A DNA-Damage-Induced Cell Cycle Checkpoint in Arabidopsis

A DNA-Damage-Induced Cell Cycle Checkpoint in Arabidopsis

S. B. Preuss^a and A. B. Britt^a
^a Section of Plant Biology, University of California, Davis, California 95616

Corresponding author: A. B. Britt, 1 Shields Ave., University of California, Davis, CA 95616., abbritt{at}ucdavis.edu (E-mail)

Communicating editor: R. S. HAWLEY

Although it is well established that plant seeds treated withhigh doses of gamma radiation arrest development as seedlings,the cause of this arrest is unknown. The uvh1 mutant of Arabidopsisis defective in a homolog of the human repair endonuclease XPF,and uvh1 mutants are sensitive to both the toxic effects ofUV and the cytostatic effects of gamma radiation. Here we findthat gamma irradiation of uvh1 plants specifically triggersa G₂-phase cell cycle arrest. Mutants, termed suppressor ofgamma (sog), that suppress this radiation-induced arrest andproceed through the cell cycle unimpeded were recovered in theuvh1 background; the resulting irradiated plants are geneticallyunstable. The sog mutations fall into two complementation groups.They are second-site suppressors of the uvh1 mutant's sensitivityto gamma radiation but do not affect the susceptibility of theplant to UV radiation. In addition to rendering the plants resistantto the growth inhibitory effects of gamma radiation, the sog1mutation affects the proper development of the pollen tetrad,suggesting that SOG1 might also play a role in the regulationof cell cycle progression during meiosis.

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