Coordination between karyokinesis and cytokinesis in the cell division cycle is fundamental to a precise transmission of duplicated genome into dividing daughter cells. byr4, a previously isolated essential gene, affects the mitotic cell cycle and cytokinesis in S. pombe. Phenotypic analyses of the null alleles and the overexpression of byr4 suggest that byr4 is a dosage-dependent coordinator of karyokinesis and cytokinesis (Song et al., 1996). In this study, the functional mechanisms of byr4 were investigated using a byr4 mutant that exhibits byr4 overexpression phenotypes in thiamine deficient media. Genetic suppression analyses of this byr4 mutant with other cytokinesis regulatory genes in S. pombe, cdc16, cdc7, cdc15, cdc14, and plo1, show that byr4 overexpression phenotypes are suppressed by the overexpression of cdc16 and cdc7, but not by plo1, cdc14, and cdc15. Also, the basal expression of byr4 and cdc7 suppresses the temperature-sensitive cdc16 mutation. However, the basal expression of either byr4 or cdc16 does not suppress the temperature-sensitive cdc7 mutation. The results of these suppression tests suggest that byr4 genetically interacts with cdc16 and cdc7: byr4 functions at the same level with or downstream of cdc16 and upstream of cdc7. In the present study, we also show that Byr4 interacts with Cdc16 and Spg1 in the yeast two-hybrid assays. Recent reports suggest a possible small GTPase pathway to regulate the timing of cytokinesis where Cdc16 functions as a GAP (GTPase activating protein), Spg1 as a GTPase, and Cdc7 as a downstream effector. Combined genetic and two-hybrid analyses of this study strongly suggest that Byr4 directly interacts with this possible small GTPase pathway including Cdc16, Spg1, and Cdc7 to regulate cytokinesis in S. pombe.