Nematode-trapping fungi are a group of nematophagous fungi that have evolved to prey on nematodes by developing complex trap structures under nutrient-poor environments; the traps can capture and kill the nematodes, providing additional nitrogen and carbons sources. We used Arthrobotrys oligospora and Caenorhabditis elegans as models to study the interactions between preys and predators. To identify genes and pathways that are required for sensing the nematodes and trap morphogenesis, we conducted a forward genetic screen in A. oligospora to isolate mutants with defects in trapping C. elegans. We generated 5552 EMS and UV mutants and identified 16 mutants with strong defects in trap morphogenesis. Whole genome sequencing and bioinformatic analyses for the 16 mutants identified the potential mutations that affect trapping ability. Preliminary data demonstrated that mutations in genes that have a role in signaling, transcription or membrane transport might affect trap morphogenesis. Targeted gene deletion mutants were generated to investigate the roles of these candidate genes during nematode-trapping process. So far, we found one unstudied gene predicted to contain a PH domain to influence trap morphogenesis. In addition to genes that conserved in other pathogenic fungi, we have also identified novel genes that are unique in nematode-trapping fungi might play important roles in their predatory behaviors.