Trichomonas vaginlais that spreads among the humans causes the most widespread nonviral sexually transmitted disease, trichomoniasis. This protozoan parasite harbors numerous Myb transcription factors, among which Myb2 and Myb3 were demonstrated to co-regulate transcription of an iron-inducible virulence gene, ap 65-1. In this study, underlying mechanisms of iron- and hydrogen peroxide-inducible nuclear import of Myb2 and Myb3 were investigated by the inhibitor and activator assays, with results indicating that iron may trigger trimeric G- and Ras- protein- related signaling pathways leading to Myb3 nuclear import, while hydrogen peroxide induces both Myb2 and Myb3 nuclear import via distinct mechanisms. Possible cis-acting and posttranslational modification sites on iron-inducible nuclear translocation of Myb3 were also investigated by depletion mapping and site-directed mutagenesis. The results suggest that the sequence spanning amino acid residues 48-167 is essential for Myb3 nuclear translocation, and inducible nuclear import of Myb3 may be co-regulated by multiple sites. Information generated from this study may provide a preliminary map for further understanding of iron-triggered signal transduction in this important human pathogen.