is transcribed from the general SOS-dependent promotor as a part of the colicin operon. However it has its own SOS-independent promotor in normal growth conditions. A high homology in amino acid sequences of Co1D lysis protein and that of Co1E1, Co1E2, Co1E3, Co1DF13, Co1A was revealed. A detailed scheme of Co1D-CA23 colicin operon structural organization is suggested.