In order to provide a basis for quantitative studies of murine spermatogenesis, we performed a DNA flow cytometric analysis on the mouse seminiferous tubules isolated at defined stages of the epithelial cycle by transillumination-assisted microdissection. Accurate stage identification was performed by examining spermatids in the adjacent tubule segments by phase-contrast microscopy. For flow cytometry, suspension of nuclei of spermatogenic cells was obtained by detergent treatment of isolated seminiferous tubules, and fresh samples were stained with propidium iodide. DNA histograms of the 12 stages of the mouse seminiferous epithelial cycle varied in a stage-specific manner. DNA histograms of stages I-VIII of the cycle were characterized by a hypofluorescent haploid peak, the location of which changed with the decreasing DNA dye (propidium iodide)-binding capacity of elongated spermatids. The absence of the hypohaploid peak and the high ratio of the cells with 4C amount of DNA to the cells with 1C amount of DNA characterized stages IX-XI of the cycle. Stage XII showed a high 2C peak, owing to a large population of secondary spermatocytes arisen from the first meiotic division. By using fluorescent beads as an internal volume standard cell numbers in defined stages were determined. These data provide a basis for quantitative studies of mouse spermatogenesis.