The isolation and characterization of plaque-forming arabinose transducing bacteriophage λ

Abstract

Non-defective arabinose transducing phage, λp ara, were isolated in two steps: first, Escherichia coli strains containing rare insertions of λ DNA into the arabinose C or B genes were selected; and second, these lysogens were induced and transducing phage were selected from the resulting lysates. The approximate location of the bacterial substitution on the phage and the ara gene content of the substitution were determined genetically. The precise location of the substitution was determined by electron microscopy of DNA heteroduplexes. Transducing phage, derived from the strain possessing λ inserted into the araC gene, carried part of the araC gene, the ara regulatory region, and all of the araB gene. Transducing phage, derived from eight independent strains possessing λ inserted in the same orientation and in the same position in the araB gene, carried a portion of the araB gene, the ara regulatory region and all of the araC gene. In these nine cases the ara DNA on the phage was immediately adjacent to the normal phage attachment site, indicating that the transducing phage were formed by the same type of abnormal excision which produces gal or bio transducing λ phage. The relative orientations of ara and phage genes were deduced from the topology of such excisions. One anomalous transducing phage was also characterized.