The effect of caffeine on repair in Chlamydomonas reinhardtii. I. Enhancement of recombination repair.

The effect of caffeine on repair was studied in the green alga Chlamydomonas reinhardtii. Treatment of UV-irradiated wild-type (UVS+) cells with a sublethal level of caffeine caused a significant increase in survival compared to untreated UV-irradiated cells. Caffeine did not affect survival in the repair-deficient strain UVSE1, which is deficient in repair of UV-induced damage carried out by enzymes associated with recombination during meiosis. A significant increase in survival in the presence of caffeine was observed in the repair-deficient strain UVSE4 in which recombination during meiosis is not affected. Treatment of zygotes homozygous for UVS+, UVSE1, or UVSE4 with sublethal levels of caffeine caused marked increases in recombination frequency in UVS+ and UVSE4 zygotes and no increase in recombination in UVSE1 zygotes. These results indicate that caffeine increases recombination in normal strains. Increased opportunity for recombination caused by caffeine would not result in increased recombination frequency in the UVSE1 strain, assuming limited-recombination enzyme activity in this strain. The observed increase in survival following UV-irradiation in the presence of caffeine in strains having normal recombination would therefore be associated with a caffeine-induced increase in opportunities for recombination repair.