Abstract
Caffeine increased the availability of replication origins, and consequently the number of growing points, in the DNA of Chinese hamster V79 and human (HeLa) cells. Caffeine also prevented the inhibition of replicon initiation normally caused by X-radiation and exposure to low doses of ultraviolet light. When caffeine was removed from the medium after irradiation, replicon initiation was inhibited. Caffeine also reversed the inhibition of replicon initiation caused by novobiocin, which is not a DNA-damaging agent. Because caffeine increases the number of growing points, it also partially reversed the inhibition of total DNA synthesis induced by hydroxyurea. It is proposed that caffeine alters the conformation of intracellular chromatin in such a way that the conformation usually induced by DNA-damaging agents is prevented.
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