Abstract

The transposition properties of the Pseudomonas aeruginosa mutator bacteriophage D3112 were exploited to develop an in vivo cloning system. Mini-D replicon derivatives of D3112 were constructed by incorporating broad host range plasmid replicons between short terminal D3112 sequences. These elements were made with small replication regions from the RK2, Sa, and pVS1 plasmids and selectable genes for tetracycline, carbenicillin, kanamycin, and gentamicin resistance. Some of the mini-D replicons also contain the RK2 oriT origin-of-transfer sequence, which allows them to be mobilized by conjugation to many different species of gram-negative bacteria. These elements were used to clone DNA by preparing lysates from P. aeruginosa cells harboring an inducible D3112 cts prophage and a mini-D replicon plasmid. These lysates were used to infect sensitive P. aeruginosa recipients and select recombinant plasmids as drug-resistant transductant colonies. These transductants form a gene library from which particular clones can be selected, such as by their ability to complement specific mutations. This system was used to clone nine different genes from the PAO chromosome. The ability of this system to precisely identify a gene was demonstrated by isolating clones of the argF+ and cys-59+ genes. Restriction maps of clones of these genes, which have different amounts of flanking DNA, located the positions of these genes. The sizes of the chromosomal DNA segments from 10 individual clones examined ranged from 6 to 21 kilobases (kb), with an average of about 10 kb. This is consistent with the approximately 40-kb DNA-packaging size of the D3112 phage.

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