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:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The isolated ribonuclease (RNase) H domain of human immunodeficiency virus type 1 (HIV-1) is enzymatically inactive. The incorporation of the putative substrate binding site of Escherichia coli RNase HI (amino acid residues 76-102, the alpha c-helix and adjacent loop region) into the equivalent position of the RNase H domain of HIV-1 resulted in a highly active hybrid protein dependent on Mn2+. Similar restoration of RNase H activity has been observed when histidine residues are added to either the N- or C-terminus of the HIV-1 RNase H domain. The hybrid HIV-1/E. coli RNase H protein is approximately 10-fold more active than HIV-1 reverse transcriptase and 30-fold more active than the histidine-tagged proteins, indicating that the alpha c-helix and adjacent loop region of E. coli RNase HI is an excellent substrate binding region because of its sequence and/or location. The RNase H hybrid produced the same specific cleavage in the model tRNA(Lys3) primer removal assay as HIV-1 reverse transcriptase, showing that substrate binding and specificity are separable and that the specificity determinants are at least partially, if not totally, contained in the amino acid sequence of the hybrid protein derived from HIV-1 reverse transcriptase.
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PMID:Construction of an enzymatically active ribonuclease H domain of human immunodeficiency virus type 1 reverse transcriptase. 753 Mar 60

Novel 3,4-dihydro-6-benzyl-4-oxopyrimidines (DABOs), variously substituted at both the C-2 and C-5 positions of the pyrimidine ring, proved to be specific inhibitors of the human immunodeficiency virus type 1 (HIV-1) in vitro. Some compounds showed potency at micromolar doses, no cytotoxicity at the maximum testable doses and selectivity indexes comparable to that of 2'-3'-dideoxyinosine (ddI). Mode of action studies suggested that DABOs interfered with a step of the virus multiplication cycle following adsorption and preceding integration. Enzyme assays indicated that DABOs targeted HIV-1 reverse transcriptase: they inhibited the RNA-dependent DNA polymerase activity in a template-dependent manner and, to a lesser extent, the DNA-dependent DNA polymerase activity. No inhibition of the RNase-H associated activity was observed. When DABOs were assayed in combination with 3'-azido-3'-dideoxythymidine (AZT) or ddI against HIV-1 in cell cultures, a slightly synergistic inhibitory effect was observed. The combination of DABO 546 and AZTTP in enzyme assays showed that the two compounds were kinetically mutually exclusive.
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PMID:Characterization of the anti-HIV-1 activity of 3,4-dihydro-2-alkoxy-6-benzyl-4-oxopyrimidines (DABOs), new non-nucleoside reverse transcriptase inhibitors. 753 70

A laboratory network has been established by the World Health Organization (WHO) to systematically isolate and characterize HIV strains from different parts of the world, and to obtain information and reagents that would facilitate HIV vaccine development. Sixty-three HIV-1 isolates obtained from 224 specimens collected during 1992-1993 in Brazil, Rwanda, Thailand, and Uganda were characterized in this initial study. Virus strains were first genetically subtyped using three different screening methodologies: PCR-gag fingerprinting, RNase A mismatch, and heteroduplex mobility assay (HMA). In addition, selected viruses were sequenced in V3 (52 strains), C2-V3 (42 strains), gp120 (15 strains), and/or gp160 (8 strains) regions of their envelope genes. These studies identified viruses belonging to different sequence subtypes in the four countries: 16 subtype B and 1 subtype C strains in Brazil, 13 subtype A strains in Rwanda, 15 subtype E and 2 subtype B strains in Thailand, and 3 subtype A and 13 subtype D strains in Uganda. Comparison of sequence data with results from the genetic screening efforts identified the HMA as a rapid and reliable method for sequence subtype determinations. The majority of strains were collected from persons documented to have recently seroconverted to HIV-1 positivity, and most strains were found to have slow replication and low cytopathic characteristics and to be non-syncytium-inducing (slow/low-NSI phenotypes) in vitro, which, in many cases, correlated with the corresponding genotype and charge of the V3 loop amino acid sequences. This collection of HIV strains is presently being characterized immunologically and serologically, including neutralization assays, to define whether there are immunological correlates of the sequence subtypes. Identification of potential immunotypes would be of considerable importance for the further development of HIV vaccines.
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PMID:HIV type 1 variation in World Health Organization-sponsored vaccine evaluation sites: genetic screening, sequence analysis, and preliminary biological characterization of selected viral strains. WHO Network for HIV Isolation and Characterization. 754 77

HIV genomic RNA resides within the nucleocapsid, in the interior of the virus, which serves to protect the RNA against nuclease degradation and to promote its reverse transcription. To investigate the role of nucleocapsid protein (NCp7) in the stability and replication of genomic RNA within the nucleocapsid, we used NCp7, reverse transcriptase (RT) and RNAs representing the 5' and 3' regions of the genome to reconstitute functional HIV-1 nucleocapsids. The nucleoprotein complexes generated in vitro were found to be stable, which, according to biochemical and genetic data, probably results from the tight binding of NCp7 molecules to the RNA and strong NCp7/NCp7 interactions. The nucleoprotein complexes efficiently protected viral RNA against RNase degradation and, at the same time, promoted viral DNA synthesis by RT. DNA strand transfer from the 5' to the 3' RNA template was very efficient in nucleoprotein complexes formed in the presence of both RNAs, but not when the RNAs were in separate complexes. These results indicate that the in vitro reconstituted HIV-1 nucleoprotein complexes function like virion nucleocapsids and thus provide a way to study at the molecular level this viral substructure and the synthesis of proviral DNA, and to search for new anti-HIV agents.
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PMID:Formation of stable and functional HIV-1 nucleoprotein complexes in vitro. 756 74

The internal structural proteins of retroviruses are proteolytically processed from the Gag polyprotein, which alone is able to assemble into virus-like particles when expressed in cells. All Gag proteins contain domains corresponding to the three structural proteins MA, CA, and NC. We have expressed the CA and NC domains together as a unit in Escherichia coli, both for Rous sarcoma virus (RSV) and for human immunodeficiency virus type 1 (HIV-1). We also expressed a similar HIV-1 protein carrying the C-terminal p6 domain. RSV CA-NC, HIV-1 CA-NC, and HIV-1 CA-NC-p6 were purified in native form by classic methods. After adjustment of the pH and salt concentration, each of these proteins was found to assemble at a low level of efficiency into structures that resembled circular sheets and roughly spherical particles. The presence of RNA dramatically increased the efficiency of assembly, and in this case all three proteins formed hollow, cylindrical particles whose lengths were determined by the size of the RNA. The optimal pH at which assembly occurred was 5.5 for the RSV protein and 8.0 for the HIV-1 proteins. The treatment of the RSV CA-NC cylindrical particles with nonionic detergent, with ribonuclease, or with viral protease caused disassembly. These results suggest that RNA plays an important structural role in the virion and that it may initiate and organize the assembly process. The in vitro system described should facilitate the dissection of assembly pathways in retroviruses.
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PMID:Self-assembly in vitro of purified CA-NC proteins from Rous sarcoma virus and human immunodeficiency virus type 1. 766 50

Nuclease footprinting has been used to probe features of binary complexes of type 1 human immunodeficiency virus reverse transcriptase (HIV-1 RT) with both natural and synthetic preparations of its cognate replication primer, tRNA(Lys-3). In addition to heterodimeric RT (p66/p51), ribonucleoprotein complexes containing either the p66 or p51 subunit were analyzed. Footprinting experiments employed both structure- and sequence-specific nucleases. Our results indicate a similar mode of interaction for the three RT preparations tested, suggesting contact with each loop of the tRNA primer (D, anticodon, and T psi C), as well as minor perturbation of the anticodon stem. Although there is little evidence for extensive disruption of the 3'-acceptor stem. RNase A footprinting data with natural and synthetic tRNA suggests that potential base pairing between the T psi C and D loops is disrupted in the presence of RT.
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PMID:Nuclease footprinting of human immunodeficiency virus reverse transcriptase/tRNA(Lys-3) complexes. 768 66

The effects of mutations in human immunodeficiency virus type-1 (HIV-1) long terminal repeat on initiation and on Tat-mediated trans-activation were studied using cell-free transcription assays. All the elements that are necessary for efficient transcription initiation in vitro are included in the core promoter. This region contains three tandem Sp1 binding sites, a TATA element and an initiator (INR) sequence. Although the HIV-1 INR element overlaps the trans-activation response region (TAR), it forms an integral part of the promoter. The HIV-1 INR element was characterised in detail using a template that carries a complete HIV-1 promoter and a displaced TAR RNA element. The results demonstrate that the sequence G+1GGTCT is essential for HIV-1 INR function. RNase protection experiments show that Tat acts exclusively to stimulate transcriptional elongation. Mutations in the core promoter elements reduce initiation rates dramatically but do not block Tat activity. For each mutation studied, the total level of transcription in the presence of Tat is proportional to the rate of initiation in the absence of Tat. Furthermore the rate of initiation remains constant in the presence or absence of Tat. We conclude that the elements of the HIV-1 core promoter act in concert to simulate initiation. By contrast, Tat acts independently of the core promoter elements and stimulates elongation. The data strongly suggest that Tat is recruited to the elongating transcription complex during its transit through TAR.
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PMID:The human immunodeficiency virus long terminal repeat includes a specialised initiator element which is required for Tat-responsive transcription. 775 25

The backbone dynamics of Escherichia coli ribonuclease HI (RNase HI) in the picosecond to nanosecond time scale were characterized by a combination of measurements of 15N-NMR relaxation (T1, T2, and NOE), analyzed by a model-free approach, and molecular dynamics (MD) simulation in water. The MD simulations in water were carried out with long-range Coulomb interactions to avoid the artificial fluctuation caused by the cutoff approximation. The model-free analysis of the 15N-NMR relaxation indicated that RNase HI has a rotational correlation time of 10.9 ns at 27 degrees C. The generalized order parameter (S2) for the internal motions varied from 0.15 to 1.0, with an average value of 0.85, which is much larger than that of the RNase H domain of HIV-1 reverse transcriptase (0.78). Large internal motions (small order parameters) were observed in the N-terminal region (Leu2-Lys3), the loop between beta-strands A and B (Cys13-Gly15), the turn between alpha-helix I and beta-strand D (Glu61, His62), the loop between beta-strand D and alpha-helix II (Asp70-Tyr71), the loop between alpha-helices III and IV (Ala93-Lys96), the loop between beta-strand E and alpha-helix V (Gly123-His127), and the C-terminal region (Gln152-Val155). The effective correlation time observed in these regions varied from 0.45 ns (Glu61, Lys96) to 2.2 ns (Leu14). The order parameters calculated from the MD agreed well with those from the NMR experiment, with a few exceptions. The distributions of most of the backbone N-H vectors obtained by MD are approximately consistent with the diffusion-in-a-cone model. These distributions, however, were elliptic, with a long axis perpendicular to the plane defined by the N-H and N-C alpha vectors. Distributions supporting the axial fluctuation model or the jump-between-two-cones model were also observed in the MD simulation.
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PMID:Characterization of the internal motions of Escherichia coli ribonuclease HI by a combination of 15N-NMR relaxation analysis and molecular dynamics simulation: examination of dynamic models. 775 90

Molecular biologists are beginning to apply the site-specific RNase properties of ribozymes to gene therapy for HIV infection and cancer. Requirements for substrate recognition and cleavage are being finely mapped. Methods of augmenting intracellular cleavage and of dissecting observed discrepancies between in vitro and cellular activity are being explored. Antiviral efficacy against HIV type 1 has been seen in tissue culture for both hammerhead and hairpin ribozymes, and a phase I clinical trial for ex vivo T-cell gene therapy is planned. Oncogene transcripts, such as the bcr/abl fusion messenger RNA and ras, have also been targeted with ribozymes.
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PMID:Antiviral and anticancer ribozymes. 782 72

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


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