[No authors listed]
DNA-damage tolerance (DDT) in yeast is composed of two parallel pathways and mediated by sequential ubiquitinations of PCNA. While monoubiquitination of PCNA promotes translesion synthesis (TLS) that is dependent on polymerase ζ consisted of a catalytic subunit Rev3 and a regulatory subunit Rev7, polyubiquitination of PCNA by Mms2-Ubc13-Rad5 promotes error-free lesion bypass. Inactivation of these two pathways results in a synergistic effect on DNA-damage responses; however, this two-branch DDT model has not been reported in any multicellular organisms. In order to examine whether Arabidopsis thaliana possesses a two-branch DDT system, we created rad5a rev3 double mutant plant lines and compared them with the corresponding single mutants. Arabidopsis rad5a and rev3 mutations are indeed synergistic with respect to root growth inhibition induced by replication-blocking lesions, suggesting that AtRAD5a and AtREV3 are required for error-free and TLS branches of DDT, respectively. Unexpectedly this study reveals three modes of genetic interactions in response to different types of DNA damage, implying that plant RAD5 and REV3 are also involved in DNA damage responses independent of DDT. By comparing with yeast cells, it is apparent that plant TLS is a more frequently utilized means of lesion bypass than error-free DDT in plants.
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