Heavy ion mutagenesis: Linear energy transfer effects and genetic linkage |
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Authors: | A Kronenberg S Gauny K Criddle D Vannais A Ueno S Kraemer C A Waldren |
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Institution: | (1) Life Sciences Division, Lawrence Berkeley Laboratory, 1 Cyclotron Road, 94720 Berkeley, CA, USA;(2) Department of Radiological Health Sciences, Colorado State University, 80523 Fort Collins, CO, USA;(3) Present address: Chiron Corporation, Emeryville, Calif., USA |
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Abstract: | We have characterized a series of 69 independent mutants at the endogenoushprt locus of human TK6 lymphoblasts and over 200 independent S 1-deficient mutants of the humanxhamster hybrid cell line AL arising spontaneously or following low-fluence exposures to densely ionizing Fe ions (600 MeV/amu, linear energy transfer = 190 keV/µm). We find that large deletions are common. The entirehprt gene (>44 kb) was missing in 19/39 Fe-induced mutants, while only 2/30 spontaneous mutants lost the entirehprt coding sequence. When the gene of interest (S1 locus = M1C1 gene) is located on a nonessential human chromosome 11, multilocus deletions of several million base pairs are observed frequently. The S1 mutation frequency is more than 50-fold greater than the frequency ofhprt mutants in the same cells. Taken together, these results suggest that low-fluence exposures to Fe ions are often cytotoxic due to their ability to create multilocus deletions that may often include the loss of essential genes. In addition, the tumorigenic potential of these HZE heavy ions may be due to the high potential for loss of tumor suppressor genes. The relative insensitivity of thehprt locus to mutation is likely due to tight linkage to a gene that is required for viability.Invited paper presented at the International Symposium on Heavy Ion Research: Space, Radiation Protection and Therapy, Sophia-Antipolis, France, 21–24 March 1994 |
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