Updated FTP location. Mastl is commonly overexpressed in cancer, appearing as an alternative therapeutic anticancer target. Loss of Mastl induces multiple chromosomal mitotic errors that lead to the accumulation of micronuclei and multilobulated cells with polyploidy. Our detailed analyses display that loss of Mastl quickly lead to chromosomes breakage and abnormalities impairing correct segregation. Phosphoproteomic data of mouse embryonic fibroblasts revealed defects in kinetochores, perichromosomes, and centrosomes but also on RNA binding proteins and double strand DNA damage repair.In our study, Rad51ap1, a well-known homologous recombination regulator, appeared to be effectively phosphorylated by Nek2 and CDK1, but also efficiently depshosphorylated by PP2A/B55. Taken together, these results suggest that Mastl loss induces a multitude of alteration even in noncancerous cells that lead to the disruption of DNA damage repair triggering chromosomes breakage and in consequence, creates an accumulative disequilibrium in the phosphoproteome.