The structure of the bacterial chromosome was investigated after introducing breaks in the DNA with gamma irradiation. It is demonstrated that irradiation of the chromosome in the cell prior to isolation results in partial unfolding of the isolated condensed DNA, while irradiation of the chromosome after it is released from the cell has no demonstrable effect on DNA folding. The results indicate that RNA/DNA interactions which stabilize DNA folds are unstable when breaks are introduced in the DNA prior to isolation of the chromosome. It is suggested that the supercoiled state of the DNA is required for the initial stabilization of some of the critical RNA/DNA interaction in the isolated nucleoid. However, some of these interactions are not affected by irradiation of the cells. Remnant supercoiling in partially relaxed chromosomes containing a limited number of DNA breaks has the same superhelical density as the unirradiated chromosome. This suggests that restraints on rotation of the packaged DNA are formed prior to the physical unwinding which occurs at the sites of the radiation induced DNA breads. - Analysis of the in vitro irradiated chromosomes shows that there are 100 +/- 30 domains of supercoiling per genome equivalent of DNA. The introduction of up to 50 double-strand breaks per nucleoid does not influence rotor speed effects of the sedimentation coefficient of the chromosome.
Studies with Human X Human (H X H), Human X Mouse (H X M), and Mouse X Mouse (M X M) hybridomas have enabled us to define specific factors that affect hybridoma growth in a species-specific manner. Three transferrins and three lipophilic iron chelates have been tested for their ability to support hybridoma proliferation and antibody production. The results of these studies demonstrate that H X H hybridomas do not respond to bovine transferrin a+ concentrations up to 100 micrograms/ml and are approximately 100-fold less responsive to mouse transferrin than to human transferrin. H X M and M X M hybridomas respond equally to human or mouse transferrin but are 100-fold less sensitive to bovine transferrin. An antibody to the human transferrin receptor inhibited the growth-promoting activity of human or mouse transferrin on H X H hybridomas but was ineffective on H X M hybridomas. This demonstrated the functionality of the human transferrin receptor in H X H hybridomas and that human, mouse, and bovine transferrin were interacting through the mouse transferrin receptor in H X M hybridomas. H X H and H X M hybridomas respond similarly to three different iron chelates exhibiting 80 to 110% of the growth response to human transferrin. M X M hybridomas fail to respond to the iron chelates at similar concentrations, suggesting that the human genome present in the other hybridoma species confers a unique ability for utilizing iron when delivered in this form.
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