UMLS:C0019693 - FACTA Search

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

Previously we raised a rabbit monospecific antibody (C2003) against a synthetic peptide derived from a sequence within the C-terminal portion of the reverse transcriptase (RT) of the human immunodeficiency virus type 1 (HIV-1). This sequence is found to be conserved in the predicted amino acid sequence of a related lentivirus, the equine infectious anemia virus (EIAV). It was previously determined that the C2003 antibody could cross-react with native EIAV RT and directly inhibit the DNA polymerase activity of the enzyme. We have now fractionated EIAV RT by immunoaffinity chromatography with immobilized C2003 antibody. The procedure yielded an equimolar mixture of two proteins of 66 and 51 kDa associated with both DNA polymerase and RNase H activities. When the EIAV RT proteins were examined by in situ activity gel assays, polymerase activity was found to be principally associated with the 66-kDa component. The fidelity of DNA synthesis by EIAV RT was found to be equivalent to that of HIV-1 RT and lower than that of AMV RT. These observations indicate that the RTs of EIAV and HIV-1 share similar structural and functional properties.
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PMID:Purification and partial characterization of equine infectious anemia virus reverse transcriptase. 171 86

The RNA- and DNA-dependent DNA polymerase activities of two point mutants of HIV-1 reverse transcriptase lacking ribonuclease H activity have been compared to the wild-type enzyme activities using substrates consisting of an oligodeoxynucleotide primer hybridized to either a RNA or a DNA template. The RNase H phenotype had a negligible effect on the steady-state kinetics and processivity of reverse transcription of a homopolymer template-primer [poly(A).oligo(dT)]. However, analysis of the distribution of DNA products indicated that the ability of the mutants to reverse-transcribe a specifically primed 345-nucleotide heteropolymeric RNA template derived from the gag region of HIV-1 was impaired relative to the wild-type enzyme. Although the wild-type and mutant enzymes shared the same pause sites of synthesis along the RNA template, certain prematurely terminated nascent primer chains were poorly extended by the mutant enzymes and hence accumulated, suggesting that a catalytically functional RNase domain facilitated reinitiation of DNA synthesis at specific pause sites along a heteropolymer template. In contrast, the processivity and product distribution of DNA synthesis directed by a heteropolymer gag DNA template of the same nucleotide sequence were not significantly influenced by the RNase H phenotype of the mutants.
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PMID:Analysis of the RNA- and DNA-dependent DNA polymerase activities of point mutants of HIV-1 reverse transcriptase lacking ribonuclease H activity. 171 22

Dithioate DNA was synthesized and used for various biochemical studies. Results from these studies indicate that dithioate DNA is a potent inhibitor of HIV Reverse Transcriptase, activates endogenous RNase H in HeLa cell nuclear extracts, and is a useful probe for studying protein-DNA interactions.
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PMID:Synthesis and biochemical studies of dithioate DNA. 171 68

We report here a human immunodeficiency virus type 1 (HIV-1) recombinant ribonuclease H (RNase H) domain engineered to contain an N-terminal tag for its isolation by affinity chromatography. The purified protein is active in hydrolyzing RNA-DNA hybrids in two separate in vitro assay systems. In light of recent reports of similar HIV-1 RNase H domains which were enzymatically inactive (Becerra, S. P., Clore, G. M., Gronenborn, A. M., Karlstrom, A. R., Stahl, S. J., Wilson, S.M., and Wingfield, P.T. (1990) FEBS Lett. 270, 76-80; Hostomsky, Z., Hostomska, Z., Hudson, G. O., Moomaw, E. W., and Nodes, B. R. (1991) Proc. Natl. Acad. Sci. U. S. A. 88, 1148-1152), our results suggest that a stretch of 20-30 residues immediately upstream of the polymerase-RNase H junction (residues 440-441 of HIV-1 reverse transcriptase) may be required for productive binding and alignment of the hybrid RNA-DNA substrate. The active HIV-1 RNase H domain is suitable for structural analysis, thereby providing a unique active molecule to better understand the structural basis for the functional organization of RNase associated with the HIV-1 reverse transcriptase.
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PMID:A recombinant ribonuclease H domain of HIV-1 reverse transcriptase that is enzymatically active. 171 68

We have constructed a series of plasmids which, when introduced into Escherichia coli, induce the overexpression of soluble wild-type and mutated forms of the reverse transcriptases (RTs) from human immunodeficiency viruses types 1 and 2 (HIV-1 and HIV-2, respectively). These proteins were analyzed previously for their RNA-dependent DNA polymerase (RDDP) and ribonuclease H (RNase H) activities. In the present study we assayed the different mutant RTs for their DNA-dependent DNA polymerase (DDDP) activity, employing an in situ polyacrylamide gel activity assay. The results indicate that both the RDDP and DDDP catalytic functions of HIV-1 RT mutants are affected similarly by mutations suggesting a high degree of overlap between the catalytic domains involved in both activities. Contrariwise, many of the HIV-2 RT mutants display no correlation between these two DNA polymerase activities, that is, the DDDP activity was not affected by the mutations introduced in the native enzyme in contrast to the RDDP activity. We were thus able to generate mutants of HIV-2 RT that unlike the wild-type RT, are capable of transcribing only DNA and not RNA. The disparity in mutational-catalytic relations between the two HIV-related RTs may reflect a possible difference in the structure and folding properties of the two proteins.
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PMID:The DNA-dependent and RNA-dependent DNA polymerase activities of the reverse transcriptases of human immunodeficiency viruses types 1 and 2. 172 5

We have examined the ribonuclease H (RNase H) activity of human immunodeficiency virus reverse transcriptase (HIV-RT) using a natural sequence 83-nucleotide-long RNA template to which was hybridized a DNA oligomer. This substrate configuration allowed for the simultaneous electrophoretic resolution of 5'-, 3'-, and internally derived RNase H cleavage products. Assays performed in the presence of excess challenger RNA to sequester the RT permitted the analysis of products resulting from a single round of binding of RT to substrate. Substrate cleavage was highly sensitive to ionic strength, showing greatest activity at low KCl concentrations. The increase in cleavage correlated with an increase in the half-life of the enzyme on the RNA-DNA hybrid from approximately 31 s to 6.2 min at 80 and 5 mM KCl, respectively. Internally derived cleavage products generated in challenged reactions were primarily 2-9 nucleotides in length. These lengths indicate that the products were generated by an endo- rather than an exonuclease activity. The directionality and processivity of the endonuclease were also determined by examination of cleavage products from challenged reactions. Although the lengths of 5'-derived products markedly decreased with time, no change in the size distribution of 3'-derived products was observed, indicating that cleavage proceeded processively in the 3' to 5' direction. The 5'-derived products were shortened more in reactions performed under conditions allowing multiple versus single enzyme-binding events, suggesting that the endonuclease action of a single enzyme is not processive enough to generate the maximum possible amount of cleavage on each substrate. Therefore, HIV-RT displays a partially processive 3' to 5' endonuclease activity.
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PMID:Human immunodeficiency virus reverse transcriptase displays a partially processive 3' to 5' endonuclease activity. 172 2

Isothermal nucleic acid amplification of target RNA or DNA sequences is accomplished by the simultaneous enzymatic activity of AMV reverse transcriptase, T7 RNA polymerase and RNase H. Amplification factors of the nucleic acid sequence based amplification (NASBA) method range from 2 x 10(6) to 5 x 10(7) after 2.5 h incubation at 41 degrees C. During NASBA there is a major accumulation of specific single stranded RNA. RNA:DNA hybrid and double stranded DNA are also synthesized, although to a minor extent. The system is optimized for the detection of HIV-1 sequences in in vitro infected cells, blood and plasma. Detection levels are 10 molecules of HIV-1 in a model system with in vitro generated HIV-1 RNA as input and 5 infected cells on a background of 5 x 10(4) non-infected cells. Blood and plasma can also be used as the source of nucleic acid for detection of HIV-1 sequences using a specifically developed sample preparation method. Using NASBA it is possible to amplify specifically RNA or DNA from a pool of total nucleic acid, which permits the investigation of the expression of specific genes involved in pathogenesis of infectious agents. The combination of NASBA with a rapid and user-friendly nucleic acid extraction method makes the whole procedure suitable for large scale diagnosis of infectious agents (e.g. HIV-1).
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PMID:NASBA isothermal enzymatic in vitro nucleic acid amplification optimized for the diagnosis of HIV-1 infection. 172 72

alpha-Anomeric oligonucleotides are resistant to nucleases and display parallel hybridization with complementary DNA and RNA sequences. Although alpha-DNA/beta-RNA duplexes are not substrates for RNases H, alpha-oligos are able to inhibit translation through a RNase H independent mechanism. alpha-Oligos and their alpha-phosphorothioate analogs (12 mer) targeted against the splice acceptor site of the HIV-TAT gene were potent inhibitors of de novo HIV infection. Furthermore alpha-phosphorothioate and dithioate homo-oligomers exhibit an in vitro, nonsequence-specific, inhibitory effect on HIV reverse transcriptase.
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PMID:Alpha-oligonucleotides: a unique class of modified chimeric nucleic acids. 177 67

Mutations were introduced into the P2 and P1 positions of the junctions, (a) linking reverse transcriptase (RT) and integrase (IN) (-Leu*Phe-) and (b) between the p51 and RNase H domain (-Phe*Tyr-) within p66 of RT in the HIV-1 pol polyprotein. Processing by HIV proteinase (PR) in cis was monitored upon expression of these constructs in E. coli. Whereas the presence of Leu or Phe in P1 permitted rapid cleavage at either junction, substitution of a beta-branched (Ile) hydrophobic residue essentially abolished hydrolysis. By contrast, placement of a beta-branched (Val) residue in the P2 position flanking such -Hydrophobic*Hydrophobic- junctions resulted in effective cleavage of the scissile peptide bond. Gly in P2, however, abrogated cleavage. The significance of these findings in terms of PR specificity, polyprotein processing and the generation of homodimeric (p51/p51) RT for crystallisation purposes is discussed.
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PMID:Mutating P2 and P1 residues at cleavage junctions in the HIV-1 pol polyprotein. Effects on hydrolysis by HIV-1 proteinase. 204 56

The reverse transcriptase (RT) of HIV is an important target for chemotherapy as demonstrated by the effective treatment of AIDS patients with zidovudine, a potent inhibitor of RT. Structural studies of HIV RT were therefore undertaken with a view to designing more effective inhibitors. To obtain sufficient quantities of enzyme for these studies the reverse transcriptase gene of HIV was cloned into a high level expression plasmid yielding reverse transcriptase at a level of 10% of the total Escherichia coli proteins. Monoclonal antibodies to RT were raised in mice and have been used to purify the enzyme by immunoaffinity chromatography. Crystallization of the enzyme has been achieved and studies are underway to determine its three-dimensional structure. In addition, carboxy-terminal truncated mutants were prepared by inserting stop codons into the gene at appropriate sites. The proteins expressed were analysed for RT and RNase H activity and used for mapping RT epitopes. This, together with previous data on site-directed mutagenesis of conserved regions of HIV RT has helped to map some of the structural and functional regions of the enzyme.
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PMID:Structural characterization of HIV reverse transcriptase: a target for the design of specific virus inhibitors. 246 75

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