Background: The Epstein-Barr virus (EBV) relates to the torch virus family and is believed to have a substantial impact on mortality and perinatal events, as shown by epidemiological and viral studies. Moreover, there have been documented cases of EBV transmission occurring via the placenta. Nevertheless, the specific location of the EBV infection inside the placenta remains uncertain. Methods: The genomic sequences connected to the latent EBV gene and the levels of lytic EBV gene expression in placental chorionic villous cells are examined in this work. A total of 86 placentas from patients who had miscarriage and 54 placentas from individuals who had successful births were obtained for analysis. Results: The research employed QPCR to detect the BRLF1 (Rta) EBV lytic gene and quantify DNA burden in miscarriage patients and controls. In miscarriage patients, endpoint PCR and Sanger sequencing validated a particular region of the EBER1 EBV latent gene. BRLF1 gene presence ranged from 2.5 × 102 to 9.3 × 104 copies/mL in 75 miscarriage patients. However, a sample of 5 people with healthy deliveries showed a range of 2.0 × 102 to 2.9 × 102 copies/mL. All miscarriage samples were observed EBER1. The sequencing results indicated full sequence identity to EBV strains. Conclusion: The detection of EBV gene expression in placental tissues in Iraq is a novel finding. The examination of EBV is of utmost importance in pregnant women who are experiencing severe illness, since it has the potential to lead to mortality in both the mother and the developing fetus.
