Single and tandem insertions of prophage X into R100 have been isolated. Insertions into the transfer genes, insertions into the transfer control gene finO, and insertions into regions that result in no detectable phenotypic change were found. From the last type, deletion mutants were isolated which established the sequence of antibiotic resistance genes as tet-cml-fus-str-sul-mer in R100. Highfrequency transducing phage preparations Xmer, Xsul str, and Xsul str cml were also isolated from this type. R factor R100 is a conjugative plasmid existing as a covalently closed circular deoxyribonucleic acid (DNA) molecule of 60 x 10 to 70 x 106 molecular weight in Escherichia coli K-12. The functions that this plasmid determines include: (i) the ability to replicate in a controlled fashion in the host cell, together with the incompatibility of this replication with that of related plasmids in the same cell; (ii) resistances to tetracycline, chloramphenicol, streptomycin (and spectinomycin, using the same adenylase [3,9]), sulfonamides, mercuric ions, and fusidic acid (5); (iii) a transfer system that allows it to transfer its DNA by conjugation to a suitable recipient cell; and (iv) a two-stage system that controls expression of the transfer genes (7).As a long-term goal, we are interested in elucidating the detailed genetic and physical structure of R100, including in particular the mechanisms whereby expression of the transfer genes is controlled. As a step towards that end, we first isolated a number of "co-integrates" of R100 and X by using the techniques for X insertion into "unusual" attachment sites pioneered by Shimada et al. (16). These X insertions are frequently strongly polar and therefore help to identify operons. Second, from insertions of a XcI857 phage, deletion mutants can be selected as survivors to high temperatures. These can be used to locate the genes responsible for the various R factor functions, and. they are also useful in the characterization of operons and the genes controlling them. Third, it is possible to isolate transducing phages from such insertions, which should allow gene amplification where it is required to purify a gene product, and serve as a source of DNA for measuring transcription of discrete regions of R100 using hybridization techniques. This report presents the methods used to isolate R100 (X) co-integrates and summarizes results showing the approximate locations of the prophage insertions. Deletion mutants from two integrates are described that have allowed a genetic map of the antibiotic resistance genes of R100 to be constructed.
MATERIALS AND METHODSBacterial strains. The host strain for R100 or R100-1 in which the X insertions were generated was ED2149. This is a derivative of ED395 that is T66 and carries a deletion covering nia, gal, att,, and bio (ED395 is a LacAu,24-derivative of W3110). The att, deletion was transduced with P1 grown on CT1O (obtained from C. Town) into a (XcI857 susJ6 xis-i) + lysogen ofthe parental attx+ strain, since all spontaneous gal att, bio ...
