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1.
Poliovirus-specific RNA-dependent RNA polymerase (replicase, 3Dpol) was purified from HeLa cells infected with poliovirus. The purified enzyme preparation contained two proteins of apparent molecular weights 63,000 and 35,000. The 63,000-Mr polypeptide was virus-specific RNA-dependent RNA polymerase, and the 35,000-Mr polypeptide was of host origin. Both polypeptides copurified through five column chromatographic steps. The purified enzyme preparation catalyzed synthesis of covalently linked dimeric RNA products from a poliovirion RNA template. This reaction was absolutely dependent on added oligo(U) primer, and the dimeric product appeared to be made of both plus- and minus-strand RNA molecules. Experiments with 5' [32P]oligo(U) primer and all four unlabeled nucleotides suggest that the viral replicase elongates the primer, copying the poliovirion RNA template (plus strand), and the newly synthesized minus strand snaps back on itself to generate a template-primer structure which is elongated by the replicase to form covalently linked dimeric RNA molecules. Kinetic studies showed that a partially purified preparation of poliovirus replicase contains a nuclease which can cleave the covalently linked dimeric RNA molecules, generating template-length RNA products.  相似文献   

2.
M H Baron  D Baltimore 《Cell》1982,30(3):745-752
Anti-VPg antibodies inhibited host-factor-dependent RNA synthesis by the poliovirus replicase but not oligo(U)-primed synthesis, implicating VPg in the de novo initiation of replicase products. Complexes of VPg-related polypeptide and newly made RNA could be immunoprecipitated by anti-VPg antibody from the host-factor-stimulated products of the replicase reaction. The complexes appeared to be covalently linked and involved 50 to 150 nucleotide chains of RNA that were RNAase-T1-resistant and could be largely poly(U).  相似文献   

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The size of the product RNA synthesized by the poliovirus RNA polymerase and host factor was significantly affected by the type of column chromatography used to purify the polymerase. Dimer length product RNA was synthesized by the polymerase purified by chromatography on hydroxylapatite. This contrasted with the monomer length product RNA synthesized by the polymerase purified by chromatography on poly(U) Sepharose. The poly(U) Sepharose-purified polymerase was shown to contain oligo(U) that functioned as a primer. The addition of host factor to reactions containing the poly(U) Sepharose-purified polymerase significantly increased the synthesis of monomer length product RNA, in agreement with previous studies. This product RNA, however, did not immunoprecipitate with anti-VPg antibody and thus was not linked to VPg or a VPg-related protein. Thus, it was concluded that the synthesis of monomer length product RNA by the poly(U) Sepharose-purified polymerase and host factor was caused by oligo(U) priming rather than VPg priming.  相似文献   

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A synthetic nonapeptide corresponding to the N-terminal sequence of poliovirus genome-linked protein (VPg) was linked to bovine serum albumin and used to raise antibodies in rabbits. The antipeptide antibodies specifically precipitated the nonapeptide, native VPg, and VPg-linked poliovirion RNA. The antipeptide antibodies inhibited host factor-stimulated, poliovirus replicase-catalyzed in vitro synthesis of full-length (35S) RNA in response to virion RNA. Oligouridylic acid-stimulated RNA synthesis was not affected by the antipeptide antibodies. Preincubation of the antibodies with excess nonapeptide reversed the antipeptide antibody-mediated inhibition of host factor-stimulated RNA synthesis by the poliovirus replicase. A role for VPg in the in vitro replication of poliovirus RNA genome is discussed.  相似文献   

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Antibody to the poliovirus genome-linked protein, VPg, specifically immunoprecipitated the product RNA synthesized in vitro by the poliovirus RNA polymerase and HeLa cell host factor when VPg-linked poliovirion RNA was used as a template. The largest product RNA that was immunoprecipitated was twice the size of the template RNA. The complete denaturation of the product RNA with CH3HgOH had no effect on the immunoprecipitation reaction. In contrast, CH3HgOH denaturation prevented the immunoprecipitation of the oligo(U)-primed product RNA. Immunoprecipitation of the product RNA synthesized in the host-factor-dependent reaction was prevented if VPg was removed from the template RNA by pretreatment with proteinase K or if an RNA template without VPg was used in the reaction. The results support our previous evidence that a covalent linkage exists between the labeled negative-strand product RNA and the VPg-linked template RNA and suggest that the purified polymerase and host factor initiated RNA synthesis in vitro in the absence of VPg or a VPg-precursor protein.  相似文献   

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A soluble RNA-dependent RNA polymerase was purified from the cytoplasm of poliovirus-infected HeLa cells. A single virus-specific protein designated as p63 (or NCVP4) copurified with this activity. The purified polymerase was free of ribonuclease activity and was shown to copy poliovirion RNA when oligo(U) was added to the in vitro reaction mixture. Characterization of the product RNA by electrophoresis in methylmercury (II) hydroxide-agarose gels showed that genome-sized copies of poliovirion RNA were synthesized in vitro by the purified polymerase. The product RNA was shown to be heteropolymeric, complementary to virion RNA, and covalently linked to oligo(U). The product RNA contained the expected distribution of UMP and GMP containing dinucleotide pairs which included a very low frequency of CpG pairs. The amount, size distribution, and rate of synthesis of product RNA was very dependent on the in vitro reaction conditions. Full sized product RNA was synthesized in about 6 min when reaction conditions were used that yielded maximum elongation rates (pH 8.0, 7 mM Mg2+, 37 degrees C). Under these conditions, most of the product RNA recovered from a 1-h reaction was full sized. Thus, the polymerase was found to specifically initiate synthesis at the 3'-end of the template using an oligo(U) primer and to carry out an elongation reaction at about 1250 nucleotides/min that resulted in the synthesis of full sized product RNA.  相似文献   

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A host cell protein required for poliovirus RNA-dependent RNA replicase activity in vitro has been purified several thousand-fold from an uninfected HeLa cell postmitochondrial supernatant. A single protein of apparent Mr = approximately 67,000 daltons and pI 6.3 is associated with this "host factor" activity. Poly(U)-Sepharose chromatography of the template-dependent replicase isolated from poliovirus-infected cells results in the complete loss of replicase activity if a salt gradient is used to develop the column. Host factor elutes early in the salt gradient and restores replicase activity to protein fractions eluted later in the gradient. The host factor, estimated to be present at 50,000-100,000 copies/cell, interacts physically with replicase.  相似文献   

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Poliovirus replicase- and host factor-catalyzed copying of 3'-terminal polyadenylic acid [poly(A)] of poliovirion RNA was studied. Host factor-stimulated synthesis of polyuridylic acid [poly(U)] by the replicase required ATP in addition to UTP. ATP was not required for the oligouridylic acid-primed copying of 3'-terminal poly(A) of virion RNA. GTP, CTP, and AMP-PCP (5'-adenylyl beta-gamma methylenediphosphate, an ATP analog) could not replace ATP in host factor-stimulated synthesis of poly(U). Antibodies to poliovirus genome-linked protein (VPg) specifically precipitated in vitro-synthesized poly(U) from a host factor-stimulated reaction. The poly(U) synthesized in a host factor-stimulated reaction was shown to be attached to VPg precursor polypeptide(s) via a tyrosine-phosphate bond as found in poliovirion VPg-RNA.  相似文献   

14.
C D Morrow  G F Gibbons  A Dasgupta 《Cell》1985,40(4):913-921
The HeLa cell protein (host factor) required for in vitro replication of poliovirus has been identified as a 67,000 dalton phosphoprotein. The purified protein displays three activities in vitro: stimulation of poliovirus RNA synthesis in the presence of poliovirus replicase, apparent self-phosphorylation, and phosphorylation of the alpha-subunit of eukaryotic protein synthesis initiation factor 2 (eIF-2). All three activities can be removed or inhibited by an antibody to host factor. Partially purified preparations of reticulocyte eIF-2 contain a similar phosphoprotein and display host factor activity in the viral RNA synthesis assay in vitro. In vitro phosphorylation of the 67 kd protein can be stimulated by low concentrations of double-stranded RNA. Addition of phosphorylated host factor in an in vitro RNA synthesis assay significantly changes the kinetics of viral RNA synthesis, indicating that protein phosphorylation may play an important role in viral RNA replication.  相似文献   

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Among the homopolymers examined, poly(A) was found to inhibit preferentially the synthesis of the minus strand by bacteriophage Qbeta RNA replicase in the presence of host factor. A specific interaction of poly(A) with the host factor is suggested to be a principal cause for the observed preferential inhibition by poly(A) of the host-factor-requiring Qbeta RNA replicase reaction.  相似文献   

16.
The primary sequence of a 5'-terminal fragment of poliovirus type 1 RNA, generated by digestion with RNase III, has been determined. This sequence reveals the presence of a stable hairpin structure beginning nine nucleotides from the terminally linked protein VPg. The sequence does not contain (i) the initiation codons AUG or GUG or (ii) the putative ribosome-binding sequence complementary to the 3' end of eucaryotic ribosomal 18S RNA. The stem-and-loop structure identified can be drawn in either plus or minus RNA strands. It is unclear to which strand functional significance (if any) can be assigned. It is possible that the hairpin structure is involved in ribosomal recognition and translation or in RNA synthesis by interacting with replicase molecules.  相似文献   

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The synthesis of 3' subgenomic RNA4 (sgRNA4) by initiation from an internal sg promoter in the RNA3 segment was first described for Brome mosaic bromovirus (BMV), a model tripartite positive-sense RNA virus (W. A. Miller, T. W. Dreher, and T. C. Hall, Nature 313:68-70, 1985). In this work, we describe a novel 5' sgRNA of BMV (sgRNA3a) that we propose arises by premature internal termination and that encapsidates in BMV virions. Cloning and sequencing revealed that, unlike any other BMV RNA segment, sgRNA3a carries a 3' oligo(A) tail, in which respect it resembles cellular mRNAs. Indeed, both the accumulation of sgRNA3a in polysomes and the synthesis of movement protein 3a in in vitro systems suggest active functions of sgRNA3a during protein synthesis. Moreover, when copied in the BMV replicase in vitro reaction, the minus-strand RNA3 template generated the sgRNA3a product, likely by premature termination at the minus-strand oligo(U) tract. Deletion of the oligo(A) tract in BMV RNA3 inhibited synthesis of sgRNA3a during infection. We propose a model in which the synthesis of RNA3 is terminated prematurely near the sg promoter. The discovery of 5' sgRNA3a sheds new light on strategies viruses can use to separate replication from the translation functions of their genomic RNAs.  相似文献   

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The poliovirus RNA-dependent RNA polymerase required an oligouridylate primer or a HeLa cell protein (host factor) to initiate RNA synthesis on poliovirion RNA in vitro. The polymerase synthesized template-sized product RNA in the oligouridylate-primed reaction. In the host factor-dependent reaction, the largest product RNA synthesized by the polymerase was twice the size of the template RNA. About half of the product RNA recovered from this reaction was shown to exist in the form of a snapback sequence. Time-course reactions and pulse-chase experiments showed that the product RNA was only slightly larger than the template RNA at early reaction times and that with time it increased in size to form the dimer-sized product RNA. Inhibition of the elongation reaction by adding only [alpha-32P]UTP and ATP resulted in the formation of template-sized product RNA. The dimer-sized product RNA was unaffected by phenol extraction or proteinase K treatment but was converted to template-sized molecules by S1 nuclease. Dimer-sized poliovirus RNA that was sensitive to S1 nuclease was also isolated from poliovirus-infected cells. The results from this study indicate that the labeled negative-strand product RNA synthesized in vitro was covalently linked to the positive-strand template RNA. Thus, in vitro, the primer-dependent poliovirus RNA polymerase may initiate RNA synthesis in the presence of the host factor by using the 3' end of the template RNA as a primer.  相似文献   

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