The retinoblastoma (RB) tumor suppressor protein controls cell cycle progression by regulating the activity of the transcription factor E2F, which in turn activates genes essential for DNA replication. Thus, factors that bind and regulate RB activity provide for valuable targets for preventing tumorigenesis. The enzyme, RB binding protein 9 (RBBP9), is widely expressed in a number of different tissues and is upregulated in certain tumors. As a result, the identification of compounds that selectively inhibit RBBP9 activity would serve as potentially valuable probes for the study of apoptosis, cell cycle, and tumorigenesis. The probe ML081 (CID- 6603320; emetine hydrochloride) represents the first non-covalent, selective RBBP9 inhibitor, and will be useful for exploring the enzymatic functions of RBBP9 in biological systems. Moreover, the tight structure-activity relationship of the emetine-RBBP9 interaction suggests that only minor modifications to the emetine structure will improve its activity. As a result, future studies will involve semi-synthetic addition of small moieties to the emetine and cephaeline scaffolds.