Three hybrid strains, each started with a cross between one Drosophila albomicans female and one D. nasuta male, were used as a resource to study evolutionary changes on a non-recombining chromosome because they contained a fixed Y-like chromosome. Sexually antagonistic alleles and recessive deleterious alleles on this non-recombining Y-like chromosome can be revealed by proper cross schemes. Old (ca. 280 generations) Y-like chromosomes did show an increased accumulation of recessive deleterious alleles comparing to new (ca. 20 generations) ones. Only one new Y-like chromosome showed sexually antagonistic effect on both female viability and male fertility, but none was found in old ones. We proposed that the accumulation of sexually antagonistic alleles may occur on a Y-like chromosome at an early stage after the cease of recombination, but not at a later stage because the accumulation of recessive deleterious alleles is much more overwhelming. Furthermore, two forms of coadaptation between sex chromosomes, the interaction between a meiotic driver and its suppressor, and dependence of a Y-like chromosome on its homologue, were also probable reasons why sexual antagonism was not observed on old Y-like chromosomes.