ATP-dependent chromatin remodeling complexes are involved in nucleosomes sliding, eviction and/or histone variants incorporation into chromatin to facilitate several cellular and biological processes, including DNA transcription, replication and repair. The DOM/TIP60 chromatin remodeling complex of Drosophila melanogaster contains 18 subunits, including the DOMINO (DOM), an ATPase that catalyzes the ex-change of the canonical H2A with its variant (H2A.V); and TIP60, a lysine-acetyltransferase that acetylates H4, H2A and H2A.V histones. In the last decade, different experimental evidence showed that ATP-dependent chromatin remodeling factors, in addition to their role in chromatin organization, have a functional relevance in cell division. In particular, emerging studies suggested direct roles of ATP-dependent chromatin remodeling complex subunits in controlling mitosis and cytokinesis in both humans and D. melanogaster. However, little is known about their possible involvement during meiosis Meiotic chromosomes non-disjunction led to aneuploid offspring, which are often inviable/poorly viable or sterile due to gene dosage imbalance. Therefore, studying the role of DOM/TIP60 complex in D. melanogaster meiosis can provide new insights on our understanding of the molecular mechanisms underlying cell division control in gametogenesis.