WRKY homologues constitute a large family of DNA-binding proteins in plants that may be needed for a variety of key cellular functions including disease-resistance, stress response, and development. A putative wrky gene has been identified in Giardia lamblia genome. After analysis of the amino acid sequence of WRKY protein, we found that it has two WRKY domains and belongs to group I WRKY protein. We also found that wrky mRNA levels increased slightly during encystation. The HA-tagged WRKY localized in the two nuclei and cytosol at vegetative stage, but it only localized to the two nuclei during encystation . Recombinant WRKY specifically bound to its own promoter and the ER stress response marker bip gene promoter. Mutation analysis revealed that an g/aGTCAg/a was required for binding of WRKY to these promoters. The antisense sequence of the WRKY binding site is similar to the sequence of plant WRKY binding sites, c/tTGACc/t, on the coding strand. We searched the 200-bp 5’-flanking regions of 38 Giardia gene, and found that 13 genes contain the WRKY binding site, including cyst wall protein 2 gene. We found that WRKY protein can bind to the cwp2 promoter, and that overexpression of WRKY protein resulted in an increase of the cwp2 mRNA level. Our results suggest that WRKY may be an important transcriptional activator for cwp2 gene. Using mutated plasmids and transfection assays, we demonstrated that one of the WRKY binding sites is a positive cis-acting element of its own gene promoter and bip gene promoter in both vegetative and encysting cells. In addition, we found that an ER stress inducer DTT increased both the mRNA levels and promoter activity of the wrky gene. Similar to the results obtained by other lab member, I also found that DTT increased the bip promoter activity. Interestingly, addition of DTT resulted in a change of location of WRKY protein from cytosol to nuclei. Our results suggest that WRKY may be a transcriptional activator for bip gene expression. We also found that WRKY protein can bind to the aTTCAa sequence of the cyclin b gene promoter and this target sequence is similar to the known WRKY binding sequence (g/aGTCAg/a). Overexpression of WRKY protein resulted in an increase of cyclin b gene mRNA, suggesting that WRKY protein may be a transcription activator for cyclin b gene. Our results suggest that WRKY may be an important transcriptional activator and that it may participate in transcriptional regulation of many Giardia genes.