Giardia lamblia is one of the most important protozoan parasites causing intestinal infections in humans. It differentiates into infective cysts for disease transmission. G. lamblia cysts can survive in hostile environments, such as fresh water and gastric acid, during infection as they have a protective wall composed of proteins and polysaccharides. Three known cyst wall proteins (CWPs) are highly synthesized in a concerted manner during differentiation into cysts (encystation). However, little is known of their gene regulation. During encystation, a trophozoite may differentiate into a cyst by dividing 2 nuclei and by replicating DNA, generating a cyst with 4 nuclei. The maintenance of genome stability and to resolve the topological problems of DNA might be a great event in G. lamblia encystation. DNA topoisomerases solve all the topological problems such as replication, chromosome segregation, transcription, recombination, and DNA repair. A putative topoisomerase IIIβ (gTOP3β) gene has been identified in the G. lamblia genome. Analysis of the 5’-flanking region of the gTOP3β gene, we found that a binding site of the encystation-induced transcription factor, Myb2, is present in the gTOP3β promoter region. This indicates that gTOP3β might play a role in G. lamblia encystation. To understand whether gTOP3β is involved in Giardia encystation or not, we used quantitative RT-PCR and Western blots to detect the gTOP3β RNA and protein in G. lamblia cells. Data show that gTOP3β gene expression was up-regulated during the encystation stage. Immunofluorescence assay revealed that it was localized to nuclear envelope. Electrophoretic mobility shift assay and DNA cleavage assay indicate that, like other type IA topoisomerases, gTOP3β is able to bind to the cwp1-3 promoters and to cleave the single-stranded DNA. This suggests the gTOP3β might be involved in transcriptional activation of encystation genes in G. lamblia. To confirm this hypothesis we performed the overexpression and mutation analysis in a stable transfection system. We found that overexpression of gTOP3β induced the expression of cwp1–3 and myb2 genes, and cyst formation. Mutation analysis revealed that the catalytic important Tyr residue, the topoisomerase domain and the C-terminal zinc ribbon domain are important for gTOP3β function. We also performed co-immunoprecipitation assay found that the gTOP3β can interact with encystation-induced transcription activators, Myb2 and WRKY. Taken together, this study suggests that gTOP3β plays an important role in induction of the cwp genes, which are key to Giardia differentiation into cysts.