The regulation of chromosome separation during the mitotic phase is essential to ensure genome stability. Mitosis is controlled by complex regulation network, including proper nutritional and metabolic status to ensure smooth cell cycle transition. Interestingly, our genetic screening identified that an energy producing cofactor, flavin mononucleotide (FMN) has an important function in regulating mitosis in budding yeast. The Mitotic Exit Network (MEN) is a signaling pathway known to drive cells out of mitosis and to promote the faithful division of cells. We found that FMN1, encoding a Riboflavin kinase, confers a genetic interaction with LTE1, coding for a positive regulator of MEN. In addition, FMN1 displayed negative interactions with CLA4 and CDC15, both of which are involved in the regulation of MEN. Furthermore, the growth defect of lte1Δ fmn1Δ could be rescued by the deletion of BUB2, which is a negative regulator to the MEN activity. The growth defect of fmn1Δ could be rescued by the deletion of RAS2, which inhibits the function of anaphase promoting complex (APC), indicating that the Fmn1 may play a role in regulating APC. Furthermore, the fmn1Δ mutants exhibited anaphase entry delay, chromosome segregation error and abnormally accumulation of mitotic cyclin, Clb2. Taken together, ablation of FMN1 leads to defects in metaphase-anaphase transition. Thus, FMN1 may play a role in regulating mitosis.