UNIPROT:Q96FX7 - FACTA Search

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Query: UNIPROT:Q96FX7 (tRNA)
26,753 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human immunodeficiency virus 1 (HIV-1) nucleocapsid protein p15 was produced as a fusion protein with glutathione S-transferase (GST) in Escherichia coli. Rapid purification of GST::p15 in an active form by one-step glutathione-agarose chromatography was accomplished in the presence of an antioxidant. Recombinant p15 fused to GST was shown to stimulate the dimerization of viral RNA. HIV-1 reverse transcriptase-catalyzed in vitro synthesis of minus-strand cDNA from synthetic human tRNA(Lys3UUU) and natural bovine tRNA(Lys3SUU) primer molecules was enhanced by GST::p15. GST produced in E.coli revealed no effect with respect to RNA dimerization and cDNA synthesis, demonstrating that both activities reside in the p15 portion of the fusion protein.
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PMID:Recombinant HIV-1 nucleocapsid protein p15 produced as a fusion protein with glutathione S-transferase in Escherichia coli mediates dimerization and enhances reverse transcription of retroviral RNA. 128 Feb 40

The retroviral genome consists of two identical RNA molecules associated at their 5' ends by a stable structure called the dimer linkage structure. The dimer linkage structure, while maintaining the dimer state of the retroviral genome, might also be involved in packaging and reverse transcription, as well as recombination during proviral DNA synthesis. To study the dimer structure of the retroviral genome and the mechanism of dimerization, we analyzed features of the dimeric genome of reticuloendotheliosis virus (REV) type A and identified elements required for its dimerization. Here we report that the REV dimeric genome extracted from virions and infected cells, as well as that synthesized in vitro, is more resistant to heat denaturation than avian sarcoma and leukemia virus, murine leukemia virus, or human immunodeficiency virus type 1 dimeric RNA. The minimal domain required to form a stable REV RNA dimer in vitro was found to map between positions 268 and 452 (KpnI and SalI sites), thus corresponding to the E encapsidation sequence (J. E. Embretson and H. M. Temin, J. Virol. 61:2675-2683, 1987). In addition, both the 5' and 3' halves of E are necessary in cis for RNA dimerization and the extent of RNA dimerization is influenced by viral sequences flanking E. Rapid and efficient dimerization of REV RNA containing gag sequences in addition to the E sequences and annealing of replication primer tRNA(Pro) to the primer-binding site necessitate the nucleocapsid protein.
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PMID:Analytical study of avian reticuloendotheliosis virus dimeric RNA generated in vivo and in vitro. 133 19

A synthetic RNA oligonucleotide (15-mer) corresponding to the 3' end of the lysine tRNA primer was hybridized to single-stranded DNA containing the human immunodeficiency virus type 1 (HIV-1) primer-binding site and extended with a DNA polymerase. The resulting structures were used to study primer removal by the RNase H activity of HIV-1 reverse transcriptase. The initial cleavage event removes the RNA primer as a 14-mer and leaves a single ribonucleotide A residue bound to the 5' end of the DNA strand. This result explains the observation by several groups that HIV-1 circle junctions contain 4 bp that are not present in the integrated provirus instead of the predicted 3 bp. Subsequent cleavage events occur at other sites internal to the RNA molecule, and the ribonucleotide A residue on the end of the DNA strand is ultimately removed. Therefore, the biologically relevant cleavage that produces the 14-mer reflects the kinetics of the reaction as well as a specificity for nucleic acid sequence. When the RNA oligonucleotide alone was hybridized to the primer-binding site and tested as a substrate for HIV-1 RNase H, the cleavage pattern near the 3' end of the RNA was altered.
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PMID:Incomplete removal of the RNA primer for minus-strand DNA synthesis by human immunodeficiency virus type 1 reverse transcriptase. 137 87

Full-length and 5'-truncated variants of human (h) tRNA(UUULys3) were synthesized by in vitro transcription using SP6 RNA polymerase. Bovine(b) tRNA(SUULys3) was purified from calf liver. Both full-length tRNA species were shown to be biologically active in an aminoacylation assay. Gel retardation assays revealed that both full-length tRNA species, as well as a 5'-truncated h-tRNA(UUULys3) molecule containing 24 nucleotides (nt) at the 3' end (Lys24), interact with human immunodeficiency virus (HIV)-1 reverse transcriptase (RT). Competition studies with these three tRNA species demonstrate that the 3' end of h-tRNA(UUULys3) contributes to the interaction with HIV-1 RT. Escherichia coli tRNA(UUULys) and tRNA(UUCGlu2) were also able to interact with the enzyme, whereas unrelated RNA molecules such as E. coli 5S rRNA did not bind to RT. Both b-tRNA(SUULys3) and h-tRNA(UUULys3) molecules, as well as the 5'-truncated variants, could be demonstrated to prime cDNA synthesis specifically using a HIV-1 RNA template, prepared by in vitro transcription, indicating that other viral or cellular proteins are not essential for this process. E. coli tRNA(UUULys) and tRNA(UUCGlu2), although able to interact with HIV-1 RT, failed to prime retroviral transcription. Products of cDNA synthesis were characterized by polymerase chain reaction, demonstrating that at least 18 nt at the 3' ends of h-tRNA(UUULys3) and b-tRNA(SUULys3) are still present in the cDNA product, whereas the 5' ends of both primer molecules were removed by the RNase H activity of HIV-1 RT.
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PMID:Synthetic human tRNA(UUULys3) and natural bovine tRNA(UUULys3) interact with HIV-1 reverse transcriptase and serve as specific primers for retroviral cDNA synthesis. 137 59

Primer tRNA regions involved in the interactions between human immunodeficiency virus reverse transcriptase (HIV RT) and tRNA(Lys) were studied by digestion of primer with pancreatic ribonuclease in the presence or absence of HIV RT. The acceptor stem of tRNA(Lys) is not noticeably protected against nuclease action in the presence of HIV RT, while this enzyme clearly protects part of the anticodon and dihydrouridine loops of tRNA(Lys). The acceptor stem of primer tRNA was digested by RNase A only in the presence of the retroviral enzyme, suggesting a partial destabilization of this region by the HIV RT. Synthetic oligoribonucleotides, corresponding to the anticodon and the dihydrouridine loops, inhibited strongly reverse transcription, confirming the strong interaction of these tRNA regions with the enzyme.
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PMID:Preferential interaction of human immunodeficiency virus reverse transcriptase with two regions of primer tRNA(Lys) as evidenced by footprinting studies and inhibition with synthetic oligoribonucleotides. 137 51

We have examined the specificity of human immunodeficiency virus-1 (HIV-1) reverse transcriptase-associated RNase H in removing the tRNA(Lys3) (-)-strand primer in vitro using a model substrate. This substrate represents an intermediate in the reverse transcription process where the tRNA(Lys3) primer has not yet been removed after (+)-strand strong stop DNA synthesis. The substrate consists of an RNA oligonucleotide corresponding to the 3'-terminal 17 nucleotides of the tRNA(Lys3) linked to U5 DNA and annealed to single-stranded DNA containing the U5 and the primer-binding site. Upon incubation with HIV-1 reverse transcriptase p66/p51 heterodimer, the minus-strand DNA product resulting from RNase H cleavage retained the 3'-rA from the model tRNA primer. Changing the 3'-terminal AMP of the model tRNA primer from rA to dA did not alter the RNase H cleavage site. Further, the retention of AMP was not dependent on recognition of adjacent U5 sequences or the CCA terminus of the model tRNA(Lys3). The synthetic RNA primer was released as an intact species by a single endonucleolytic cleavage 5' of the rA. The cleavage patterns of Moloney murine leukemia virus and avian myoblastosis virus RNase H activities on the HIV-1 model substrate were more heterogeneous compared to HIV-1 RNase H. This specificity of HIV-1 RNase H would result in linear DNA molecules with a single rA at the U5 terminus and would provide two bases adjacent to the conserved CA dinucleotide to be cleaved away during the integration process.
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PMID:Specificity of human immunodeficiency virus-1 reverse transcriptase-associated ribonuclease H in removal of the minus-strand primer, tRNA(Lys3). 137 44

The interaction of several forms (p51, p66, and p66/p51) of recombinant human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) with a synthetic derivative of its cognate replication primer, tRNA(Lys-3), has been determined by gel-mobility shift analysis. While p66/p51 RT is proficient in tRNA binding, preparations of p66 and p51 display only weak binding at elevated protein:tRNA ratios, despite the former containing both RNA-dependent DNA polymerase and ribonuclease H (RNase H) activity. Gel permeation analysis of purified p66 RT indicate this to be predominantly monomeric, suggesting that dimerization may be a prerequisite for efficient tRNA binding. Prolonged incubation of a mixture of the 66- and 51-kDa polypeptides results in heterodimer reconstitution, restoration of tRNA binding, and recovery of appreciable levels of RNA-dependent DNA polymerase activity. Under the same conditions, both the tRNA binding and RNA-dependent DNA polymerase activities of the 66- and 51-kDa polypeptides are unaffected, suggesting that they remain in the monomeric conformation.
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PMID:Interaction of tRNA(Lys-3) with multiple forms of human immunodeficiency virus reverse transcriptase. 137 42

The precursor homodimeric p66/p66 form of human immunodeficiency virus type-1 reverse transcriptase (HIV-1 RT) possesses the DNA polymerase and RNase H activities involved in the synthesis of the double-stranded provirus DNA. Reverse transcription is initiated from tRNALys in the case of HIV-1. The present study confirmed that interactions between HIV-1 RT and tRNALys induce protein conformational changes and demonstrated that these interactions stimulate the enzymatic activities associated with the p66 subunit. Thus, the p66/p66 form of the enzyme is strongly stimulated in both DNA polymerase and RNase H activities. Preincubation of the enzyme with tRNA is an obligatory step to obtain the stimulatory effect. The affinity of template, primer, or substrate for RT p66/p66 did not change when the enzyme was preincubated with tRNALys at stimulatory concentrations; the interaction of tRNA with p66/p66 has an effect only on the maximal rate of polymerization. It is further shown that the RNase H domain of RT is much more accessible to protease attack than the DNA polymerase active site.
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PMID:Interaction of tRNALys with the p66/p66 form of HIV-1 reverse transcriptase stimulates DNA polymerase and ribonuclease H activities. 138 72

Although the reverse transcriptase (RT) of human immunodeficiency virus (HIV) uses human tRNA(3Lys) as a primer of viral genome DNA synthesis in vivo, HIV RT binds Escherichia coli glutamine tRNA and in vitro-made human lysine tRNA with nearly equivalent affinities. We show that HIV RT can use either tRNA(3Lys) or tRNA(2Gln) as a primer for DNA synthesis in vitro without the addition of any other host or viral proteins. E. coli tRNA(2Gln) can serve as a primer for HIV RT if a primer-binding site sequence complementary to the 3' end of tRNA(2Gln) is at the 3' end of the template. With this reduced template, the specificity of binding the proper tRNA is due to base-pairing between a bound tRNA to the primer-binding site of the viral RNA template rather than sequence-specific recognition of tRNA(3Lys) by RT. If an 8-nucleotide viral sequence 3' to the primer-binding site is included in the template, then addition of Zn2+ or Co2+ is required for tRNA(3Lys)-primed synthesis, and tRNA(2Gln) now fails to prime synthesis. The latter result implies that a template sequence adjacent to the primer-binding site and containing 6 nucleotides complementary to the anticodon loop of human tRNA(3Lys) plays an active role in tRNA discrimination.
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PMID:Reverse transcriptase of human immunodeficiency virus can use either human tRNA(3Lys) or Escherichia coli tRNA(2Gln) as a primer in an in vitro primer-utilization assay. 138 59

Overexpression of sequences corresponding to the major Rev-binding site in the Rev response element of human immunodeficiency virus type 1 (HIV-1) (RRE decoys) was used to render cells resistant to HIV-1 replication. This was accomplished by the use of a chimeric tRNA-RRE transcription unit in a double-copy murine retroviral vector to express high levels of HIV-1 RRE-containing transcripts in CEM SS cells. Replication of HIV-1 was inhibited more than 90% in cells expressing chimeric tRNA-RRE transcripts, as determined by in situ immunofluorescence analysis and a p24 antigen ELISA test. Analysis of RNA from HIV-1-infected cells suggests that expression of RRE-containing sequences in CEM SS cells inhibits HIV-1 replication by interfering with Rev function, presumably by competing for Rev binding to its physiological target. The use of a subfragment of RRE as decoy RNA reduces the likelihood that essential cellular factors will be sequestered in cells expressing the decoy RNA. Thus, use of RRE-based decoy RNA to inhibit HIV-1 replication may represent a safer alternative to the use of TAR decoy RNA.
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PMID:Overexpression of RRE-derived sequences inhibits HIV-1 replication in CEM cells. 153 32

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