Molecular farming has attracted extensive attention in the production of various pharmaceutical proteins. A lot of efforts have been put in developing edible vaccines by using transgenic plants to provide protection from infectious diseases. However, the success of using mushrooms as effective delivery vehicles to induce oral immunization is limited due to the difficulty in their transformation efficiency and gene expression. In comparison with conventional DNA-mediated transformation, Agrobacterium tumefaciens-mediated transformation (ATMT) appeared to be a more efficient tool which can be applied to kinds of fungal starting materials such as conidia, vegetative mycelia and fruiting body. The enoki mushroom Flammulina velutipes, which was chose as an expression host, is a popular edible mushroom in Asia. While the transformants remained stable, the low gene expression limited its practical application. In this study, I demonstrated that the heterologous gene expression can be greatly enhanced by appropriately trimming off the gpd promoters. As 114 bp and 637 bp was excised from the promoter, protein expression level would increase dramatically as much as 1000-fold. I also tried to express the human hepatitis B virus surface antigen (HBsAg) in F. velutipes. HBsAg was successfully expressed by using a full-length gpd promoter, showed the feasibility of using F. velutipes for edible vaccine development.