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: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To investigate the occurrence of multinucleoside analog resistance during therapy failure, we surveyed the drug susceptibilities and genotypes of nearly 900 human immunodeficiency virus type 1 (HIV-1) samples. For 302 of these, the 50% inhibitory concentrations of at least four of the approved nucleoside analogs had fourfold-or-greater increases. Genotypic analysis of the reverse transcriptase (RT)-coding regions from these samples revealed complex mutational patterns, including the previously recognized codon 151 multidrug resistance cluster. Surprisingly, high-level multinucleoside resistance was associated with a diverse family of amino acid insertions in addition to "conventional" point mutations. These insertions were found between RT codons 67 and 70 and were commonly 69Ser-(Ser-Ser) or 69Ser-(Ser-Gly). Treatment history information showed that a common factor for the development of these variants was AZT (3'-azido-3'-deoxythymidine, zidovudine) therapy in combination with 2',3'-dideoxyinosine or 2',3'-dideoxycytidine, although treatment patterns varied considerably. Site-directed mutagenesis studies confirmed that 69Ser-(Ser-Ser) in an AZT resistance mutational background conferred simultaneous resistance to multiple nucleoside analogs. The insertions are located in the "fingers" domain of RT. Modelling the 69Ser-(Ser-Ser) insertion into the RT structure demonstrated the profound direct effect that this change is likely to have in the nucleoside triphosphate binding site of the enzyme. Our data highlight the increasing problem of HIV-1 multidrug resistance and underline the importance of continued resistance surveillance with appropriate, sufficiently versatile genotyping technology and phenotypic drug susceptibility analysis.
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PMID:A family of insertion mutations between codons 67 and 70 of human immunodeficiency virus type 1 reverse transcriptase confer multinucleoside analog resistance. 1042 20

The TCR structure of T cell hybridomas recognizing a tumor glycan-defined epitope has been studied using reverse transcriptase-PCR and gene sequencing. The hybridomas had been raised against a glycopeptide, T72(Tn), consisting of the mouse hemoglobin-derived decapeptide Hb(67 - 76), O-glycoslated in position 72 with alpha-D-GalNAc. The glycan-specific hybridomas varied widely in their use of Valpha genes although Valpha4 was predominant, being present in one third of them. The Vbeta gene usage was more restricted and dominated by Vbeta1 and Vbeta15. There was no correlation between Valpha and Vbeta usage and antigen fine specificity of the hybridomas. The overall amino acid composition of the complementarity-determining region (CDR) 3 of the hybridomas was dominated by small polar residues such as Gly, Asn, Ser, Glu and Ala, amino acids reported in the literature to be frequent in glycan-recognizing proteins. Furthermore, the CDR3 of most hybridomas also contained an aromatic residue with preference for Tyr. A few of the hybridomas raised against the T72(Tn) glycopeptide were peptide specific, i. e. they responded to the unglycosylated peptide only. The amino acid usage of their CDR3 regions was not radically different from that of the glycopeptide specific hybridomas. They also preferentially used Valpha4. However, Vbeta4 and Vbeta8 were the dominating beta chains.
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PMID:Shared structural motifs in TCR of glycopeptide-recognizing T cell hybridomas. 1050 50

Biochemical and molecular modeling studies of human immunodeficiency virus type 1 reverse transcriptase (RT) have revealed that a structural element, the minor groove binding track (MGBT), is important for both replication frameshift fidelity and processivity. The MGBT interactions occur in the DNA minor groove from the second through sixth base pair from the primer 3'-terminus where the DNA undergoes a structural transition from A-like to B-form DNA. Alanine-scanning mutagenesis had previously demonstrated that Gly(262) and Trp(266) of the MGBT contributes important DNA interactions. To probe the molecular interactions occurring in this critical region, eight mutants of RT were studied in which alternate residues were substituted for Trp(266). These enzymes were characterized in primer extension assays in which the template DNA was adducted at a single adenine by either R- or S-enantiomers of styrene oxide. These lesions failed to block DNA polymerization by wild-type RT, yet the Trp(266) mutants and an alanine mutant of Gly(262) terminated synthesis on styrene oxide-adducted templates. Significantly, the sites of termination occurred primarily 1 and 3 bases following adduct bypass, when the lesion was positioned in the major groove of the template-primer stem. These results indicate that residue 266 serves as a "protein sensor" of altered minor groove interactions and identifies which base pair interactions are altered by these lesions. In addition, the major groove lesion must alter important structural transitions in the template-primer stem, such as minor groove widening, that allow RT access to the minor groove.
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PMID:Vertical-scanning mutagenesis of a critical tryptophan in the "minor groove binding track" of HIV-1 reverse transcriptase. Major groove DNA adducts identify specific protein interactions in the minor groove. 1074 90

The catalytic efficiency of incorporation of deoxyribonucleotides by wild-type human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) was around 100-fold higher than for dideoxyribonucleotides, in Mg(2+)-catalyzed reactions, and more than 10,000-fold higher than for nucleotides having a 2'-hydroxyl group in Mg(2+)- and Mn(2+)-catalyzed reactions. Mutant RTs with nonconservative substitutions affecting Tyr-115 (Y115V, Y115A, and Y115G) showed a dramatic reduction in their ability to discriminate against ribonucleotides in the presence of both cations. However, selectivity of deoxyribonucleotides versus ribonucleotides was not affected in mutants Y115W and F160W. The substitution of Tyr-115 with Val or Gly had no effect on discrimination against dideoxyribonucleotides, but these mutants were less efficient than the wild-type RT in discriminating against cordycepin 5'-triphosphate. We also show that Tyr-115 is involved in fidelity of DNA synthesis, but substitutions at this position have different effects depending on the metal cofactor used in the assays. In Mg(2+)-catalyzed reactions, removal of the side chain of Tyr-115 reduced misinsertion and mispair extension fidelity, while opposite effects were observed in Mn(2+)-catalyzed reactions. Our results indicate that the aromatic side chain of Tyr-115 plays a role as a "steric gate" preventing the incorporation of nucleotides with a 2'-hydroxyl group in a cation-independent manner, while its influence on fidelity could be modulated by Mg(2+) or Mn(2+).
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PMID:Coupling ribose selection to fidelity of DNA synthesis. The role of Tyr-115 of human immunodeficiency virus type 1 reverse transcriptase. 1074 15

Arabidopsis thaliana CLAVATA1 (CLV1)-like genes were isolated from the wild type and fasciation mutant of soybean (Glycine max). Two soybean homologs of CLV1, designated GmCLV1A and GmCLV1B, are similar in sequence. No missense mutations in GmCLV1A and GmCLV1B between the wild type and mutant were found. GmCLV1 was mapped at 7. 1 cM from a restriction fragment length polymorphism marker on the linkage group H of the soybean molecular map. DNA fingerprinting using bacterial artificial chromosome clones identified two contigs indicating there are two loci for GmCLV1 in the soybean genome. One locus contains GmCLV1A and the other locus contains GmCLV1A and GmCLV1B. Relative multiplex quantitative reverse transcriptase-polymerase chain reaction analysis indicates that the two genes are transcribed in all organs and at higher levels in floral apices. Differential expression patterns of the two genes suggest that the function of the two genes is slightly different in different organs.
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PMID:Molecular characterization of two soybean homologs of Arabidopsis thaliana CLAVATA1 from the wild type and fasciation mutant. 1076 Jun

Substitution of particular residues postulated to have a role in active site architecture can alter the overall fidelity of DNA polymerization by HIV-1. The effects of this kind of substitution were determined in a lacZ-based assay using HIV-1 reverse transcriptase with specifically mutated residues. We found that the reported higher fidelity of nucleotide incorporation by the Met184-->Val and Glu89-->Gly mutant reverse transcriptases (RTs) was not reflected in a substantial increase in the overall fidelity for these RT mutants. For the 3TC-resistant Met184-->Val RT mutant an almost wild-type level of overall mutation frequency was observed, while the foscarnet-resistant RTs harbouring the Glu89-->Gly mutation showed only a twofold decrease in mutation frequency. The Tyr183-->Phe mutant RT displayed a slightly lower fidelity than wild-type RT. Conversely, the ddI-resistant RT mutant containing the Leu74-->Val mutation showed a 3.5-fold higher fidelity compared to the wild-type enzyme. Finally, the Tyr115-->Ala substitution rendered the enzyme substantially more error-prone for DNA polymerization. These results correlate with three-dimensional structural studies of the polymerase active site and confirm the postulated impact of the Leu74, Tyr183 and Tyr115 RT residues on the overall fidelity of DNA polymerization by HIV-1 RT.
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PMID:Fidelity analysis of HIV-1 reverse transcriptase mutants with an altered amino-acid sequence at residues Leu74, Glu89, Tyr115, Tyr183 and Met184. 1078 87

The acute phase response (APR) has a long evolutionary history, but it remains to be characterized fully in lower vertebrates. To study the acute phase proteins of a teleost, rainbow trout (Oncorhynchus mykiss), we induced an APR by injecting Vibrio bacterin emulsified in FIA. In samples taken over the next 3 weeks, the total plasma protein profile changed consistently as seen in one and two-dimensional SDS PAGE. One 18.1 kD upregulated protein was isolated from 2D gels and an N-terminal sequence obtained. Using reverse transcriptase-PCR, a 700 bp cDNA sequence was amplified. The sequence is 53% similar at the amino acid level with rat precerebellin (regions aa 42-184 from trout and aa 89-224 precerebellin), and 46% similar with the globular portion of the human B chain of the first complement component C1q. However, it lacks the collagen portion of C1q with its characteristic Gly-X-Y repeats. The isolated protein seems to be involved in the inflammatory response but its physiological function is unknown.
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PMID:A precerebellin-like protein is part of the acute phase response in rainbow trout, Oncorhynchus mykiss. 1083 94

Previously, we reported the isolation of a heparan sulfate-binding collagenous protein, p200, that is expressed by Schwann cells in developing peripheral nerves ((1996) J. Biol. Chem. 271, 13844-13853; (1999) J. Neurosci. Res. 56, 284-294). Here, we report the cloning of p200 cDNA from a Schwann cell cDNA library. The deduced amino acid sequence identifies p200 as a novel member of the collagen type V gene family. This polypeptide, which we have named alpha4 type V (alpha4(V)) collagen, contains an uninterrupted Gly-X-X collagen domain of 1011 amino acids that shows 82% sequence identity to human alpha3(V) collagen and 71% identity to rat alpha1(V) collagen. alpha4(V) is secreted by Schwann cells as a collagen heterotrimer that also contains alpha1(V) chains. alpha4(V)-containing collagen molecules synthesized by Schwann cells retain their amino-terminal non-collagenous domains. alpha4(V) mRNA was detected by reverse transcriptase-linked polymerase chain reaction amplification in neonatal and adult brain and neonatal peripheral nerve. alpha4(V) mRNA and protein were not detected in most other tissues, including the placenta and heart, which are known to contain alpha3(V). This pattern of alpha4(V) expression contrasted with that of alpha1(V) mRNA and protein, which were ubiquitously expressed. The isolated alpha4(V) chain demonstrated an unusually high affinity for heparin. The restricted expression and unusual properties of alpha4(V)-containing collagen type V molecules suggest a unique and important role for these molecules in peripheral nerve development.
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PMID:Schwann cells synthesize type V collagen that contains a novel alpha 4 chain. Molecular cloning, biochemical characterization, and high affinity heparin binding of alpha 4(V) collagen. 1085 20

Recombinant HIV-1 p66 (rp66, a subunit of reverse transcriptase (RT), a heterodimer of p66 and p51) was produced in Escherichia coli in three different ways. First, rp66 was produced as a part of the fusion protein of lacZ protein and HIV-1 pol protein consisting of three components: protease (p10), RT (p51/p66), and integrase (p31), and was released from the fusion protein by the protease (pol-rp66). Second, rp66 with Ser-Ser at the N-terminus was produced as a fusion protein with maltose-binding protein containing a factor Xa site between the two proteins (MBP-Ser-Ser-rp66) and was released from the fusion protein by factor Xa (Ser-Ser-rp66). Third, rp66 with Met-Gly at the N-terminus was produced in transformed cells (Met-Gly-rp66). The recombinant proteins were purified from sonic extracts of transformed cells by ammonium sulfate fractionation and various column chromatographies. MBP-Ser-Ser-rp66 and Met-Gly-rp66 were readily purified in sufficient amounts for labeling with 2, 4-dinitrophenyl groups and beta-D-galactosidase from E. coli, but pol-rp66 and Ser-Ser-rp66 were not for enzyme-labeling. Ser-Ser-rp66 was not only polymerized but also degraded to considerable extents. The purified preparations were labeled with 2,4-dinitrophenyl groups and beta-D-galactosidase and were tested in immune complex transfer enzyme immunoassay of antibody IgG to HIV-1 RT using serum samples from 600 HIV-1 seronegative and 30 HIV-1 seropositive subjects. Among various combined uses of the two labeled preparations, the uses of 2,4-dinitrophenylated MBP-Ser-Ser-rp66 and pol-rp66 with beta-D-galactosidase-labeled Met-Gly-rp66 showed the highest (99.8%) and the second highest (99.5%) specificities, which were higher than that with the labeled preparations used in the previous study (98. 0%).
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PMID:Preparations of recombinant HIV-1 p66 antigen to improve the specificity of immune complex transfer enzyme immunoassay of antibody IgG to HIV-1 reverse transcriptase. 1090 70

The combination of an amino acid deletion at codon 67 (delta 67) and Thr-to-Gly change at codon 69 (T69G) in the reverse transcriptase (RT) of human immunodeficiency virus type 1 (HIV-1) is associated with high-level resistance to multiple RT inhibitors. To determine the relative contributions of the delta 67 and T69G mutations on viral fitness, we performed a series of studies of HIV replication using recombinant variants. A high-level 3'-azido-3'-deoxythymidine (AZT)-resistant variant containing delta 67 plus T69G/K70R/L74I/K103N/T215F/K219Q in RT replicated as efficiently as wild-type virus (Wt). In contrast, the construct without delta 67 exhibited impaired replication (23% of growth of Wt). A competitive fitness study failed to reveal any differences in replication rates between the delta 67+T69G/K70R/L74I/K103N/T215F/+ ++K219Q mutant and Wt. Evaluation of proviral DNA sequences over a 3-year period in a patient harboring the multiresistant HIV revealed that the T69G mutation emerged in the context of a D67N/K70R/T215F/K219Q mutant backbone prior to appearance of the delta 67 deletion. To assess the impact of this stepwise accumulation of mutations on viral replication, a series of recombinant variants was constructed and analyzed for replication competence. The T69G mutation was found to confer 2',3'-dideoxyinosine resistance at the expense of fitness. Subsequently, the development of the delta 67 deletion led to a virus with improved replication and high-level AZT resistance.
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PMID:Relative replication fitness of a high-level 3'-azido-3'-deoxythymidine-resistant variant of human immunodeficiency virus type 1 possessing an amino acid deletion at codon 67 and a novel substitution (Thr-->Gly) at codon 69. 1106 90


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