Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribosomal frameshifting, a translational mechanism used during retroviral replication, involves a directed change in reading frame at a specific site at a defined frequency. Such programmed frameshifting at the mouse mammary tumor virus (MMTV) gag-pro shift site requires two mRNA signals: a heptanucleotide shifty sequence and a pseudoknot structure positioned downstream. Using in vitro translation assays and enzymatic and chemical probes for RNA structure, we have defined features of the pseudoknot that promote efficient frameshifting. Heterologous RNA structures, e.g. a hairpin, a tRNA or a synthetic pseudoknot, substituted downstream of the shifty site fail to promote frameshifting, suggesting that specific features of the MMTV pseudoknot are important for function. Site-directed mutations of the MMTV pseudoknot indicate that the pseudoknot junction, including an unpaired adenine nucleotide between the two stems, provides a specific structural determinant for efficient frameshifting. Pseudoknots derived from other retroviruses (i.e. the feline immunodeficiency virus and the simian retrovirus type 1) also promote frameshifting at the MMTV gag-pro shift site, dependent on the same structure at the junction of the two stems.
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PMID:Structural and functional studies of retroviral RNA pseudoknots involved in ribosomal frameshifting: nucleotides at the junction of the two stems are important for efficient ribosomal frameshifting. 788 86

The selective encapsidation of retroviral RNA requires sequences in the Gag protein, as well as a cis-acting RNA packaging signal (psi site) near the 5' end of the genomic transcript. Gag protein of human immunodeficiency virus type 1 (HIV-1) has recently been found to bind specifically to the HIV-1 psi element in vitro. Here we report studies aimed at mapping features within the genetically defined psi locus that are required for binding of HIV-1 Gag or of its processed nucleocapsid derivative. The full-length HIV-1 Gag (p55) and nucleocapsid (p15) sequences were expressed as glutathione S-transferase (GST) fusion proteins in Escherichia coli. In a gel shift assay containing excess competitor tRNA, affinity-purified GST-p15 and GST-p55 proteins bound to a 206-nucleotide psi RNA element spanning the major splice donor and gag start codons but did not bind to antisense psi transcripts. Quantitative filter-binding assays revealed that both GST-p55 and GST-p15 bound to this RNA sequence with identical affinities (apparent Kd congruent to 5 x 10(-8) M), indicating that all major determinants of psi binding affinity reside within the nucleocapsid portion of Gag. Chemical and RNase accessibility mapping, coupled with computerized sequence analysis, suggested a model for psi RNA structure comprising four independent stem-loops. Filter-binding studies revealed that RNAs corresponding to three of these hypothetical stem-loops can each function as a independent Gag binding site and that each is bound with approximately fourfold-lower apparent affinity than the full-length psi locus. Interaction of Gag with these regions is likely to play a major role in directing HIV-1 RNA encapsidation in vivo.
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PMID:RNA secondary structure and binding sites for gag gene products in the 5' packaging signal of human immunodeficiency virus type 1. 788 56

We assessed the effects of 3'-azido-3'-deoxythymidine (AZT), 2',3'-dideoxyinosine (ddI), and the (-) enantiomer of 2',3'-dideoxy-3'-thiacytidine (3TC) on reverse transcription in CD4-positive cells by isolating truncated human immunodeficiency virus (HIV) DNA fragments. Jurkat cells were treated with AZT (2 microM), ddI (200 microM), or 3TC (50 microM) prior to infection with HIV. Low-molecular-weight DNA was isolated and amplified by PCR with primer pairs which identify different segments of HIV proviral DNA. We found that the HIV DNA fragments generated from drug-treated, HIV-exposed Jurkat cells were truncated at a ratio of 15:1 [i.e., (-) strong-stop DNA to HIV DNA generated after the first template switch]. Full-length DNA was observed in the case of untreated, HIV-infected cultures. Following nucleoside analog treatment of HIV-exposed Jurkat cells, reverse transcription was terminated only after the synthesis of (-) strong-stop DNA. The nucleoside analogs tested, i.e., AZT, ddI, and 3TC, preferentially chain terminated viral DNA synthesis immediately following the first template switch. The (-) strong-stop HIV DNA was present in AZT-treated and untreated cultures for at least 6 days. We also carried out cell-free reverse transcription/template-switching reactions involving tRNA(Lys3) or a deoxyoligonucleotide as a primer, as a means of studying the selective incorporation of AZT triphosphate into proviral DNA. When reactions were primed with tRNA(Lys3), we found that AZT triphosphate was preferentially incorporated after template switching.
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PMID:Preferential incorporation of nucleoside analogs after template switching during human immunodeficiency virus reverse transcription. 791 97

The nucleocapsid protein NCp7 of human immunodeficiency virus type 1 (HIV-1), which has key functions in the virus life cycle, possesses two zinc fingers of the CX2CX4HX4C type characterized by three successive loops containing a tetrahedrally coordinated zinc atom. The replacement of any cysteine by a serine in either finger has been shown to result in the production of noninfectious viruses, probably by impairing the biological functions of NCp7. In order to more precisely elucidate the structural role of the zinc finger motif, His23 was replaced by Cys in the proximal finger of the peptide (13-64)NCp7 which retains NCp7 activities in vitro. The peptide Cys23(13-64)NCp7 was synthesized by solid phase and studied by 2D 1H NMR and molecular modeling. The His to Cys modification causes important structural modifications of the N-terminal zinc finger which impair the spatial proximity of the two zinc fingers as shown by the disappearance of several interresidue NOEs. The side chains of Val13, Lys14, Phe16, Thr24, Ala25, Trp37, Gln45, and Met46, which are thought to be involved in nucleic acid recognition, are no longer found clustered in the Cys23(13-64)NCp7 mutant as they are in the wild-type NCp7 structure. In vitro, Cys23(13-64)NCp7 is unable to tightly interact with the viral RNA or replication primer tRNA(Lys,3). The Cys23(NCp7) mutation was introduced into an infectious HIV-1 molecular clone, and virions produced upon DNA transfection into cells were analyzed for their viral protein and RNA compositions as well as for their infectivity. Results show that, while the Cys23(NCp7) mutation does not impair virion production, viruses contain a low amount of degraded viral RNA and are not infectious. These findings suggest that a bona fide conformation of the HIV-1 NCp7 is critical for the packaging of viral RNA, its stability in virions, and virus infectivity.
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PMID:1H NMR structure and biological studies of the His23-->Cys mutant nucleocapsid protein of HIV-1 indicate that the conformation of the first zinc finger is critical for virus infectivity. 791 87

Human immunodeficiency virus (HIV) particles produced in COS-7 cells transfected with HIV type 1 (HIV-1) proviral DNA contain 8 molecules of tRNA(3Lys) per 2 molecules of genomic RNA and 12 molecules of tRNA1,2Lys per 2 molecules of genomic RNA. When COS-7 cells are transfected with a plasmid containing both HIV-1 proviral DNA and a human tRNA3Lys gene, there is a large increase in the amount of cytoplasmic tRNA3Lys per microgram of total cellular RNA, and the tRNA3Lys content in the virus increases from 8 to 17 molecules per 2 molecules of genomic RNA. However, the total number of tRNALys molecules per 2 molecules of genomic RNA remains constant at 20; i.e., the viral tRNA1,2Lys content decreases from 12 to 3 molecules per 2 molecules of genomic RNA. All detectable tRNA3Lys is aminoacylated in the cytoplasm of infected cells and deacylated in the virus. When COS-7 cells are transfected with a plasmid containing both HIV-1 proviral DNA and a mutant amber suppressor tRNA3Lys gene (in which the anticodon is changed from TTT to CTA), there is also a large increase in the relative concentration of cytoplasmic tRNA3Lys, and the tRNA3Lys content in the virus increases from 8 to 15 molecules per 2 molecules of genomic RNA, with a decrease in viral tRNA1,2Lys from 12 to 5 molecules per 2 molecules of genomic RNA. Thus, the total number of molecules of tRNALys in the virion remains at 20. The alteration of the anticodon has little effect on the viral packaging of this mutant tRNA in spite of the fact that it no longer contains the modified base mcm 5s2U at position 34, and its ability to be aminoacylated is significantly impaired compared with that of wild-type tRNA3Lys. Viral particles which have incorporated either excess wild-type tRNA3Lys or mutant suppressor tRNA3Lys show no differences in viral infectivity compared with wild-type HIV-1.
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PMID:Incorporation of excess wild-type and mutant tRNA(3Lys) into human immunodeficiency virus type 1. 796 56

Intracellular immunization is an anti-viral gene therapy strategy based on the introduction of DNA templates into cells to stably express genetic elements which inhibit viral gene expression and replication. We have recently developed an intracellular immunization strategy for human immunodeficiency virus (HIV) infection that uses RNA decoys. RNA decoys are short RNA oligonucleotides corresponding to the HIV trans activation response element (TAR) or Rev response element (RRE) sequences, which function by inhibiting the binding of the HIV regulatory proteins Tat and Rev to the authentic HIV RNA TAR and RRE regions, respectively. In this report we describe the characterization of potent RRE decoys containing the minimal 13-nucleotide primary Rev binding domain of the RRE. Using an improved tRNA cassette to express high levels of RRE transcripts in CEM cells, we found that this new generation of minimal RRE decoys were more potent inhibitors of HIV in isolated cell lines than previously described TAR or RRE decoys. CEM cells expressing RRE decoys exhibited diminished Rev function in cotransfection assays, confirming the specificity of inhibition of HIV by RRE decoys and indicating that the 13-nucleotide minimal Rev binding domain defined by using in vitro binding studies also binds Rev in vivo. Significant differences in the degree of HIV inhibition between individual CEM cell lines transduced with RRE decoy vectors which were not due to sequence alterations in the tRNA-RRE DNA template, differences in RRE decoy expression level, or endogenous variations in the resistance of CEM clonal cell lines to HIV were observed. In order to evaluate the efficacy of RRE decoys in a more realistic fashion than by comparison of individual clonal cell lines, polyclonal populations of transduced CEM cells were infected with HIV. By using a novel flow cytometric method for quantitating intracellular p24 expression, one version of the RRE decoys tested in this study was found to be capable of durably protecting polyclonal populations of CEM cells from HIV.
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PMID:Inhibition of human immunodeficiency virus type 1 in human T cells by a potent Rev response element decoy consisting of the 13-nucleotide minimal Rev-binding domain. 796 18

To study the variability of human immunodeficiency virus type 1 (HIV-1), we used immunotoxins to select for variants within a population of H9 cells persistently infected with a molecular clone of HIV-1 designated NL4-3. Chimeric immunotoxin CD4-PE40 (a chimeric fusion protein consisting of the amino-terminal two domains of CD4 and the carboxy-terminal domains of Pseudomonas exotoxin A) was used to select for cells lacking cell surface expression of HIV Env (envelope proteins gp160, gp120, and gp41). The cells described here (A1, A7, C9, and E9) fail to express HIV proteins because they have markedly diminished transcription of the integrated provirus (A1, A7, and E9) or no HIV provirus (C9). Analysis demonstrated that two different cloned variants, A1 and E9, contain the complementary sequence of tRNA(3Lys) (45 bp) inserted 3' to the primer-binding site, following by a 169-bp deletion through the start of the gag gene. No HIV mRNA was detected by Northern (RNA) blotting, but PCR demonstrated the presence of the viral message. These variants were found very infrequently in the unselected H9/NL4-3 cell population, and they contained proviruses distinct from that found in the dominant population. In addition, all of these variants had similar patterns of CD4 surface expression that allowed them to escape reinfection within the tissue culture. The data are discussed with regard to mechanisms and errors of HIV reverse transcription, as well as the evolution of mutants within a population of persistently infected cells.
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PMID:Unique insertion sequence and pattern of CD4 expression in variants selected with immunotoxins from human immunodeficiency virus type 1-infected T cells. 798 70

Genomic human immunodeficiency virus type 1 (HIV-1) RNA fragments containing the dimer linkage structure (DLS) can be dimerized and multimerized in the presence of NH4+ and in the absence of any other cation and any viral or cellular protein. This effect strongly supports the notion that dimerization and multimerization of genomic RNA occurs via purine-quartet formation in quadruple helical RNA structures. The efficiency of RNA dimerization and multimerization in the presence of ammonium ions is about 400 fold increased as compared to alkali metal ions such as potassium. Dimerized retroviral RNA representing a pseudodiploid genome could account for genetic recombination within the virion and during reverse transcription. Application of a novel South-Northern-Blotting procedure with biotinylated RNA and digoxigenin-labelled cDNA in vitro reveals that efficient human- and bovine tRNA(Lys3) primed full-length cDNA-synthesis only takes place with a predominantly monomerized RNA template. Dimerization and multimerization of the RNA significantly reduces full-length cDNA-synthesis. This suggests that monomerization of the dimerized RNA, effected by deionization in vitro, is essential for efficient retroviral reverse transcription in vivo.
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PMID:The multimerization state of retroviral RNA is modulated by ammonium ions and affects HIV-1 full-length cDNA synthesis in vitro. 817 34

The steady-state and time-resolved fluorescence properties of two zinc-saturated 18-residue synthetic peptides with the amino acid sequence of the NH2-terminal (NCp7 13-30 F16W, where the naturally occurring Phe was replaced by a Trp residue) and the COOH-terminal (NCp7 34-51) zinc finger domains of human immunodeficiency virus type I nucleocapsid protein were investigated. Fluorescence intensity decay of both Trp 16 and Trp 37 residues suggested the existence of two fully solvent-exposed ground-state classes governed by a C = 2.2 equilibrium constant. The lifetimes of Trp 16 classes differed from those of Trp 37 essentially because of differences in nonradiative rate constants. Arrhenius plots of the temperature-dependent nonradiative rate constants suggested that the fluorescence quenchers involved in both classes and in both peptides were different and the collisional rate of these quenchers with the indole ring was very low, probably because of the highly constrained peptide chain conformation. The nature of the ground-state classes was discussed in relation to 1H nuclear magnetic resonance data. Using Trp fluorescence to monitor the interaction of both peptides with tRNA(Phe) we found that a stacking between the indole ring of both Trp residues and the bases of tRNA(Phe) occurred. This stacking constituted the main driving force of the interaction and modified the tRNA(Phe) conformation. Moreover, the binding of both fingers to tRNA(Phe) was noncooperative with similar site size (3 nucleotide residues/peptide), but the affinity of the NH2-terminal finger domain (K = 1.3 (+/- 0.2) 10(5) M-1) in low ionic strength buffer was one order of magnitude larger than the COOH-terminal one due to additional electrostatic interactions involving Lys 14 and/or Arg 29 residues.
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PMID:Structural and dynamic characterization of the aromatic amino acids of the human immunodeficiency virus type I nucleocapsid protein zinc fingers and their involvement in heterologous tRNA(Phe) binding: a steady-state and time-resolved fluorescence study. 827 45

The nucleocapsid protein NCp7 of the human immunodeficiency virus type I (HIV-1) is a 72 amino acid peptide containing two zinc fingers of the type CX2CX4HX4C linked by a short basic sequence 29RAPRKKG35. NCp7 was shown to activate in vitro both viral RNA dimerization and replication primer tRNA(Lys,3) annealing to the initiation site of reverse transcription. In order to clarify the possible structural role of the zinc fingers in the various functions of NCp7, complete sequence specific 1H NMR assignment of the entire protein was achieved by two-dimensional NMR experiments. Moreover, to characterize the role of the peptide linker in NCp7 folding, a synthetic analogue with an inversion of Pro31 configuration was studied by NMR and fluorescence techniques. Several long range NOEs implying amino acid protons from the folded zinc fingers and the spacer, such as Ala25 and Trp37, Phe16 and Trp37, Arg32 and Trp37, Lys33 and Trp37, Cys18 and Lys33 disappeared in the D-Pro31 (12-53)NCp7, confirming the spatial proximity of the two CCHC boxes observed in the (13-51)NCp7. This was also confirmed by iodide fluorescence quenching experiments. The N and C-terminal parts of NCp7 displayed a large flexibility except for two short sequences Tyr56 to Gly58 and Tyr64 to Gly66, which seemed to oscillate between random-coil and helical conformations. The biological relevance of the structural characteristics of NCp7 was studied in vitro and in vivo. Substitution of Pro31 by D-Pro31 in the active (13-64)NCp7 peptide led to a severe reduction of dimerization in vitro. Moreover, site-directed mutagenesis substituting Leu for Pro31 resulted in the formation of non-infectious and immature viral particles. These results suggest that the spatial proximity of the zinc fingers induced by the peptide linker, plays a critical role in encapsidation of genomic RNA and morphogenesis of HIV-1 infectious particles.
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PMID:Conformational behaviour of the active and inactive forms of the nucleocapsid NCp7 of HIV-1 studied by 1H NMR. 828 49


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