Purpose: To investigate the relationship between breast cancer susceptibility gene-1 (BRCA1) gene methylation and the radiosensitivity of breast cancer. Materials and Methods: The authors studied three breast cancer cell lines: MDA-MB-435, MDA-MB-231, and MCF-7 cells. They constructed five short hairpin RNAs (shRNAs) and five small interfering RNAs to target selected promoter loci and initiate sequence-specific methylation in breast cancer cells. Pyrosequencing was used to analyze the state of DNA methylation. Quantitative real-time polymerase chain reaction was used to detect BRCA1 mRNA expression and RNA-directed DNA methylation (RdDM)-related gene expression. Western blotting was performed to analyze BRCA1 protein expression. Colony formation assays and γ-histone H2A foci formation assays were conducted to assess the surviving fraction (SF) and double-strand break (DSB) repair ability of cells after irradiation. Results: The authors constructed five strains of lentivirus vectors and five plasmid vectors targeting BRCA1 promoter region. In MDA-MB-435 cells, lentivirus-mediated RNA interference targeting Site 1 of BRCA1 increased the methylation levels of BRCA1 and reduced BRCA1 mRNA and protein expression. The SF and the ability to repair DNA DSBs were reduced in the combined LV-BRCA1RNAi-Site 1 infection and irradiation group. Conclusions: The authors' findings suggest that the shRNA suppressed the expression levels of the BRCA1 gene and reduced the SF and DNA repair ability of cells after irradiation through RdDM. In summary, the radiosensitivity of breast cancer cells may correlate with BRCA1 methylation. Advances in Knowledge: The authors first utilized a lentivirus-based shRNA-mediated specific-sequence DNA methylation of the BRCA1 gene mediated by RdDM.