Epstein-Barr virus (EBV) is a human gamma-herpesvirus which has been demonstrated to be highly associated with many human malignancies, such as B lymphoma, T lymphoma, Hodgkin’s lymphoma and nasopharyngeal carcinoma. BMRF1 is one of the essential proteins required for EBV lytic replication, which functions to serve as a processivity factor for EBV polymerase BALF5 in stabilized DNA binding at the viral replication fork. BMRF1 also transactivates viral early promoter BHLF1 through cellular transcription factor Sp1/ZBP-89 or synergistically activates BHLF1 promoter with EBV immediately early transactivator, Zta. In order to investigate the effects of phosphorylation on BMRF1, the residues of Ser-Pro or Thr-Pro which are the BGLF4 putative phosphorylation sites on BMRF1 were mutated to Ala or Val to generate the phosphorylation-defective mutant, BMRF1(8A2V). In this study, BMRF1(8A2V) was found more resistant to BGLF4-mediated inhibition on its transactivation activity than that of wild-type BMRF1. BGLF4 inhibited the transactivation activity of BMRF1 through BMRF1 phosphorylation, but not protein degradation. The ability of BMRF1(8A2V) to transactivate BHLF1 promoter was better than that of wild-type BMRF1. The result of co-immunoprecipitation showed that the interaction between ZBP-89 and wild-type BMRF1 or BMRF1(8A2V), was reduced in the presence of BGLF4 or kinase dead, revealing that BGLF4 may disrupt the interaction between BMRF1 and ZBP-89 through phosphorylation or protein-protein interaction. To further investigate the regulatory effects of BMRF1 phosphorylation on EBV lytic replication, EBV(ΔBMRF1) knockout system was established. The EBV(ΔBMRF1) bacmid was transfected into 293TetER cells, which harbor a tetracycline inducible Rta, to generate EREVp2089ΔBMRF1 cells (abbreviated as MD2 cells). In MD2 cells, the lytic proteins could be induced by doxycycline, but the expression of late proteins, VCA and gp350/220, was significantly reduced in immunoblotting assay. Moreover, the viral DNA replication was also impaired in MD2 cells. By compensation of wild-type BMRF1 or BMRF1(8A2V) into MD2 cells, the effects of BMRF1 phosphorylation on viral lytic replication were studied. The result showed that the complementation with wild-type BMRF1 rescued the expression of viral late protein gp350/220 and the lytic DNA replication in MD2 cells. Additionally, BMRF1(8A2V) could also compensate the viral lytic replication of MD2 cells, though to a less extent. With this system, the influences of BMRF1 mutation or functional domain deletion on lytic gene expression will be systematically studied by EBV DNA microarray analysis.