Abstract
Replicative DNA polymerases duplicate genomes in a very efficient and accurate mode. However their progression can be blocked by DNA lesions since they are unable to accommodate bulky damaged bases in their active site. In response to replication blockage, monoubiquitination of PCNA promotes the switch between replicative and specialized polymerases proficient to overcome the obstacle. In this study, we characterize novel connections between proteins involved in replication and TransLesion Synthesis (TLS). We demonstrate that PDIP38 (Polδ interacting protein of 38 kDa) directly interacts with the TLS polymerase Polη. Interestingly, the region of Polη interacting with PDIP38 is found to be located within the ubiquitin-binding zinc finger domain (UBZ) of Polη. We show that the depletion of PDIP38 increases the number of cells with Polη foci in the absence of DNA damage and diminishes cell survival after UV irradiation. In addition, PDIP38 is able to interact directly not only with Polη but also with the specialized polymerases Rev1 and Polζ (via Rev7). We thus suggest that PDIP38 serves as a mediator protein helping TLS Pols to transiently replace replicative polymerases at damaged sites.
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