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)

The ability of human immunodeficiency virus-1 (HIV-1) to undergo efficient reverse transcription is dependent on a number of parameters. These include the binding of the tRNA(3)(Lys) to the HIV-1 primer binding site and the subsequent interaction with the heterodimeric reverse transcriptase. Recently, we demonstrated that TAR RNA was also necessary for efficient HIV-1 reverse transcription. Given the fact that the Tat protein is involved in the activation of HIV-1 gene expression in conjunction with TAR, we wished to determine whether Tat might also be involved in the control of HIV-1 reverse transcription. HIV-1 virions deleted in the tat gene were unable to initiate reverse transcription efficiently upon infection of peripheral blood mononuclear cells (PBMCs). This defect was not due to decreased amounts of genomic RNA, reverse transcriptase or other HIV-1 proteins which were incorporated into the virion. Following transfection of wild-type but not mutant tat genes into cell lines producing HIV-1 lacking tat, the virions produced could be complemented for defects in reverse transcription upon subsequent infection of PBMCs. In contrast, the defect in reverse transcription seen with HIV-1 lacking the tat gene could not be complemented when the target cells rather than the producer cells contained tat. Viruses lacking tat were also defective in endogenous assays of reverse transcription, although these viruses contained similar levels of reverse transcriptase. These results indicate that the Tat protein, in addition to regulating the level of gene expression, is also important for efficient HIV-1 reverse transcription.
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PMID:Tat is required for efficient HIV-1 reverse transcription. 913 39

COS-7 cells were transfected with DNAs containing mutations in the NCp7 sequences of human immunodeficiency virus. Selective incorporation into the virus of tRNA(Lys) was measured by two-dimensional polyacrylamide gel electrophoresis, and Pr160(gag-pol) incorporation into the virus was detected in Western blots of viral protein. Mutations tested included cysteine and histidine mutations in either of the Cys-His boxes, as well as mutations in the N- and C-terminal flanking regions and in the linker region between the two Cys-His boxes. Of 10 mutations tested, only 2 inhibited tRNA(Lys) incorporation: a P31L mutation in the linker region and a deletion which removed both Cys-His boxes and the linker region (deltaK14-T50). The P31L mutation prevents the incorporation of Pr160(gag-pol) into the virus. Cotransfection of COS cells with both P31L DNA and a plasmid coding only for unprocessed Pr160(gag-pol) resulted in the viral incorporation of Pr160(gag-pol) and the rescue of selective packaging of tRNA(Lys) into the virion. In the deltaK14-T50 mutant, Pr160(gag-pol) is incorporated into the virus. Selective tRNA(Lys) packaging is not rescued by cotransfection with a plasmid coding for Pr160(gag-pol) but is rescued by cotransfection with DNA coding for wild-type Pr55(gag). Since Pr55(gag) does not by itself selectively package tRNA(Lys), the deltaK14-T50 mutation may be affecting tRNA(Lys) binding to a cytoplasmic Pr55(gag)/Pr160(gag-pol) complex.
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PMID:Effect of mutations in the nucleocapsid protein (NCp7) upon Pr160(gag-pol) and tRNA(Lys) incorporation into human immunodeficiency virus type 1. 915 27

Cellular tRNALys-3 serves as the primer for reverse transcription of human immunodeficiency virus, type 1 (HIV-1). tRNALys-3 interacts directly with HIV-1 reverse transcriptase, is packaged into viral particles and anneals to the primer-binding site (PBS) of the HIV-1 genome to initiate reverse transcription. Therefore, the priming step of reverse transcription is a potential target for antiviral strategies. We have developed a mutant tRNALys-3 derivative with mutations in the PBS-binding region such that priming specificity was re-directed to the highly conserved TAR stem-loop region. This mutant tRNA retains high-affinity binding to HIV-1 reverse transcriptase, viral encapsidation, and is able to prime at both the targeted TAR sequence and at the viral PBS. Constitutive expression of mutant tRNA in T-cells results in marked inhibition of HIV-1 replication, as determined by measurements of viral infectivity, syncytium formation, and p24 production. Inhibition of retroviral replication through interference with the normal process of priming constitutes a new anti-retroviral approach and also provides a novel tool for dissecting molecular aspects of priming.
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PMID:Inhibition of HIV-1 replication using a mutated tRNALys-3 primer. 916 9

In this study we mapped the RNA-binding domain of human ribosomal protein L7 and characterized its conformation-dependent RNA-binding specificity. Binding competition assays demonstrated preferential binding of L7 to mRNAs and rRNA, but not to tRNA. The ribohomopolymer poly(G) is bound with high affinity whereas poly(U), poly(C), or poly(A) show low affinity to L7. Furthermore, L7 binds to double-stranded but not to single-stranded DNA. Deletion mapping showed that the RNA-binding domain of L7 is represented by an arginine-rich and lysine-rich oligopeptide (ELKIKRLRKKFAQKMLRKARRK), which is reminiscent of the arginine-rich motif (ARM) found in one family of RNA-binding proteins. The isolated RNA-binding domain is capable of high-affinity binding to the Rev-responsive element (RRE) of human immunodeficiency virus type 1 in vitro. Circular dichroic studies demonstrated a concentration-dependent and ligand-induced alpha-helical transition of a synthetic peptide carrying the arginine-lysine-rich RNA-binding domain of protein L7. Peptides carrying a mutation that destroys the alpha-helical conformation do not bind RNA.
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PMID:Human ribosomal protein L7 binds RNA with an alpha-helical arginine-rich and lysine-rich domain. 918 89

Reverse transcription of retroviruses is initiated from an 18-nucleotide (nt) primer binding site (PBS), located within the 5' region of viral genomic RNA, to which the host cell-derived tRNA primer is annealed and also involves viral genomic sequences outside the PBS. We constructed proviral DNA clones of human immunodeficiency virus (HIV) that had selective deletions of either a 7-nt segment found immediately downstream of the PBS or an extended nontranslated 54-nt stretch located immediately downstream of the PBS and containing the aforementioned 7-nt segment. Synthesis of minus-strand strong-stop DNA was assessed with MT-4 cells infected with viruses derived from COS-7 cells that had been transfected with these various constructs. We found that similar levels of minus-strand strong-stop DNA as well as DNA produced after template switching were expressed in MT-4 cells infected with COS-7-derived wild-type viruses or with viruses that had the 7-nt segment deleted. In contrast, significantly lower levels of viral DNA were detected in MT-4 cells after infection with viruses that had deletions of the 54-nt stretch. Furthermore, the molecular clone containing the 7-nt deletion was able to replicate with wild-type kinetics, while that containing the 54-nt deletion displayed a significantly diminished capacity in this regard. Further deletion analysis showed that a 16-nt segment at the 3' end of this 54-nt segment was largely responsible for these effects. We also conducted studies to determine levels of viral mRNA in COS-7 cells that had been transfected with equivalent amounts of DNA derived from either a wild-type HIV construct or our various deletion mutants. In the case of transfections performed with the 7-nt deletion mutant and wild-type HIV DNA, high levels of viral mRNA transcripts were detected, which was not the case for the 54 nt-deletion mutant. However, these various mRNAs possessed similar stabilities, as shown through studies in which transcript formation was arrested by treatment of cells with actinomycin D. Thus, the 54-nt segment of 5' nontranslated RNA, located downstream of the PBS, is involved in efficient expression of each of viral DNA, mRNA, and infectious virus.
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PMID:Identification of sequences downstream of the primer binding site that are important for efficient replication of human immunodeficiency virus type 1. 922 91

Sequence analysis of integrated proviruses of human immunodeficiency virus type 1 (HIV-1) which utilize tRNA(His) to initiate reverse transcription [virus derived from pHXB2(His-AC-TGT)] revealed five additional nucleotide substitutions in the U5 and primer binding site (PBS) regions (ATGAC for CCTGT at nucleotides 152, 160, 174, 181, and 200, respectively) (Z. Zhang et al., Virology 226:306-317, 1996). We constructed a mutant proviral genome [pHXB2(His-AC-GAC)] which contained the ATGAC substitutions to test if they represented a necessary adaptation by the virus for use of tRNA(His) to initiate reverse transcription. Viruses from pHXB2(His-AC-TGT) and pHXB2(His-AC-GAC) were infectious. Sequence analysis of the U5 and PBS regions of integrated provirus from a cell culture infected with virus derived from pHXB2(His-AC-TGT) revealed a G-to-A change in CCTGT at nucleotide 181 after limited in vitro culture, suggesting that this nucleotide change represented an adaptation by the virus to efficiently utilize tRNA(His) to initiate reverse transcription. To further address this possibility, we used a specific mutation in reverse transcriptase (RT), a methionine-to-valine change in the highly conserved YMDD amino acid motif of HIV-1 RT (M184V), which has been shown in previous studies to influence the fidelity and activity of the enzyme. The M184V RT mutation was cloned into pHXB2(His-AC-GAC) and pHXB2(His-AC-TGT). Virus derived from pHXB2(His-AC-GAC) with M184V RT had slightly delayed replication compared to the virus from pHXB2(His-AC-GAC) with wild-type RT; in contrast, virus from pHXB2(His-AC-TGT) with M184V RT was severely compromised in replication. Using an endogenous reverse transcription-PCR assay to analyze the reverse transcription of viruses obtained after transfection, we found that viruses derived from pHXB2(His-AC-GAC) with the wildtype RT were slightly faster in the initiation of reverse transcription than viruses with M184V RT. The initiation of reverse transcription was delayed in viruses derived from pHXB2(His-AC-TGT) with wild-type RT and M184V RT compared to viruses derived from pHXB2(His-AC-GAC). Finally, sequence analysis of U5 and PBS regions of proviruses from pHXB2(His-AC-GAC) with wild-type RT revealed considerably more nucleotide substitutions than in viruses derived from pHXB2(His-AC-GAC) containing the M184V mutation in RT after extended in vitro culture. Our studies point to a role for these additional nucleotide substitutions in U5 as an adaptation by the virus to utilize an alternative tRNA to initiate reverse transcription.
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PMID:Nucleotide substitutions within U5 are critical for efficient reverse transcription of human immunodeficiency virus type 1 with a primer binding site complementary to tRNA(His). 926 48

The nucleocapsid protein NCp7 of the human immunodeficiency virus (HIV) type 1 is important for the annealing of HIV RNA and tRNA3Lys, the tRNA acting as a primer during reverse transcription of HIV RNA. A wild type NCp7 and a Cys23 mutant having a disrupted zinc finger were analyzed with far UV circular dichroism (CD). CD data analysis revealed that NCp7 has a high content of extended structures in aqueous buffer, decreasing in Cys23 NCp7 and in NCp7 in the absence of zinc. An increase in beta-turn structures is observed in NCp7 bound to tRNA3Lys. Furthermore, CD data shows that Cys23 NCp7 binds tRNA3Lys. The CD spectrum of tRNA3Lys is typical of an A-form helix and retains this structure after binding of NCp7, which demonstrates that NCp7 does not induce tRNA3Lys unwinding. CD spectra of tRNA3Lys were measured from 5 to 80 degrees C to observe CD changes resulting from tRNA3Lys melting. Molecular modeling of the complex identifies two potential tRNA anticodon binding sites in the NCp7 N-terminal region and first zinc finger. In this model, both binding sites can interact with 12 nucleotides in the anticodon domain without requiring a base specificity.
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PMID:No tRNA3Lys unwinding in a complex with HIV NCp7. 931 25

Reverse transcription of retroviral genomes is primed by a tRNA molecule that anneals to an 18 nt primer binding site (PBS) on the viral RNA genome. Additional base pair interactions between the tRNA primer and the viral RNA have been proposed. In particular, base pairing was proposed between the anticodon loop of tRNALys3 and the 'A-rich' loop of a hairpin located immediately upstream of the PBS site in HIV-1 RNA. In order to judge the importance of this sequence/structure motif, we performed an extensive phylogenetic analysis of this genomic region in a variety of simian and human immunodeficiency viruses (SIV and HIV). Both the phylogeny of natural HIV/SIV sequences and the behaviour of U5-PBS mutant/revertant viruses support the idea that this RNA structure is critical for virus replication. Although this hairpin may play a role in tRNA annealing and/or initiation of reverse transcription, the proposed base pairing interaction between the A-rich loop of the HIV-1 hairpin and the anticodon of the initiator tRNA is not directly supported by this analysis.
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PMID:The primer binding site on the RNA genome of human and simian immunodeficiency viruses is flanked by an upstream hairpin structure. 932 51

Retroviral reverse transcriptase (RT) is involved in the selection of a specific tRNA primer which initiates proviral DNA minus-strand synthesis. Studies of the interactions between human immunodeficiency virus type 1 (HIV-1) RT and primer tRNALys3 have shown that the dihydrouridine (diHU), anticodon, and pseudouridine regions of tRNA are highly protected in the RT-tRNA complex. The CCA 3' end of tRNA is also in close contact with the enzyme during the cDNA initiation step. Using synthetic oligoribonucleotides corresponding to the anticodon and diHU regions, we have previously shown a low but significant inhibition of HIV-1 RT activity. We extend this observation and show that primer tRNA-derived oligodeoxynucleotides (ODNs) carrying a phosphorothioate (PS) modification are strong inhibitors of HIV-1 RT. The affinity of PS-ODNs for the enzyme was monitored by gel mobility shift electrophoresis. Experiments with HIV-1-infected human cells (MT-2 cells) were performed with the latter ODNs. A PS-ODN corresponding to the 3' end of tRNALys3 (acceptor stem [AS]) was able to inhibit HIV-1 replication. No effect of the other modified ODNs was observed in infected cells. The analysis of HIV-1 RNase H activity in a cell-free system strongly suggests that the inhibitory effect of the PS-AS may be mediated via both a sense and an antisense mechanism.
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PMID:Phosphorothioate oligonucleotides derived from human immunodeficiency virus type 1 (HIV-1) primer tRNALys3 are strong inhibitors of HIV-1 reverse transcriptase and arrest viral replication in infected cells. 933 39

Statistical geometry is a method of comparative sequence analysis of genes. Based on the concept of the sequence space of nucleic acids it computes the geometries of sequence sets, mainly quartets, by combining both the vertical and horizontal information content of the sequences. The geometries can be used to deduce, for example, the degree of tree-likeness of the data set without any a priori assumption of an evolution model. Furthermore, statistical geometry allows to detect varying positional substitution rates in sequences. Applications of the method to tRNA sequences have provided an assessment for the age of the genetic code. Furthermore, applications of statistical geometry to homeoboxes as well as different virus families have helped to assign reliable kinship relationships. In addition, a lower bound for the age of the common ancestor of the human and simian immunodeficiency viruses has been established.
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PMID:Graphs in sequence spaces: a review of statistical geometry. 936 56

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