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)

The antibody content to HIV-1 p24 Ag expressed as relative binding capacity to the target antigen (p24 RBC) was retrospectively quantified in serum samples from 20 HIV-1-uninfected infants born to HIV-1 seropositive mothers. p24 RBC values quantified at birth were included either in a low (0-20%) or high (80-100%) range of values, classified as group A (11 infants) and group B (9 infants), respectively. The course of maternal antibodies to HIV-1 antigens p17, p24, p31, gp41, p51, p66, gp120, and gp160 was studied in each group. A substantial difference in the amount and subsequently in the decline of maternal antibodies to gag proteins p17, p24, and p55 and to pol proteins p51 and p66 was observed in the two infant groups in contrast with a similar content and decline of the remaining antibodies. In 7 HIV-1-infected infants of whom 4 resembled infant group A and 3 infant group B for p24 RBC values, a relationship appeared between p24 antibody decline and p24 antigenemia detection.
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PMID:Quantitation of HIV-1 p24 antibody expressed as relative binding capacity p24 antigen (p24 RBC) in infants born to HIV-1 seropositive mothers: correlation of this serological marker with the HIV-1 maternal antibody course and p24 antigenemia detection. 882 94

Lentiviral Gag polyproteins have a proline-rich protein, p6, at their C terminus. There are conflicting reports about the function of p6 in virus release. In the present work, mutants that affect p6 of human immunodeficiency virus type 1 (HIV-1) Gag polyprotein were constructed and analysed. None of the mutants prevented virus release completely; however, detachment of budding particles was less efficient as evidenced by electron microscopy. Virions of the p6 truncation mutant B2TAA had a significantly reduced number of Pol proteins (p66, p51 and p34) and an increased amount of incompletely processed Gag proteins compared with the parental virus. A mutation that altered the cleavage site between p6 and p1 did not significantly affect virus assembly, virus release or protein processing with the exception of cleavage between p6 and p1. However, virions of this mutant (B2P6C) exhibited irregular-shaped core structures that were distinct from the cone-shaped core structure seen in the parental virion. B2P6C mutant virus was non-infectious in CD4+ T cells. These results suggest that mutations in p6 affect efficient detachment of budding particles from the cell surface. Proper cleavage between p6 and p1 may be critical for the formation of the distinctive cone-shaped core structure of HIV-1 virions.
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PMID:Role of the C terminus Gag protein in human immunodeficiency virus type 1 virion assembly and maturation. 884 26

The recognition of primer tRNA by retroviral reverse transcriptase is a crucial step in the replication of retroviruses. In the complex formed by HIV-1 reverse transcriptase and its natural primer tRNALys3, the heterodimeric enzyme, p66/p51, binds two molecules of tRNALys3 with different affinities. The same complex but in the presence of a non-complementary template, poly(A), gave higher Kd values. Preincubation of the reverse transcriptase with tRNA at concentrations comparable to the Kd2 value results in different levels of stimulation of the DNA polymerase activity: 300% in the absence and 70-80% in the presence of poly(A). The activation of the catalytically active p66 subunit is most probably mediated through tRNA interaction with the site of reverse transcriptase presenting the lower affinity. In this article, we describe the results obtained with new chemically reactive derivatives of tRNA bearing three or seven hydrophobic residues. Incubation of reverse transcriptase with tRNA derivatives, in the presence or absence of poly(A), leads to covalent binding of the reagents and inactivation of the enzymatic activity. However, during the initial step of the modification reaction, in the absence of poly(A), a slight stimulation of reverse transcriptase by tRNA derivatives took place, followed by a decrease in the enzymatic activity due to the covalent binding of tRNA derivatives to reverse transcriptase. In the presence of poly(A), enzyme inactivation occurs according to pseudo-first-order reaction kinetics. The affinities of tRNA derivatives for the p66/p51 heterodimer estimated from affinity modification data (Kd values) and from the inhibition of polymerization reaction (Ki values) were determined. Each analog of tRNA presented two Kd and two Ki values.
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PMID:Interaction of human immunodeficiency virus type 1 reverse transcriptase with primer tRNALys3 and affinity modification of the enzyme by tRNALys3 derivatives. 885 83

Tyr115 is located in the vicinity of the polymerase catalytic site of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase. Site-directed mutagenesis was used to generate variant enzymes having Phe, Trp, Ala, Ser, Asp or Lys instead of Tyr115. The substitution of Tyr115 by Phe renders a fully active polymerase, displaying similar kinetic parameters, processivity and misinsertion fidelity of DNA synthesis as the wild-type enzyme. In contrast, the replacement of Tyr by Asp or Lys produced enzymes with a very low polymerase activity. The activity of the variant enzymes having Trp, Ala or Ser instead of Tyr115 was reduced significantly, particularly when poly(rA)484 was used as template. This effect was caused by a dramatic increase in the Km value for dTTP, and was detected using a DNA template mimicking a proviral HIV-1 gag sequence. Misinsertion fidelity assays revealed that mutants Y115W, Y115A and Y115S had a higher misinsertion efficiency than the wild-type reverse transcriptase. The low fidelity of these mutants appears to be related to nucleotide recognition rather than altered DNA-DNA template-primer interactions. The effects observed on the steady state kinetic constants, processivity and fidelity were mediated by the 66 kDa subunit, as demonstrated using chimeric heterodimers with the Y115A substitution in either p66 or p51.
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PMID:Human immunodeficiency virus type 1 reverse transcriptase: role of Tyr115 in deoxynucleotide binding and misinsertion fidelity of DNA synthesis. 886 70

The Human Immunodeficiency Virus type 1 (HIV-1) is a retrovirus and a causative agent of the Acquired Immuno Deficiency Syndrome (AIDS). Retroviruses are distinct from other viruses in their ability to encode an enzyme called reverse transcriptase (RT). The RT is the enzyme mainly involved in replication. It performs RNA- as well as DNA-dependent DNA synthesis in order to convert the single-stranded viral RNA genome into double-stranded DNA. The double-stranded DNA is stably integrated into the host cell genome and is used as a template for the production of a new viral generation. The HIV-1 RT is partially encoded by the POL open reading frame of the HIV-1 genome and consists of two subunits of 66 kDa (p66) and 51 kDa (p51). The p66 polypeptide encodes the reverse transcriptase and the RNase H domain. Half of the p66 molecules are further processed to generate the p51 protein with an identical N-terminus, but lacking the C-terminus which encodes the RNase H domain. In vivo both polypeptides are found in equimolar amounts thus forming a heterodimer. This dimerization is critical for the enzymatic activity. In this review we summarize (i) the replication cycle of HIV-1, (ii) the enzymatic properties of HIV-1 RT and (iii) the structure-function relationship of the HIV-1 RT in view of the known three dimensional structure.
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PMID:Human Immunodeficiency Virus type 1 reverse transcriptase. 886 66

Many bacterial expression systems have been developed to study the reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1). This enzyme exists in the virions as a heterodimer of a 66 kDa (p66) subunit and a 51 kDa (p51) subunit, originating through proteolytic maturation of the p66 subunit. Most expression systems rely on the processing of p66 by bacterial proteases, this results in a p51 subunit with a non-authentic carboxy-terminus. In contrast, the expression system described produces an RT with an authentic carboxy-terminus. This was achieved by the co-expression of the two subunits of HIV-1 RT, which were each cloned on a different, compatible plasmid in Escherichia coli, and by the use of protease inhibitors during cell lysis. This approach enabled us not only to obtain virion-like RT, as verified by mass spectrometry, but also to monitor the effect of mutations in one or both subunits on the activity of RT and on its sensitivity towards RT inhibitors. The co-expression system described represents a useful method to produce HIV-1 RT, both authentic and mutated, in quantities that allow large-scale studies on the functional organisation of the RT-subunits and the sensitivity of the enzyme to RT inhibitors.
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PMID:A two plasmid co-expression system in Escherichia coli for the production of virion-like reverse transcriptase of the human immunodeficiency virus type 1. 888 44

We compared the inhibition of HIV-1 reverse transcriptase (RT) by 1-[2',5'-bis-O-(t-butyldimethylsilyl)-beta-D-ribofuranosyl]-3'- spiro-5"-(4"-amino-1", 2"-oxathiole-2",2"-dioxide)-3-ethylthymine (TSAOe3T) and the nonnucleoside RT inhibitor (NNRTI) 9-aminonevirapine (9-NH2N). Both compounds were equally effective against p51/p66 heterodimeric RT RNA-dependent DNA polymerase activity, although TSAOe3T was a much better inhibitor of the p51/p51 and p66/p66 RT homodimers. Inhibition by TSAOe3T and 9-NH2N combinations was essentially additive. TSAOe3T did not protect either free RT or the RT-template/ primer-deoxynucleoside triphosphate ternary complex from irreversible inactivation by the photolabel 9-azidonevirapine. Slight protection of the RT-template/primer binary complex was noted, but only at high TSAOe3T/photolabel ratios. Analysis of RT polymerization product profiles under both continuous- and single-processive cycle conditions showed that 9-NH2N prevented the formation of full-length product with a corresponding accumulation of smaller polymerization products. In contrast, all products formed in the absence of inhibitor, including full-length product, were noted in TSAOe3T-inhibited reactions, albeit at reduced levels. TSAOe3T thus inhibits HIV-1 RT by a different mechanism than NNRTI such as nevirapine. Our data suggest that TSAOe3T and 9-NH2N interact differently with HIV-1 RT, perhaps by binding to distinct sites on the enzyme.
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PMID:Differences in the inhibition of human immunodeficiency virus type 1 reverse transcriptase DNA polymerase activity by analogs of nevirapine and [2',5'-bis-O-(tert-butyldimethylsilyl)-3'-spiro-5"-(4"-amino-1", 2"-oxathiole-2",2"-dioxide] (TSAO). 891 35

HIV-1 isolates are classified phylogenetically in several subtypes or clades according to env and gag coding sequences. Viral subtypes tend to cluster geographically. DNA sequences encoding the p51 subunit of reverse transcriptase were obtained by nested polymerase chain reaction from peripheral blood mononuclear cells of two HIV-1-seropositive individuals from New Delhi and three from Pune, in northern and western India, respectively. These isolates were previously characterized as subtype C according to their env sequences. Based on phylogenetic analysis, the reverse transcriptase coding region of these isolates is distinct from those of subtype A, subtype B, subtype D, and group O of HIV-1 viruses. The nucleotide divergence of these Indian pol sequences (3.3%) is similar to that of existing sequences for subtype B and subtype D viruses. This result supports the epidemiologic data of a more recently introduced HIV-1 epidemic in India. Based on the corresponding env sequences, the pol sequences described in this report are subtype C.
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PMID:HIV-1 pol sequences from India fit distinct subtype pattern. 894 66

In retroviruses, such as human immunodeficiency virus type 1 (HIV-1), the reverse transcriptase (RT) copies single-stranded viral RNA into complementary DNA, which is then used as a template for synthesis of the second DNA strand. The resulting double-stranded DNA is integrated into the host genome. How RT translocates on the different templates is the subject of this study. We have developed a theoretical model for RT translocation during processive DNA synthesis. The model is based on the assumption that there are two template-binding sites, namely the helix clamps, located in the thumb subdomains of RT subunits p66 and p51. Flexibility of the p66 thumb provides undisrupted template-binding during polymerase translocation. Coordinated association and dissociation of the template at the thumbs, triggered by nucleotide incorporation, is assumed, which ensures template contact with at least one subdomain throughout translocation. We suggest that coordination between the sites is effected by stress in the template region located between the thumbs. Translocation of HIV-1 RT proceeds continuously but with different processivities on RNA and DNA templates. These findings are explained in detail by the proposed model.
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PMID:Strained template under the thumbs. How reverse transcriptase of human immunodeficiency virus type 1 moves along its template. 895 59

Human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) is an important target for chemotherapeutic agents used in the treatment of AIDS; the TIBO compounds are potent non-nucleoside inhibitors of HIV-1 RT (NNRTIs). Crystal structures of HIV-1 RT complexed with 8-Cl TIBO (R86183, IC50 = 4.6 nM) and 9-Cl TIBO (R82913, IC50 = 33 nM) have been determined at 3.0 A resolution. Mutant HIV-1 RT, containing Cys in place of Tyr at position 181 (Tyrl81Cys), is highly resistant to many NNRTIs and HIV-1 variants containing this mutation have been selected in both cell culture and clinical trials. We also report the crystal structure of Tyrl81Cys HIV-1 RT in complex with 8-Cl TIBO (IC50 = 130 nM) determined at 3.2 A resolution. Averaging of the electron density maps computed for different HIV-1 RT/NNRTI complexes and from diffraction datasets obtained using a synchrotron source from frozen (-165 degrees C) and cooled (-10 degrees C) crystals of the same complex was employed to improve the quality of electron density maps and to reduce model bias. The overall locations and conformations of the bound inhibitors in the complexes containing wild-type HIV-1 RT and the two TIBO inhibitors are very similar, as are the overall shapes and volumes of the non-nucleoside inhibitor-binding pocket (NNIBP). The major differences between the two wild-type HIV-1 RT/TIBO complexes occur in the vicinity of the TIBO chlorine substituents and involve the polypeptide segments around the beta5-beta6 connecting loop (residues 95 to 105) and the beta13-beta14 hairpin (residues 235 and 236). In all known structures of HIV-1 RT/NNRTI complexes, including these two, the position of the beta12-beta13 hairpin or the "primer grip" is significantly displaced relative to the position in the structure of HIV-1 RT complexed with a double-stranded DNA and in unliganded HIV-1 RT structures. Since the primer grip helps to position the template-primer, this displacement suggests that binding of NNRTIs would affect the relative positions of the primer terminus and the polymerase active site. This could explain biochemical data showing that NNRTI binding to HIV-1 RT reduces efficiency of the chemical step of DNA polymerization, but does not prevent binding of either dNTPs or DNA. When the structure of the Tyr181Cys mutant HIV-1 RT in complex with 8-Cl TIBO is compared with the corresponding structure containing wild-type HIV-1 RT, the overall conformations of Tyr181Cys and wild-type HIV-1 RT and of the 8-Cl TIBO inhibitors are very similar. Some positional changes in the polypeptide backbone of the beta6-beta10-beta9 sheet containing residue 181 are observed when the Tyr181Cys and wild-type complexes are compared, particularlty near residue Val179 of beta9. In the p51 subunit, the Cys181 side-chain is oriented in a similar direction to the Tyr181 side-chain in the wild-type complex. However, the electron density corresponding to the sulfur of the Cys181 side-chain in the p66 subunit is very weak, indicating that the thiol group is disordered, presumably because there is no significant interaction with either 8-Cl TIBO or nearby amino acid residues. In the mutant complex, there are slight rearrangements of the side-chains of other amino acid residues in the NNIBP and of the flexible dimethylallyl group of 8-Cl TIBO; these conformational changes could potentially compensate for the interactions that were lost when the relatively large tyrosine at position 181 was replaced by a less bulky cysteine residue. In the corresponding wild-type complex, Tyr181 iin the p66 subunit has significant interactions with the bound inhibitor and the position of the Tyr181 side-chain is well defined in both subunits. Apparently the Tyr181 --> Cys mutation eliminates favorable contacts of the aromatic ring of the tyrosine and the bou
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PMID:Crystal structures of 8-Cl and 9-Cl TIBO complexed with wild-type HIV-1 RT and 8-Cl TIBO complexed with the Tyr181Cys HIV-1 RT drug-resistant mutant. 900 Jun 32

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