Bakanae or foolish seedling disease of rice is caused by the ascomycetous fungus Fusarium fujikuroi, of which is widespread in many rice growing areas. Current protection strategies rely on the fungicides, but this results in chemical-resistant F. fujikuroi and other undesirable environmental effects. An alternative approach involving RNAi, termed host-induced gene silencing (HIGS), of which generating siRNA molecules in plants that target to the specific mRNAs of pathogens and thereby resulted in their degradation. Calcineurin belongs to a Ca2+/calmodulin-dependent phosphatase, which is comprised of heterodimer with a catalytic (Cna1) and a regulatory (Cnb1) subunits. There have been known that calcineurin mediates Ca2+ signaling that regulates the growth, stress responses and virulence in fungal kingdom. Based on pharmacological inhibition of calcineurin in F. fujikuroi, we found that calcineurin inhibitor FK506 or cyclosporinA can strongly inhibit the growth of F. fujikuroi. We therefore aim to determine whether repressing the expression of CNA1 or CNB1 gene in F. fujikuroi by the HIGS strategy in rice can enhance resistance against bakanae disease. By using Agrobacterium-mediated gene transformation strategy, the FfCNA1-Ri and FfCNB1-Ri constructs have been introduced into rice plants, respectively, and the copy number of transgenes were analyzed by Southern blot hybridization in the transgenic lines. Based on the pathogen inoculation assay and fungal biomass quantification, results showed that the transgenic rice plants that carry the FfCNA1-Ri or FfCNB1-Ri constructs increased resistance against bakanae disease, promising its potential use in the future.