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RPA complexes in <i>Caenorhabditis elegans</i> meiosis; unique roles in replication, meiotic recombination and apoptosis

Adam Hefel, Masayoshi Honda, Nicholas M. Cronin, Kailey Harrell, Pooja Patel, Maria Spies, Sarit Smolikove

2020Nucleic Acids Research22 citationsDOIOpen Access PDF

Abstract

Replication Protein A (RPA) is a critical complex that acts in replication and promotes homologous recombination by allowing recombinase recruitment to processed DSB ends. Most organisms possess three RPA subunits (RPA1, RPA2, RPA3) that form a trimeric complex critical for viability. The Caenorhabditis elegans genome encodes RPA-1, RPA-2 and an RPA-2 paralog RPA-4. In our analysis, we determined that RPA-2 is critical for germline replication and normal repair of meiotic DSBs. Interestingly, RPA-1 but not RPA-2 is essential for somatic replication, in contrast to other organisms that require both subunits. Six different hetero- and homodimeric complexes containing permutations of RPA-1, RPA-2 and RPA-4 can be detected in whole animal extracts. Our in vivo studies indicate that RPA-1/4 dimer is less abundant in the nucleus and its formation is inhibited by RPA-2. While RPA-4 does not participate in replication or recombination, we find that RPA-4 inhibits RAD-51 filament formation and promotes apoptosis of a subset of damaged nuclei. Altogether these findings point to sub-functionalization and antagonistic roles of RPA complexes in C. elegans.

Topics & Concepts

BiologyCaenorhabditis elegansMeiosisGeneticsHomologous recombinationReplication (statistics)RecombinationCaenorhabditisCell biologyDNA replicationDNAGeneVirologyGenetics, Aging, and Longevity in Model OrganismsDNA Repair MechanismsPhotosynthetic Processes and Mechanisms