Y Itoh

A Generalized Transducing Phage of Pseudomonas cepacia

A generalized transducing phage, named CP75, was derived from a lysogenic strain of Pseudomonas cepacia. The frequency of transduction per phage particle ranged from 1.0 X 10(-6) to 2.0 X 10(-6) for a given marker. About half of the 105 P. cepacia strains tested were sensitive to the phage. The molecular size of the CP75 genome was approximately 52 kb.

Low- and intermediate-copy-number cloning vectors based on thePseudomonas plasmid pVS1

The cloning vector pME290 (6.8 kb), which is derived from thePseudomonas plasmid pVS1 and has about 7 copies, was mutagenized in vitro to provide derivatives with altered copy numbers. Thus, pME292 (about 1–3 copies) and pME294 (about 15–20 copies) were isolated. These vectors were used in the characterization of theP. aeruginosa argF gene encoding ornithine carbamoyltransferase.

Cloning of the replication and incompatibility regions of a plasmid derived from Rts1

Abstract A replication region, consisting of a 1.1-megadalton (Md) Eco RI/ Hin dIII fragment, was isolated from an Rts1 derivative plasmid. This 1.1-Md fragment, designated as mini-Rts1, was ligated to either pBR322 or a nonreplicating DNA fragment specifying a drug resistance, and its replication properties were investigated. The mini-Rts1 plasmid was cured at a high frequency at 42 °C, while it was maintained stably at 37 °C despite it existed in low copy number. These behaviors are quite similar to those of Rts1. By dissecting the pBR322:mini-Rts1 chimeric plasmid with Acc I endonuclease, an inc region of 0.34 Md in size was cloned, which expressed incompatibility toward Rts1. Proteins encoded on the mini-Rts1 genome were examined in the minicell system, and one specific product of 35,000 daltons in molecular weight was identified. Any polypeptides specific for the 0.34-Md inc + region within mini-Rts1 were not detected.

Replication properties of mini-Rts1 derivatives deleted for DnaA boxes in the replication origin

Mini-Rts1 was found to be unable to replicate in a dnaA-null mutant. However, a mini-Rts1 derivative lacking entire tandem DnaA boxes in the replication origin retained the replication ability in a dnaA+ host although its copy number was about half that of the mini-Rts1 having complete DnaA boxes. Mini-Rts1cop1 that contains a high copy number mutation in repA was found to replicate more efficiently than mini-Rts1 of wild repA when DnaA boxes were deleted. In addition, the copy number of mini-Rts1cop1 without DnaA boxes increased 1.5-fold upon removal of incI iterons, whereas that of mini-Rts1 without DnaA boxes did not increase after the iterons were deleted. These indicate that the RepAcop1 protein can initiate the replication of mini-Rts1 efficiently even when DnaA boxes are absent from the origin of replication.