Abstract
The 5' noncoding region of the poliovirus genome contains RNA structures important for replication and translation. Here we show that two closely related cellular poly(rC) binding proteins (PCBP1 and PCBP2) bind to the terminal cloverleaf structure and facilitate the interaction of the viral protein 3CD (the uncleaved precursor of the protease-polymerase). In addition, these cellular proteins bind to stem-loop IV of the internal ribosomal entry site. The proteins are cytoplasmic and largely associated with ribosomes; they appear to dimerize in solution and to form heterodimers when binding to stem-loop IV. Initiation of viral translation in Xenopus oocytes is strongly inhibited by co-injection of specific antibodies directed against PCBP1 or PCBP2, indicating that the poly(rC) binding proteins may facilitate this process. Furthermore, PCPB-depleted HeLa extracts translate poliovirus RNA inefficiently and the activity is partially restored by addition of recombinant PCBP proteins.
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