[PDF] Top 20 Specific binding of host cell proteins to the 3'-terminal stem-loop structure of rubella virus negative-strand RNA.

Specific binding of host cell proteins to the 3'-terminal stem-loop structure of rubella virus negative-strand RNA.

... Using cell lysates from uninfected and infected cells, we observed proteins cross-linked with the 3' - SL RNA of Sindbis virus RNA that were similar in molecular weight to the proteins o[r] ... See full document

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Specific Interaction of Hepatitis C Virus Protease/Helicase NS3 with the 3′-Terminal Sequences of Viral Positive- and Negative-Strand RNA

... significant binding of ⌬pNS3 (or NS3 [data not shown]) was observed ...the stem rather than just a double-stranded structure was impor- tant for interaction with ...wild-type RNA were flipped ... See full document

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Specific interaction of polypyrimidine tract-binding protein with the extreme 3'-terminal structure of the hepatitis C virus genome, the 3'X.

... positive-stranded RNA virus, the 3 9 end of the viral genome is the initiation site for the synthesis of negative-strand RNA, an intermediate product of RNA ...The ... See full document

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Host cell proteins binding to domain IV of the 5' noncoding region of poliovirus RNA.

... cellular proteins and the potential involvement of these proteins in the translation mech- ...larger RNA structure (IVa, b, and c; ...sub- structure is not necessary for translation, ... See full document

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Poliovirus-encoded 2C polypeptide specifically binds to the 3'-terminal sequences of viral negative-strand RNA.

... examined binding of other viral proteins (2A, 2B, 3CD, and 3C) to the 39-terminal cloverleaf structure of negative-strand ...nonstructural proteins tested interacted with the ... See full document

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Mechanistic Consequences of hnRNP C Binding to Both RNA Termini of Poliovirus Negative-Strand RNA Intermediates

... of RNA synthesis at the 3 ⬘ end of the negative strand ...the RNA synthesis defect observed previously in PV ⌬ 3 ⬘ NCR, where positive-strand RNA synthesis was ... See full document

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Specific binding of host cellular proteins to multiple sites within the 3' end of mouse hepatitis virus genomic RNA.

... multiple stem-loop structures in this ...secondary structure with RNA probes 3 9 ( 1 )42, 171-85, and 84-43, of which the former two are sites for host cell protein ... See full document

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Interaction between the Cellular Protein eEF1A and the 3′-Terminal Stem-Loop of West Nile Virus Genomic RNA Facilitates Viral Minus-Strand RNA Synthesis

... eEF1A binding site in a WNV infectious clone RNA had a negative effect on viral growth suggested that this viral RNA- cell protein interaction occurred in infected ...nonstructural ... See full document

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Mutation of Mapped TIA-1/TIAR Binding Sites in the 3′ Terminal Stem-Loop of West Nile Virus Minus-Strand RNA in an Infectious Clone Negatively Affects Genomic RNA Amplification

... cellular proteins TIA-1 and TIAR bound specifically to the West Nile virus 3 ⴕ minus-strand stem-loop [WNV3 ⴕ ( ⴚ )SL] RNA (37) and colocalized with flavivirus replication ... See full document

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BHK cell proteins that bind to the 3' stem-loop structure of the West Nile virus genome RNA.

... viral proteins. This may indicate that for the ma- jority of RNA viruses the initial interaction of the cellular proteins may be with the viral template RNA rather than with the viral ... See full document

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Cell proteins bind specifically to West Nile virus minus-strand 3' stem-loop RNA.

... of RNA-protein complex formation by C3H/RV and C3H/He cell ...is specific to flaviviruses and occurs at the level of genome RNA ...genome RNA replication observed in resistant cells ... See full document

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Nonhomologous RNA recombination during negative-strand synthesis of flock house virus RNA.

... Here we describe an analysis of the nucleotide sequences of the deletion junctions in FHV RNAs 1 and 2 from which we infer that both the primary sequence and the secondary structure of t[r] ... See full document

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The fate of RNA and RNA binding proteins in Sindbis virus infection

... that RNA has much broader functional and regulatory potential in the cell than ...that RNA could form a complex secondary structure which acted as a catalyst for specific biochemical ... See full document

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5' sequences of rubella virus RNA stimulate translation of chimeric RNAs and specifically interact with two host-encoded proteins.

... A 52 kD protein is a novel component of the SS-A/Ro Downloaded from http://jvi.asm.org/ on November 9, 2019 by guest Results from both in vitro and in vivo translation assays demonstrate[r] ... See full document

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Binding of a host cell nuclear protein to the stem region of human immunodeficiency virus type 1 trans-activation-responsive RNA.

... To further investigate the roles of the primary sequence and secondary structure of stem region III in host cell factor binding, we performed competition assays with wild-type TAR and th[r] ... See full document

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Efficient and Specific Initiation of Subgenomic RNA Synthesis by Cucumber Mosaic Virus Replicase In Vitro Requires an Upstream RNA Stem-Loop

... the stem, C4S-Low, which should be destabilized in the lower stem, and C4AS, which contains a completely different 8-bp stem but maintains the loop sequence of C4WT ...The stem in C4-AS ... See full document

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Phosphorylation of Rubella Virus Capsid Regulates Its RNA Binding Activity and Virus Replication

... Rubella virus is an enveloped positive-strand RNA virus of the family ...structural proteins: a capsid and two membrane-spanning glycoproteins, E2 and ...During virus ... See full document

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Structure of noncoding RNA is a determinant of function of RNA binding proteins in transcriptional regulation

... synthetic RNA oligonucleotides bind to TLS through a consensus sequence GGUG ...Upon binding of GGUG RNA oligonucleotides (GGUG RNA), inhibitory activity of TLS against the HAT activity of ... See full document

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Host Acyl Coenzyme A Binding Protein Regulates Replication Complex Assembly and Activity of a Positive-Strand RNA Virus

... integral proteins, termed p120, and subsequently activated by proteasomes, which degrade the C-terminal membrane-spanning motif and release the N-terminal activation domain from mem- ...BMV ... See full document

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Constraints of Viral RNA Synthesis on Codon Usage of Negative-Strand RNA Virus

... encapsidated RNA from the recombinant protein-RNA complex. Excess RNA and RNase A were removed via size ...respective RNA was then added in an excess of a 1:5 molar ratio (NLP to RNA), ... See full document

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