Activation of Chi recombinational hotspots by RecBCD-like enzymes from enteric bacteria.

Chi sites, 5'G-C-T-G-G-T-G-G-3', enhance homologous recombination in Escherichia coli and are activated by the RecBCD enzyme. To test the ability of Chi to be activated by analogous enzymes from other bacteria, we cloned recBCD-like genes from diverse bacteria into an E. coli recBCD deletion mutant. Clones from seven species of enteric bacteria conferred to this deletion mutant recombination proficiency, Chi hotspot activity in lambda Red- Gam- vegetative crosses, and RecBCD enzyme activities, including Chi-dependent DNA strand cleavage. Three clones from Pseudomonas aeruginosa and Ps. putida conferred recombination proficiency and ATP-dependent nuclease activity, but neither Chi hotspot activity nor Chi-dependent DNA cleavage. These results imply that Chi has been conserved as a recombination-promoting signal for RecBCD-like enzymes in enteric bacteria but not in more distantly related bacteria such as Pseudomonas spp. We discuss the possibility that other, presently unknown, nucleotide sequences serve the same function as Chi in Pseudomonas spp.

Elimination of Mycoplasma hyorhinis infections from four cell lines.

Four monolayer mammalian cell lines were cured of Mycoplasma hyorhinis infections by cloning in microtiter dishes in the presence of tetracycline and kanamycin. During cloning, cultures were refed with fresh antibiotic containing medium every 2 or 3 d for 14 day and were then cultured without effective antibiotics for at least 21 d. From the four lines we recovered 29 clones, none of which were infected after treatment as judged by the lack of extranuclear fluorescence after staining with the fluorochrome Hoechst 33258, and by normal autoradiographic labeling of the cells by tritiated nucleosides. One clone from each line was tested further by attempted culture of mycoplasmas and was also judged to be uninfected. Infection has not reappeared in any of the clones after extensive culture in the absence of the effective antibiotics.