EC:2.7.7.49 - FACTA Search

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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)

RNA hypermutagenesis results from cDNA synthesis in the presence of highly biased dNTP precursor concentrations and preferentially exploits human immunodeficiency virus type 1 (HIV-1) reverse transcriptase. Such reaction conditions slow down DNA synthesis, which might be conducive to strand transfer and deletion. This has been investigated. A 6 bp inverted repeat nested between 10 bp repeats was efficiently deleted at dCTP concentrations typically used. Inter- or intramolecular strand transfer between 10 bp repeated sequences separated by runs of templated G residues occurred, but at lower concentrations. If RNA hypermutagenesis of a sequence containing direct and inverted repeats is unavoidable, avian myeloblastosis virus (AMV) reverse transcriptase could be used, as strand transfer occurs with much diminished dCTP substrate dependence.
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PMID:Fate of direct and inverted repeats in the RNA hypermutagenesis reaction. 862 47

Mutations were made in recombinant human immunodeficiency virus type-1 reverse transcriptase (RT) by substituting methionine 184 with alanine (M184A) or valine (M184V), and steady-state and pre-steady-state kinetic constants were determined. The Km values of M184A RT for dNTPs were larger than those of wt RT for RNA-directed synthesis; the kcat values of M184A RT for processive or distributive synthesis were similar. In contrast to M184A RT, the Km and kcat values of M184V RT for dNTP substrates were similar to those of wt RT. The Ki values of M184V RT for 1-beta-L-nucleoside analogs were increased 30-500-fold relative to wt RT for both RNA- and DNA-directed synthesis. The Kd and kp values of wt RT and M184V RT for dCTP and cis-5-fluoro-1-[2-(hydroxymethyl)-1, 3-oxathiolan-5-yl]cytosine 5'-triphosphate (1-beta-L-FTCTP) were estimated from pre-steady-state kinetics for single nucleotide incorporation. The Kd value of M184V RT for 1-beta-L-FTCTP was 19-fold greater than that of wt RT; the kpvalues of the two enzymes were similar. These results support the hypothesis that methionine 184 in the highly conserved YMDD region of wt RT participates in the binding of the nucleoside (analog) 5'-triphosphate.
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PMID:Human immunodeficiency virus type-1 reverse transcriptase. Contribution of Met-184 to binding of nucleoside 5'-triphosphate. 866 9

The dNTP binding pocket of human immunodeficiency virus type 1 reverse transcriptase (RT) and DNA polymerase beta (beta-pol) were labeled using a photoreactive analog of dCTP, exo-N-[beta-(p-azidotetrafluorobenzamido)-ethyl]-deoxycytidine-5'- triphosphate (FABdCTP). Two approaches of photolabeling were utilized. In one approach, photoreactive FABdCTP and radiolabeled primer-template were UV-irradiated in the presence of each enzyme and resulted in polymerase radiolabeling. In an alternate approach, FABdCTP was first UV-cross-linked to enzyme; subsequently, radiolabeled primer-template was added, and the enzyme-linked dCTP analog was incorporated onto the 3'-end of the radiolabeled primer. The results showed strong labeling of the p66 subunit of RT, with only minor labeling of p51. No difference in the intensity of cross-linking was observed with either approach. FABdCTP cross-linking was increased in the presence of a dideoxyterminated primer-template with RT, but not with beta-pol, suggesting a significant influence of prior primer-template binding on dNTP binding for RT. Mutagenesis of beta-pol residues observed to interact with the incoming dNTP in the crystal structure of the ternary complex resulted in labeling consistent with kinetic characterization of these mutants and indicated specific labeling of the dNTP binding pocket.
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PMID:dNTP binding to HIV-1 reverse transcriptase and mammalian DNA polymerase beta as revealed by affinity labeling with a photoreactive dNTP analog. 870 91

1. Multidrug resistance is the major obstacle to successful cancer chemotherapy. Circumventing multidrug resistance therefore represents a high priority for clinical anti-cancer treatment. Among many reversal strategies, antisense oligodeoxynucleotides may offer a molecular targeting tool for overcoming cellular multidrug resistance. 2. Two 17-mer phosphorothioate antisense oligomers, complementary to the 5' end of the ATG initiator codon-containing region and loop-forming site (located at nucleotides 991-1007 from the first ATG codon) in mdr-1 cDNA sequence, were synthesized. The purpose was to study their effects on the function and expression of P-glycoprotein and mdr-1 gene. 3. The results showed that 10 mumol/l antisense oligomers could significantly inhibit the growth of multidrug resistant K562/Adm cells cultured in adriamycin-containing medium. No such effect was observed for parental (sensitive) K562/S cells. Intracellular daunorubicin accumulation increased greatly in the K562/Adm cells after they were treated with oligomers for 48 h and P-glycoprotein synthesis was strikingly reduced. 4. Further investigation with [alpha-32P]dCTP incorporation by the reverse transcriptase-polymerase chain reaction method revealed that antisense oligomers could result in a reduction in the level of mdr-1 mRNA, probably through hindering mdr-1 gene transcription. 5. The high reversal efficiency and specificity of antisense oligomers in regulating mdr-1 gene expression suggest a potential clinical application in gene therapy for drug resistant malignancies.
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PMID:Modulation of multidrug resistance gene (mdr-1) with antisense oligodeoxynucleotides. 877 66

tRNALys3 is the primer for HIV-1 reverse transcriptase (RI) and is selectively incorporated into HIV-1 during viral assembly. While whole cell extracts of uninfected or infected cells contain only one detectable form of tRNALys3, multiple forms of tRNALys3 are detected in the virus released into the cell culture media. These tRNALys3 isoacceptors are found in HIV-1 produced from newly infected cord blood lymphocytes and from cells chronically infected with HIV-1, such as the lymphocytic cell line H9 and the monocytic cell lines U937 and PLB. They can be detected through the use of either RPC-5 column chromatography of tRNA aminoacylated with radioactive lysine or northern blot analysis using a tRNALys3-specific DNA hybridization probe. Both RPC-5 chromatography and northern blot analysis show the cytoplasmic form of tRNALys3 to be the major abundance form of tRNALys3 in the virus. Starting with the viral RNA isolated from HIV (PLB), the tRNALys3 species resolved by RPC-5 into peaks 2, 3, and 4 were deacylated and 3' end-labeled by heat-annealing the RNA in each peak to synthetic HIV genomic RNA, and extending the hybridized species one base using HIV-1 RT and radioactive dCTP. An electrophoretic comparison of the partial T1 digest pattern of purified human placental tRNALys3 with those of the RPC-5 resolved species showed that the labeled RNA species in each peak was tRNALys3. These radioactive tRNALys3 species retained their relative mobilities when rechromatographed on RPC-5. When total HIV (PLB) RNA was used as the source of primer/template, and similarly extended with RT in the presence of radioactive dCTP, the major priming tRNA resolved by RPC-5 had a chromatographic mobility identical to peak 3. This tRNA primer has a T1 digest pattern identifying it as tRNALys3. These results indicate that the major tRNALys3 species present in the virus is also the major tRNALys3 isoacceptor used as the primer for reverse transcription.
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PMID:Multiple forms of tRNA(Lys3) in HIV-1. 887 48

Pre-steady-state kinetics of incorporation of dCTP and dATP opposite site-specific 8-oxo-7,8-dihydroguanine (8-oxoGua), in contrast to dCTP insertion opposite G, were examined as well as extension beyond the lesion using the replicative enzymes bacteriophage polymerase T7 exo- (T7-) and HIV-1 reverse transcriptase (RT). These results were compared to previous findings for Escherichia coli repair polymerases I (KF-) and II (pol II-) exo- [Lowe, L. G., & Guengerich, F. P. (1996) Biochemistry 35, 9840-9849]. HIV-1 RT showed a very high preference for insertion of dATP opposite 8-oxoGua, followed by pol II-, T7-, and KF-. Steady-state assays showed k(cat) consistently lower than pre-steady-state polymerization rates (k(p)) for insertion of dCTP opposite G or 8-oxoGua and insertion of dATP opposite 8-oxoGua. Pre-steady-state kinetic curves for the addition of dCTP opposite 8-oxoGua or G by KF-, pol II-, and T7- were all biphasic, with a rapid initial single-turnover burst followed by a slower multiple turnover rate, while addition of dATP opposite 8-oxoGua by these polymerases did not display burst kinetics. With HIV-1 RT, addition of dATP opposite 8-oxoGua displayed burst kinetics while addition of dCTP did not. Analyses of the chemical step by substitution of phosphorothioate analogs for normal dNTPs suggest that the chemistry is rate-limiting during addition of dCTP and dATP opposite 8-oxoGua by KF-, pol II-, and T7-; HIV- RT did not show a chemical rate-limiting step during addition of dATP opposite 8-oxoGua. Kinetic assays performed with various dCTP concentrations indicate that dCTP has a higher Kd and lower k(p) for incorporation opposite 8-oxoGua compared to G with all four enzymes. The K(d,app)dATP values for KF-, pol II-, and T7- incorporation of dATP opposite 8-oxoGua, estimated in competition assays, were found to be 3-10-fold greater than the K(d)dCTP. Likewise, the K(d,app)dCTP for HIV-1 RT incorporation of dCTP opposite 8-oxoGua was found to be 10-fold greater than the K(d)dATP. The repair enzymes (KF- and pol II-) efficiently extended the 8-oxoGua x A pair; extension of 8-oxoGua x C was severely impaired, whereas the replicative enzymes (T7- and HIV-1 RT) extended both pairs, with faster rates for the extension of the 8-oxoGua x A pair. On the basis of these findings, the fidelity of all four enzymes during replication of 8-oxoGua depends on contributions from the apparent Kd, the ease of base pair extension, and either the rate of conformational change before chemistry or the rate of bond formation.
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PMID:Analysis of nucleotide insertion and extension at 8-oxo-7,8-dihydroguanine by replicative T7 polymerase exo- and human immunodeficiency virus-1 reverse transcriptase using steady-state and pre-steady-state kinetics. 917 65

The RNA dependent DNA replication fidelity of HIV-1 reverse transcriptase has been investigated using pre-steady-state kinetics under single turnover conditions. In contrast to previous estimates of low replication fidelity of HIV-1 reverse transcriptase, the present study finds the enzyme to be more highly discriminating when an RNA/DNA template-primer is employed as compared with the corresponding DNA/DNA template-primer. The basis of this selectivity is due to extremely slow polymerization kinetics for incorporation of an incorrect deoxynucleotide. The maximum rates for misincorporation (kpol) of dGTP, dCTP, and dTTP opposite a template uridine were 0.2, 0.03, and 0.003 s-1, respectively. The equilibrium dissociation constants (Kd) for the incorrect nucleotide opposite a template uridine were 1.0, 1.1, and 0.7 mM for dGTP, dCTP, and dTTP, respectively. These kinetic values provide fidelity estimates of 26 000 for discrimination against dGTP, 176 000 for dCTP, and 1 x 10(6) for dTTP misincorporation at this position. Similar observations were obtained when incorrect nucleotide misincorporation was examined opposite a template adenine. Thus in a direct comparison of RNA/DNA and DNA/DNA template-primer substrates, HIV-1 RT exhibits approximately a 10-60-fold increase in fidelity. This study augments our current understanding of the similarities and differences of catalytic activity of HIV-1 reverse transcriptase using RNA and DNA substrates. Moreover, these studies lend further support for a model for nucleotide incorporation by HIV-1 reverse transcriptase involving a two-step binding mechanism governed by a rate-limiting conformational change for correct incorporation.
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PMID:RNA dependent DNA replication fidelity of HIV-1 reverse transcriptase: evidence of discrimination between DNA and RNA substrates. 936 77

The 5alpha-reduced metabolites of testosterone, including dihydrotestosterone, are considered the primary regulators of epididymal function. Two genes encode two 5alpha-reductase isozymes. We examined 5alpha-reductase type 1 and type 2 mRNA tissue distribution and relative abundance in cynomolgus monkey (Macaca fascicularis) testicular and epididymal tissues using semiquantitative reverse transcriptase-polymerase chain reaction (RT-PCR). mRNA extracted from monkey tissues including the testis (T) and the proximal caput (PCp), the caput (Cp), the midcorpus (Co), and the distal cauda (Cd) epididymis was reverse transcribed to produce cDNAs. 5alpha-reductase type 1 and 2 cDNAs were subsequently coamplified with the housekeeping gene, cyclophilin, in a PCR spiked with 33P-dCTP. Relative abundance was reported as the cpm ratios of type 1 or type 2/cyclophilin mRNA. Semiquantitative RT-PCR results indicated that type 1 mRNA was most abundant in the testis (0.48 +/- 0.06) and significantly decreased distally along the monkey epididymis (PCp: 0.29 +/- 0.04; Cp: 0.29 +/- 0.04; Co: 0.21 +/- 0.03; Cd: 0.07 +/- 0.01) (P < 0.001). Type 2 mRNA was undetectable in the testis but was present throughout the epididymis at uniform levels (PCp: 1.6 +/- 0.2; Cp: 1.4 +/- 0.3; Co: 1.6 +/- 0.2; Cd: 1.5 +/- 0.2). These data demonstrate that 5alpha-reductase type 1 mRNA is differentially expressed but of low abundance along the nonhuman primate epididymis, whereas 5alpha-reductase type 2 gene expression is uniform.
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PMID:Regional distribution of 5alpha-reductase type 1 and type 2 mRNA along the nonhuman primate (Macaca fascicularis) epididymis. 943 32

Photochemical characteristics and substrate properties of four newly synthesized dCTP analogues: N4-[2-(2-nitro-5-azidobenzoylamino)ethyl]-, N4-[2-(4-azidotetrafluorobenzylideneaminooxymethylcarbamoyl)ethyl] -, N4-[4-(4-azidotetrafluorobenzylideneaminooxy)butyloxy]-, and N4-[4-(4-azidotetrafluorobenzylidene hydrazinocarbonyl)butylcarbamoyl]-, and N4-[4-(4-azidotetrafluorobenzylideneaminooxy)butyloxy]-2'-de oxycytidine 5'-triphosphates as well as those of the earlier described N4-[2-(4-azidotetrafluorobenzoylamino)ethyl]- and 5-[E-3-(4-azidotetrafluorobenzoylamino)-1-propenyl)]-2'-deoxycytid ine 5'-triphosphates were compared. When being irradiated with UV light at a wavelength of 303-313 nm, the new analogues demonstrated greater than 10-fold higher photoactivity as compared with the old compounds. The first three new compounds were utilized by HIV-1 reverse transcriptase as dCTP and dTTP, while the last derivative was recognized only as dTTP. Once incorporated into the primer 3'-terminus, none of the analogues synthesized terminated further primer elongation with natural triphosphates.
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PMID:[New photoreactive N(4)-substituted dCTP analogues:synthesis, photochemical characteristics, and substrate properties in HIV-1 reverse transcriptase catalyzed DNA synthesis]. 947 78

The carcinogen ethylene dibromide (EDB) has been shown to cause glutathione (GSH)-dependent base-substitution mutations, especially GC to AT transitions, in a variety of bacterial and eukaryotic systems. The known DNA adducts S-[2-(N7-guanyl)ethyl]GSH, S-[2-(N2-guanyl)ethyl]GSH, and S-[2-(O6-guanyl)ethyl]GSH were individually placed at a site in a single oligonucleotide. Polymerase extension studies were carried out using Escherichia coli polymerase I exo- (Klenow fragment, Kf-) and polymerase II exo- (pol II-), bacteriophage T7 polymerase exo-, and human immunodeficiency virus-1 reverse transcriptase in order to characterize misincorporation events. Even though extension was not as efficient as with the nonadducted template, some fully extended primers were observed with the template containing S-[2-(N7-guanyl)ethyl]GSH using all of these polymerases. dCTP was the most preferred nucleotide incorporated opposite S-[2-(N7-guanyl)ethyl]GSH by most of polymerases examined; however, dTTP incorporation was observed opposite S-[2-(N7-guanyl)ethyl]GSH with pol II-. Both S-[2-(N2-guanyl)ethyl]GSH and S-[2-(O6-guanyl)ethyl]GSH strongly blocked replication by all polymerases. Only dATP and dGTP were incorporated opposite S-[2-(N2-guanyl)ethyl]GSH by both Kf- and pol II-. S-[2-(O6-Guanyl)ethyl]GSH was shown to strongly code for dATP incorporation by Kf-. With pol II-, dTTP was incorporated opposite S-[2-(O6-guanyl)ethyl]GSH. In conclusion, all three GSH-guanyl adducts derived from the carcinogen EDB blocked the polymerases and were capable of miscoding.
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PMID:Polymerase blockage and misincorporation of dNTPs opposite the ethylene dibromide-derived DNA adducts S-[2-(N7-guanyl)ethyl]glutathione, S-[2-(N2-guanyl)ethyl]glutathione, and S-[2-(O6-guanyl)ethyl]glutathione. 954 1

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