Molecular characterization is considered a part of the routine work-up of chronic myeloid leukemia (CML) cases. Southern blot analysis using the universal BCR (UBCR) probe on BglII-digested DNA samples is the most commonly used technique, while employing the human 3' bcr probe (PR-1) is usually considered a complementary tool. In this study, we tried to develop a simple and economic strategy for molecular characterization of CML using the 3' probe as it has been shown to be the one capable of locating the breakpoint site. Seventy-eight cases of CML were studied. Molecular analysis was performed using the Southern blot technique. DNA was digested with Bam HI, BglII, EcoRI, and XbaI. Hybridization was performed using the human 3' bcr (PR-1) probe. BamHI and BglII could differentiate fragment 1 (F1) showing rearrangement (R) with Bam HI and germline configuration (G) with BglII; F2/3 showing R with both, and F4 showing R with BamHI and G with BglII. F2/3 cases were further divided by HindIII enzyme into F2 showing (G) and F3 showing (R). Fragment 0 showed G with both, but R with EcoRI and/or XbaI, while 3' deletion gave G with all four enzymes. Our results showed a relative incidence of 6.4% for F0, 20.5% for F1, 32.1% for F2, 19.2% for F3, 15.4% for F4, and 6.4% for 3' deletion. Sixty cases were evaluated clinically and hematologically and were followed up for disease evolution and survival. They included 32 cases in early chronic phase, 24 in late chronic phase, two in acceleration, and two in blastic crisis. No significant correlation was encountered between the breakpoint site and any of the clinical and hematological data except those patients with 3' deletion who showed a very short survival. The study emphasizes Southern blotting as the method of choice for molecular characterization of CML and offers a simple and economic strategy for diagnosis and determination of breakpoint fragment.