Inhibition of growth of bacteriophage BF23 by the ColIb plasmid: Identification of the ibfA and ibfB genes of the ColIb plasmid

T5-like phage BF23 evades host-mediated DNA restriction and methylation

Bacteriophage BF23 is a close relative of phage T5, a prototypical Tequintavirus that infects Escherichia coli. BF23 was isolated in the middle of the XXth century and was extensively studied as a model object. Like T5, BF23 carries long ∼9.7 kb terminal repeats, injects its genome into infected cell in a two-stage process, and carries multiple specific nicks in its double-stranded genomic DNA. The two phages rely on different host secondary receptors-FhuA (T5) and BtuB (BF23). Only short fragments of the BF23 genome, including the region encoding receptor interacting proteins, have been determined. Here, we report the full genomic sequence of BF23 and describe the protein content of its virion. T5-like phages represent a unique group that resist restriction by most nuclease-based host immunity systems. We show that BF23, like other Tequintavirus phages, resist Types I/II/III restriction-modification host immunity systems if their recognition sites are located outside the terminal repeats. We also demonstrate that the BF23 avoids host-mediated methylation. We propose that inhibition of methylation is a common feature of Tequintavirus and Epseptimavirus genera phages, that is not, however, associated with their antirestriction activity.

Nucleotide sequence of a DNA fragment that contains the abi gene of the ColIb plasmid

A 1989-bp PstI DNA fragment from the ColIb plasmid, which contains the abi gene that is necessary for the abortive response to infections by bacteriophage BF23 or T5, was sequenced. A candidate open reading frame for the abi gene has been suggested on the basis of a Shine-Dalgarno sequence appropriately placed ahead of its ATG initiation codon, a promoter upstream from the Shine-Dalgarno sequence, and a location compatible with deletion mapping. The polypeptide that would be coded by this open reading frame is 89 amino acids long and strongly hydrophobic. A promoter that could serve this open reading frame was detected by exonuclease III "footprinting" using RNA polymerase from uninfected Escherichia coli as the DNA-binding protein.

ColIb plasmid genes that inhibit the replication of T5 and T7 bacteriophage

The colicin Ib (ColIb) plasmid genes that inhibit the replication of the T5-like and T7 bacteriophage have been cloned on an approximately 7200-bp ClaI fragment and their sites relative to each other and to the colicin immunity (imm) gene have been mapped. The inhibition of wild-type T7 by the clone is shown to be caused by the same gene or genes (pic) that cause the inhibition of T7 kinase-negative mutants and is a different gene than the one that causes inhibition of T5 (ibf or abi). The pic gene does not hybridize to the pif genes of the F plasmid that also cause the replication of T7 to be inhibited. The abi gene and the pic gene map very closely together but are under the control of different promoters. The abi gene has a maximum size of 900 bp and lies approximately 3000 bp away from the immunity gene, distal to the colicin gene. A site which maps in or near the gene binds very tightly to Escherichia coli RNA polymerase. The pic gene or genes lie between the abi gene and the imm gene and are contiguous with abi. Promoters for pic have been mapped and hypotheses to explain the inhibition of T7 by a cloned gene but not the whole ColIb plasmid are presented.

Organization and regulation of the conjugation genes of IncI1 plasmid colIb-P9

The IncI1 plasmid ColIb-P9 is among a group of related plasmids that encode the I1 type of conjugation system. The I1 system is known to include two morphologically distinct types of pilus, a DNA primase gene (sog) and an exclusion determinant (exc). Transposon mutagenesis and analysis of cloned fragments of ColIb were used to identify the location of these determinants with respect to an EcoRI restriction map. Also identified were the location of the origin of transfer (oriT) and a gene determining an EDTA-resistant nuclease, which is coordinately regulated with the transfer genes. The results indicate that the ColIb tra genes are separated into at least three Tra regions. The pleiotropic nature of transposon insertion mutations in two of these regions suggests that two positive regulators are required for expression of the transfer genes and evidence is also found for a trans-acting repressor. It is suggested that the I1 conjugation system may have evolved following fusion of two distinct types of conjugative plasmid.

Physical and genetic analyses of the Inc-I alpha plasmid R64

A 126-kilobase (kb) physical and genetic map of the Inc-I alpha plasmid R64 was constructed by using the restriction enzymes, BamHI, SalI, XhoI, HindIII, and EcoRI. The replication (Rep) and incompatability (Inc) functions of this plasmid were located in a 1.75-kb segment of an EcoRI fragment, E10 (3.3 kb). In addition, the genes determining growth inhibition of phage BF23 (Ibf), suppression of dnaG ( Sog ), resistance to tetracycline (Tetr), and resistance to streptomycin ( Strr ) were located on the 5.5-kb HindIII-XhoI fragment, the 8.1-kb EcoRI fragment (E5), the 4.6-kb HindIII fragment (H8), and the 4.1-kb HindIII fragment (H10), respectively. The map of R64 was compared with that of ColIb, which belongs to the Inc-I alpha group.

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.

Inhibition of T7 bacteriophage replication by a colicin Ib plasmid gene

Clones containing fragments of the colicin Ib (ColIb) plasmid inserted into pBR322 have been found that inhibit the replication of T7 bacteriophage. Cells containing the whole ColIb plasmid grow T7 normally but cannot grow T7 protein kinase-negative mutants of T7. The cloned fragments inhibit not only the T7 protein kinaseless mutants but wild-type T7 as well. However, the whole plasmid can suppress the wild-type T7 inhibition caused by the cloned inhibiting genes. These results are consistent with a model in which a ColIb gene (pic) exists which can inhibit replication of T7 phage. A second gene (rpi) can repress the function of pic provided the rpi product is phosphorylated.