Biochemical and genetic characterization of 5-fluoro-2¡¬-deoxyuridine-resistant mutants of Arabidopsis thaliana

Two independently isolated 5-fluoro-2¡¬-deoxyuridine (FUdR)-resistant mutant lines of Arabidopsis thaliana (L.) Heynh., FUD-1 and FUD-2, were identified by screening M2 populations of ethylmethane-sulfonatemutagenized seeds. The resistance was found to be due to single, recessive, nuclear gene mutations. Genetic complementation tests indicated that these two mutations were in the same gene locus, which was designated fur1, and mapped to linkage group four of Arabidopsis. Enzyme assays indicated that the mutants were not defective in thymidine-kinase activity. Greatly reduced concentrations of intracellular 3 H were detected in fur1/fur1 plants compared with the wild type after incubation of wild-type and resistant plants in a medium with [ 3 H]FUdR, indicating that either reduced uptake of FUdR or enhanced efflux of FUdR metabolites was the major reason for FUdR-resistance. fur1/fur1 plants also had significantly decreased uptake of thymidine and uridine compared with the wild type but no difference was found in the uptake of adenosine, guanosine, thymine, uracil or amino acids. It is suggested that the transport system affected in the fur1/fur1 mutants is one specific to pyrimidine nucleosides. ? 1994 Springer-Verlag.