Abstract
The DNA unwinding method was used to estimate DNA breakage in Chinese hamster cells exposed to heavy ions with LET in the range of 750-5000 keV/micron. Comparison of the primary induced unwinding rate per dose unit for ions with various track diameters but similar LET showed a pronounced influence on the track diameter. Low-energy ions, producing thin tracks with diameters (penumbra) in the submicrometer region, were almost two orders of magnitude less efficient than more energetic ions producing tracks with diameters of several micrometers and about three orders of magnitude less efficient than X-rays. For the thin tracks, clustering of breaks was indicated by comparison of the DNA unwinding rates in two different alkaline solutions. The results indicate that the unwinding rate cannot be used as a good measurement for DNA breaks in this case. The residual unwinding remaining after 4 h of repair at 37 degrees C correlated well with the ability of the various ions to produce cell-killing.
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