TY - JOUR T1 - Genetic Identification of Novel Separase regulators in <em>Caenorhabditis elegans</em> JF - bioRxiv DO - 10.1101/191452 SP - 191452 AU - Michael Melesse AU - Dillon E. Sloan AU - Joseph T. Benthal AU - Quincey Caylor AU - Krishen Gosine AU - Xiaofei Bai AU - Joshua N. Bembenek Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/09/22/191452.abstract N2 - Separase is a highly conserved protease required for chromosome segregation. Although observations that separase also regulates membrane trafficking events have been made, it is still not clear how separase achieves this function. Here we present an extensive ENU mutagenesis suppressor screen aimed at identifying suppressors of sep-1(e2406), a temperature sensitive maternal effect embryonic lethal separase mutant. We screened nearly a million haploid genomes, and isolated sixty-eight suppressed lines. We identified fourteen independent intragenic sep-1(e2406) suppressed lines. These intragenic alleles map to seven SEP-1 residues within the N-terminus, compensating for the original mutation within the poorly conserved N-terminal domain. Interestingly, 47 of the suppressed lines have novel mutations throughout the entire coding region of the pph-5 phosphatase, indicating that this is an important regulator of separase. We also found that a mutation near the MEEVD motif of HSP-90, which binds and activates PPH-5, also rescues sep-1(e2406) mutants. Finally, we identified six potentially novel suppressor lines that fall into five complementation groups. These new alleles provide the opportunity to more exhaustively investigate the regulation and function of separase. ER -