Insertion of telomere repeat sequence decreases plasmid DNA condensation by cobalt (III) hexaammine.

Telomere repeat sequence (TRS) DNA is found at the termini of most eukaryotic chromosomes. The sequences are highly repetitive and G-rich (e.g., [C(1-3)A/TG(1-3)]n for the yeast Saccharomyces cerevisiae) and are packaged into nonnucleosomal protein-DNA structures in vivo. We have used total intensity light scattering and electron microscopy to monitor the effects of yeast TRS inserts on in vitro DNA condensation by cobalt (III) hexaammine. Insertion of 72 bp of TRS into a 3.3-kb plasmid depresses condensation as seen by light scattering and results in a 22% decrease in condensate thickness as measured by electron microscopy. Analysis of toroidal condensate dimensions suggests that the growth stages of condensation are inhibited by the presence of a TRS insert. The depression in total light scattering intensity is greater when the plasmid is linearized with the TRS at an end (39-49%) than when linearized with the TRS in the interior (18-22%). Circular dichroism of a 95-bp fragment containing the TRS insert gives a spectrum that is intermediate between the A-form and B-form, and the anomalous condensation behavior of the TRS suggests a noncanonical DNA structure. We speculate that under conditions in which the plasmid DNA condenses, the telomeric insert assumes a helical geometry that is similar to the A-form and is incompatible with packing into the otherwise B-form lattice of the condensate interior.