Clink, a 20-kDa protein of faba bean necrotic yellows virus, a single-stranded DNA plant virus, interacts with pRB family members and a SKP1 homologue from Medicago sativa. An LxCxE motif and an F-box of Clink mediate the interactions with the respective proteins. The capacity of Clink to bind pRB correlates with its ability to stimulate viral replication. Interaction of a single protein with the cell cycle regulator pRB and SKP1, a constituent of the ubiquitin-protein turnover pathway, appears to be a novel feature. Hence, Clink may represent a new class of viral cell cycle modulators.A common strategy of DNA viruses is the creation of an environment favorable for efficient replication of their genome by subverting the cell cycle control of the host and forcing cells into DNA synthesis or S phase. In mammalian cells, a key cell cycle regulator is the retinoblastoma tumor suppressor protein pRB, which represses onset and progression into S phase by interacting with a wide range of cell cycle-related proteins. Among those are transcription factors of the E2F family that form complexes with hypophosphorylated pRB. During the G 1 /S transition, pRB is progressively phosphorylated by the action of cyclin-dependent kinases, and as a result, E2F is released from the complex and becomes available to activate the expression of S-phase-specific genes (14, 30).Oncoproteins of certain mammalian DNA tumor viruses, such as E1A of adenovirus type 6, E7 of human papillomavirus type 16, or the large T antigen protein of simian virus 40, stimulate the entry of cells into S phase by interaction with pRB through a short protein sequence comprising essentially the sequence motif LxCxE (10,45). This interaction abrogates the pRB-mediated block of cell cycle progression and may contribute to tumor formation (24). In addition, these or other viral proteins are involved in the neutralization of additional cell cycle regulators, in particular of the growth suppressor p53 (24,39). The interaction between the papillomavirus E7 and E6 proteins with pRB and p53, respectively, mediates the degradation of the latter by the ubiquitin-proteasome pathway (8,25,44). Hence, in addition to the interaction with growth suppressors, papillomaviruses make use of the protein degradation machinery to target these proteins to the 26S proteasome.Ubiquitination of proteins destined for degradation by the 26S proteasome is mediated by the action of the enzymatic complexes E1, E2, and E3 (21). E1 and E2 activate ubiquitin and catalyze the polyubiquitination of the substrate, which is thus marked for degradation by the 26S proteasome. A diverse class of complexes, the E3 ubiquitin-ligases, contains the elements of specificity for the substrates to be ubiquitinated. The