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)

We have described a strain of Escherichia coli that expresses high levels of enzymatically active, soluble, HIV-1 reverse transcriptase (A. Hizi, C. McGill, and S. H. Hughes, Proc. Natl. Acad. Sci. USA, 85, 1218-1222, 1988). The clone can be used as a source of the enzyme and to generate and characterize mutations in the reverse transcriptase. We have made a series of small in-frame insertions in the region that encodes the reverse transcriptase. When the mutant plasmids are reintroduced into E. coli, they induce the synthesis of mutant forms of the enzyme. With one interesting exception, the reduction in RNA-dependent DNA polymerizing activity seen in the mutants correlates well with the degree of sequence conservation among the various reverse transcriptases. Insertions into regions that are evolutionarily conserved have a more profound effect on RNA-dependent DNA polymerase activity than do insertions into regions that are less conserved. The exception to this simple correlation is that a small insertion into the region encoding RNase H gives rise to a protein with essentially no RNA-dependent DNA polymerase activity. We suggest that this mutation may affect the ability of the reverse transcriptase to fold properly, which might explain our previous observation that small carboxyl terminal deletions profoundly affect RNA-dependent NAD polymerase activity.
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PMID:Effects of small insertions on the RNA-dependent DNA polymerase activity of HIV-1 reverse transcriptase. 247 Jan 95

Human immunodeficiency virus reverse transcriptase (HIV-RT) exhibits a strong sensitivity to pyridoxal 5'-phosphate (PLP), a substrate-binding site directed reagent for DNA polymerases (Modak, M. J. (1976) Biochemistry 15, 3620-3626). Treatment of HIV-RT with PLP followed by sodium borohydride reduction of the enzyme-PLP adduct results in irreversible inactivation of polymerase activity while RNase H activity associated with HIV-RT is minimally affected. Kinetic studies indicate that the PLP inhibition is complex. Yet one of the sites of PLP action appears to be involved in the process of dNTP binding as judged by (a) competitive mode of inhibition and (b) blockage of PLP into enzyme protein by the addition of substrate dNTP. Furthermore, this site is the only PLP reactive site which is accessible to borohydride reduction. Comparative tryptic peptide mapping of enzyme treated with PLP under a variety of conditions permitted the identification of a PLP reactive site containing peptide. Furthermore, reactivity of this site was also blocked by inclusion of substrate dNTP and appropriate template-primer. The amino acid composition and sequence analysis of this peptide showed that a lysine residue present at position 263 in the primary amino acid sequence of HIV-RT is the site of PLP reactivity. We therefore conclude that lysine 263 serves as an important part of the dNTP-binding domain in HIV-RT.
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PMID:Substrate binding in human immunodeficiency virus reverse transcriptase. An analysis of pyridoxal 5'-phosphate sensitivity and identification of lysine 263 in the substrate-binding domain. 247 Jul 47

Recombinant HIV-1 reverse transcriptase (RT) was stably overproduced as a soluble protein in Escherichia coli using a double-plasmid expression system in which an RT precursor protein was expressed and processed in vivo by HIV-1 protease produced in trans. The RT thus produced consisted of an equimolar mixture of two polypeptides, p66 and p51, which were copurified to greater than 90% homogeneity and were found to share a common NH2 terminus as judged by sequence analysis of the polypeptide mixture. The observed sequence confirmed correct in vivo cleavage by protease at the protease-RT polyprotein junction to yield an NH2 terminus identical to that of genuine viral RT (M. M. Lightfoote et al. (1986) J. Virol. 60, 771-775; F. diMarzo Veronese et al. (1986) Science 231, 1289-1291). The bacterially expressed RT had a specific activity similar to that of viral RT and inhibition studies with phosphonoformate confirmed that it was indistinguishable from the viral enzyme with respect to sensitivity to this inhibitor. Polymerase activated gel analysis of the mixture indicated that p66 was associated with a higher level of RT activity than p51. RNase H activated gel analysis suggested that the purified preparation of recombinant RT was free of endogenous E. coli RNase H, and that the RNase H activity of RT was exclusively associated with the p66 polypeptide, supporting the hypothesis that the RNase H domain is located in the COOH-terminal region of the molecule.
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PMID:Recombinant HIV-1 reverse transcriptase: purification, primary structure, and polymerase/ribonuclease H activities. 247 69

Two single site substitutions (E478----Q and H539----F) were introduced into the C-terminal RNase H domain of HIV-1 reverse transcriptase. These mutant proteins were expressed in Escherichia coli and purified by Ni2+-nitrilotriacetic acid affinity chromatography. Both enzymes are clearly defective in RNase H function, but exhibit wild type reverse transcriptase activity.
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PMID:Point mutations in conserved amino acid residues within the C-terminal domain of HIV-1 reverse transcriptase specifically repress RNase H function. 247 77

The human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT)/ribonuclease H has been expressed to high levels in Escherichia coli from a recombinant plasmid constructed using the polymerase chain reaction (PCR) for in vitro mutagenesis. Translational initiation and termination codons were introduced by the PCR at points corresponding to sites of cleavage of the RT from the gag-pol precursor polyprotein by the HIV-1 protease; the HIV-1 protease is not expressed from this construct. Most of the RT coding sequences derived from PCR were exchanged for a DNA fragment cloned by standard methods to minimize the possibility that an unwanted mutation was introduced during the in vitro amplification. The RT is expressed in bacteria from this plasmid as 66 and 51 kDa proteins, has both RNA-dependent DNA polymerase and ribonuclease H (RNase H) activities, and is indistinguishable from native HIV-1 RT in electrophoretic mobility and immunoreactivity. Peptide sequencing of the amino terminus of the HIV-1 RT purified from bacterial lysates is also presented. A novel activity gel assay was used to confirm that only the 66 kd protein catalyzes the RNase H reaction; this assay will simplify analysis of this catalytic activity. This HIV-1 RT expression plasmid is of interest because of the high level of expression in bacteria and the demonstrated RNase H activity of the enzyme. This plasmid will be distributed for research purposes through the NIH AIDS Repository and will facilitate enzymologic, structural, and immunologic evaluation of reverse transcription and its chemotherapeutic inhibition.
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PMID:HIV-1 reverse transcriptase/ribonuclease H: high level expression in Escherichia coli from a plasmid constructed using the polymerase chain reaction. 247 33

The RNase H activity associated with recombinant p66/p51 HIV-1 reverse transcriptase (RT) has been analyzed in the absence of DNA synthesis by using homogeneous RNA.DNA substrates. The substrates consisted of SP6 runoff transcripts from a portion of the gag region of the HIV-1 genome hybridized to complementary single-stranded DNA from either an M13 subclone or a phagemid transcription vector subclone. The corresponding hybrids either carried a 5'-mismatch of seven nucleotides or were fully base-paired. Analysis of recombinant HIV-1 p66/p51 RT by an activated gel assay employing these substrates suggested that the RNase H activity was exclusively associated with the p66 polypeptide. Denaturing gel electrophoresis was used to analyze the oligonucleotide products generated by hydrolysis of the hybrids by HIV-1 RT, M-MuLV RT, and Escherichia coli RNase H. The significant difference in the time-dependent distribution of products of HIV-1 RT vs E. coli RNase H catalyzed cleavage of 5'-mismatched hybrids indicated that the preparation of recombinant HIV-1 RT was free of contaminating bacterial RNase H. Although the HIV-1 RT associated RNase H activity shares many of the general mechanistic features of other retroviral enzymes [Gerard, G. F. (1981) Biochemistry 20, 256-265], the appearance of unique intermediates and end products in the course of hydrolysis of 5'-mismatched and fully base-paired hybrids indicated a significant difference in the sequence dependence of the kinetics of RNase H cleavage by HIV-1 RT and M-MuLV RT.
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PMID:Analysis of the ribonuclease H activity of HIV-1 reverse transcriptase using RNA.DNA hybrid substrates derived from the gag region of HIV-1. 248 1

We have recently shown that phosphorothioate (PS) oligodeoxynucleotide (ODN) analogs, unlike their normal congeners, exhibit significant anti-HIV activity (Matsukura et al., (1987) Proc. Natl. Acad. Sci. USA 84, 7706-7710). We now report the syntheses, melting temperatures (Tm), and nuclease susceptibilities of a series of phosphorothioate ODN analogs. These include all-PS duplexes, duplexes with one normal chain and the other chain either all-PS, or end-capped with several PS groups at both 3' and 5' ends. The DNase susceptibilities of the S-ODNs are much less than the normal phosphodiesters, but by contrast duplexes of poly-rA with S-dT40 are much more susceptible to RNase H digestion. The Tm's for AT base pairs of S-ODNs are significantly depressed relative to normals, while GC base pairs show much less Tm depression. The Tm's of S-dT oligomers with poly-rA are reduced relative to the duplexes with normal dA oligomers. These results have significance for the biological properties of these analogs as anti-message inhibitors of gene expression, and provide a rational basis for the S-dC/G sequences as potential effective anti-AIDS agents.
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PMID:Physicochemical properties of phosphorothioate oligodeoxynucleotides. 283 90

The binding of HIV reverse transcriptase (RT) to heteroduplexes was examined using a substrate consisting of a 42 nt chimeric nucleic acid composed. (5'-->3') of 23 nt of RNA and 19 of DNA. This chimera was hybridized to an internal region of a relatively long complementary DNA or RNA. When the chimera was bound to DNA and conditions limiting cleavage to a single binding event between the enzyme and substrate were employed initial RNase H-directed cleavages occurred 19-21 nt from the chimera 5'-terminus. A 42 nt strand identical in sequence to the chimera and composed of only RNA was cleaved at the same locations. Reducing the length of the DNA portion of the chimera from 19 to 7 nt did not alter the cleavage positions, suggesting that cleavage was not coordinated by the DNA 3'-terminus. Under the same conditions cleavage was not detected when the chimera was bound to RNA. In contrast, addition of dNTPs to the DNA 3'-terminus of the chimera occurred only when the chimera was bound to RNA. The results support preferable binding of RT to RNA-DNA versus DNA-DNA hybrid regions and a model in which the orientation of binding to heteroduplexes is 5'-->3' (relative to the RNA strand), polymerase to RNase H active site, with sites associated with the DNA and RNA strand respectively.
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PMID:The orientation of binding of human immunodeficiency virus reverse transcriptase on nucleic acid hybrids. 747 34

We have demonstrated that the synthetic oligonucleotides, either unmodified or phosphorothioates, prevent cDNA synthesis by the AMV or HIV reverse transcriptases. The RNA was truncated at the antisense oligonucleotide-RNA duplex during the reverse transcription. Th blockage involves the degradation of the RNA fragment bound to the antisense oligonucleotide by the reverse transcriptase associated RNase H activity. However, in the case of phosphorothioate oligomer, the production of cDNA would be inhibited by a hybrid formed between the AMV RT and phosphorothioate oligomer than arrested elongation of the cDNA strands, whereas arrest of a growing cDNA strand by HIV RT can be blocked by an oligonucleotide complementary to a region downstream from the primer.
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PMID:Mechanisms of the inhibition of reverse transcription by unmodified and modified antisense oligonucleotides. 750 49

A contribution of the 51-kDa subunit of human immunodeficiency virus type-1 reverse transcriptase to activities of the parental heterodimer (p66/p51) was assessed in "selectively deleted" heterodimers whose p51 component contained C-terminal truncations of 13, 19, or 25 residues. Analyses included (i) efficiency of reconstitution into heterodimer, (ii) retention of polymerase and ribonuclease H (RNase H) function, and (iii) interaction with the HIV replication primer, tRNA(Lys,3). Our data suggest that these features of heterodimer reverse transcriptase can be modulated by the extent of the C-terminal p51 deletion. Severely impaired tRNA binding in a selectively deleted heterodimer whose 51-kDa subunit lacks 13 residues, despite retention of enzymatic functions, strengthens arguments for p51 involvement in tRNA binding.
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PMID:Modulation of HIV-1 reverse transcriptase function in "selectively deleted" p66/p51 heterodimers. 750 7

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