During the process of transformation in Hemophilus infiuenzae integration of donor DNA, i.e. the formation of recombinant DNA, involves the incorporation of single-stranded DNA. Evidence was obtained from cesium chloride density gradient centrifugation of DNA from donor-recipient complexes that integration was accompanied by the formation of hybrid DNA with a density intermediate with respect to heavy, 2 H, 15
A plasmid containing a single cloned insertion of Haemophilus influenzae chromosomal deoxyribonucleic acid that carried a novobiocin resistance marker was 2.6 times larger than the parent plasmid, RSF0885, which conferred ampicillin resistance. The most frequent type of transformation by this plasmid (designated pNovl) was the transfer of novobiocin resistance to the chromosome, with the loss of the plasmid from the recipient. In accord with this observation, after radioactively labeled pNovl entered a competent cell, it lost acid-insoluble counts, as well as biological activity. The level of ampicillin transformation, which involved establishment of the plasmid, was almost two orders of magnitude lower than the level of novobiocin transformation. Both types of transformation were depressed profoundly in rec-1 and rec-2 mutants. Ampicillin transformants of wild-type cells always contained plasmids that were the same size as pNovl, although most of these transformants were not novobiocin resistant. Plasmid pNovl in wild-type cells but not in rec-1 or rec-2 cells often recombined with the chromosome, causing a homologous region of the chromosome to be substituted for part of the plasmid, as shown by restriction and genetic analyses. Our data suggested that plasmid-chromosome recombination took place only around the time when the plasmid entered a cell, rather than after it became established.
To determine the molecular basis of transformation defects in Haemophilus influenzae, the fate of genetically marked, 32P-labeled, heavy deoxyribonucleic acid (DNA) was examined in three mutant strains (rec -, rec2-, and KB6) and in wild type having 3H-labeled DNA and a second genetic marker. Transforming cells upon lysis with digitonin followed by low-speed centrifugation are separable into the supernatant fraction, containing mainly the unintegrated donor DNA, and the pellet, containing most of the resident DNA along with integrated donor DNA. Electron micrographs of digitonin-treated cells also indicate that the resident DNA is trapped inside a cellular structure but that cytoplasmic elements such as ribosomes are extensively released. DNA synthesis in digitonin-treated cells is immediately blocked, as is any further integration of donor DNA into the resident genome. Isopycnic and sedimentation analysis of supernatant fluids and pellets revealed that in strains rec2and KB6 there is little or no association between donor and resident DNA, and thus there is negligible transfer of donor DNA genetic information. In these strains, the donor DNA is not broken into pieces of lower molecular weight as it is in strain rec -and in the wild type, both of which show association between donor and recipient DNA. In strain rec -, although some donor DNA atoms become covalently linked to resident DNA, the incorporated material does not have the donor DNA transforming activity.
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