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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The in vitro fidelity of reverse transcriptase from human immunodeficiency virus type I (HIV-1 RT) upon copying an RNA template was measured using the phi Xam 16 reversion assay. A phi X174 sequence harboring the amber 16 codon was cloned into a transcription vector. RNA obtained from transcription by bacteriophage T7 RNA polymerase was used as a template for RNA-directed DNA synthesis by HIV-1 RT. An imbalance of dNTP concentrations during the reverse transcription step served to distinguish between errors that arose from the transcription step and errors from reverse transcription. The frequency of dGTP.U mismatches was determined to be 1/360, while dGTP.rA mismatches formed at a rate of 1/4600. These are 20-fold and sevenfold higher, respectively, than the error rates determined for the same sequence with a DNA template. Due to a high background of errors in the RNA template originating from the transcription step only upper limits for the frequency of three other mismatches can be given. The data indicate that the reverse transcription step of the HIV-1 replication cycle contributes significantly to the generation of mutant viruses.
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PMID:Fidelity of human immunodeficiency virus type I reverse transcriptase in copying natural RNA. 137 12

AIDS, caused by human immunodeficiency virus (HIV), is one of the world's most serious health problems, with current protocols being inadequate for either prevention or successful long-term treatment. In retroviruses such as HIV, the enzyme reverse transcriptase copies the single-stranded RNA genome into double-stranded DNA that is then integrated into the chromosomes of infected cells. Reverse transcriptase is the target of the most widely used treatments for AIDS, 3'-azido-3'-deoxythymidine (AZT) and 2',3'-dideoxyinosine (ddI), but resistant strains of HIV-1 arise in patients after a relatively short time. There are several nonnucleoside inhibitors of HIV-1 reverse transcriptase, but resistance to such agents also develops rapidly. We report here the structure at 7 A resolution of a ternary complex of the HIV-1 reverse transcriptase heterodimer, a monoclonal antibody Fab fragment, and a duplex DNA template-primer. The double-stranded DNA binds in a groove on the surface of the enzyme. The electron density near one end of the DNA matches well with the known structure of the HIV-1 reverse transcriptase RNase H domain. At the opposite end of the DNA, a mercurated derivative of UTP has been localized by difference Fourier methods, allowing tentative identification of the polymerase nucleoside triphosphate binding site. We also determined the structure of the reverse transcriptase/Fab complex in the absence of template-primer to compare the bound and free forms of the enzyme. The presence of DNA correlates with movement of protein electron density in the vicinity of the putative template-primer binding groove. These results have important implications for developing improved inhibitors of reverse transcriptase for the treatment of AIDS.
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PMID:Structure of HIV-1 reverse transcriptase/DNA complex at 7 A resolution showing active site locations. 137 66

Reverse transcriptase sequences, which are fundamental to retrovirus existence, are widely distributed in the living world. Phylogenies based on their sequences set vertebrate retroviruses apart as relatively modern creations. Their nearest evolutionary relatives are a large group of transposable elements that have all the standard retrovirus equipment except spliced envelope proteins. The distribution of these elements suggests a long-standing presence predating the radiation of plants, fungi, and animals. There is another large group of elements, LINEs, that also contain recognizable reverse transcriptase sequences and which likely diverged even earlier, as evidenced by their presence in trypanosomes and other protists. They lack tRNA priming sites--which they could have lost--but they do exhibit characteristic eukaryotic polyadenylation. These elements are problematic in that the sequences are so degenerate in most instances that it is not possible to identify the accessory enzymes or structural proteins with any confidence, leaving major gaps in our reconstruction of events. Even with these gaps, however, the historical beginnings of retroviruses can be traced back to events coincident with the prokaryotic invasion of primitive eukaryotes.
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PMID:Tracing the origin of retroviruses. 137 25

The kinetics of copying of poly(A).(dT)n, poly(A).(U)n, poly(dA).(dT)n and poly(A).(dT)9-U by reverse transcriptase of human immunodeficiency virus-1 (HIV-1) has been studied and the binding affinity of the enzyme, for template or primer, determined. Short oligonucleotides and dTTP served as primers in the HIV-1 reverse-transcriptase-dependent DNA synthesis. Km and Vmax were measured as functions of the primer chain length; the logarithm of the values of both Km and Vmax increased linearly up to 10. For longer primers (n = 11 to n = 24) the increase of those values changes very little. The enhanced affinity of the primers, (dT)n or (U)n due to the formation of one complementary pair, A.dT, dA.dT, A.U was estimated as a factor of 2. A specific property of HIV-1 reverse transcriptase compared with other DNA polymerases (procaryotes, eucaryotes, other retroviruses and archaebacteria) was its higher affinity to riboprimers as compared to deoxyriboprimers. Relative initial rates when copying poly(A) or poly(dA) templates using different primers and various conditions were compared; the optimal temperature for the reaction of polymerization with poly(A) or poly(dA) templates and (U)10, (dT)10 or (dT)9-U primers was determined. The maximal activity of the enzyme in the case of poly(A) and decanucleotide primers was found at temperatures between 27-31 degrees C. An increase in the primer length results in the stabilization of the template.primer duplex complexed to the enzyme, thus increasing to more than 40 degrees C the optimal temperature of polymerization. The activation energy (Ea) values of the polymerization reaction for different template.primer complexes were evaluated.
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PMID:Functional analysis of primers and templates in the synthesis of DNA catalyzed by human immunodeficiency virus type 1 reverse transcriptase. 137 4

Sequence variation in the type 1 human immunodeficiency virus (HIV-1) results, in part, from inaccurate replication by reverse transcriptase. Although this enzyme is error-prone during synthesis in vitro with DNA templates, the fidelity of RNA-dependent DNA synthesis relevant to minus-strand replication in the virus life cycle has not been examined extensively. In the present study, we have developed a system to determine the fidelity of transcription and reverse transcription and have used it to compare the fidelity of DNA synthesis by the HIV-1 reverse transcriptase with RNA and DNA templates of the same sequence. Overall, fidelity was several-fold higher with RNA than with DNA. Sequence analysis of mutants generated with the two substrates revealed that differences in error rates were substantial for specific errors. Fidelity with RNA was greater than 10-fold higher for substitution and minus-one nucleotide errors at five different homopolymeric positions. Because such errors likely result from template-primer slippage, this result suggests that misaligned intermediates are formed and/or used less frequently with an RNA template-DNA primer than with a DNA template-DNA primer. The results also suggest that HIV-1 reverse transcriptase synthesis with an RNA template-DNA primer was error-prone during incorporation of the first two nucleotides, perhaps due to aberrant enzyme-substrate interactions as synthesis initiates. The unequal error rates with RNA and DNA templates suggest that mistakes during minus- and plus-strand DNA synthesis may not contribute equally to the mutation rate of HIV-1. The data also provide estimates of substitution and frameshift error rates during transcription by T7 RNA polymerase.
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PMID:Unequal human immunodeficiency virus type 1 reverse transcriptase error rates with RNA and DNA templates. 137 27

Studies from several laboratories have provided evidence that distinct stromal cell-derived signals are involved in the maturation of pre-B cells into surface Ig expressing B lymphocytes. In order to define the stage of development at which these stimuli act, various polymerase chain reaction strategies were used to characterize the status of kappa L chain gene rearrangements in nontransformed, stromal cell dependent pre-B cells. These cells were obtained from lymphoid colonies whose growth was potentiated by factors from a stromal cell line. kappa L chain genes in cells from many of these colonies were rearranged, and analysis of the Jk genes used indicated a bias toward the most 3' loci. However, the use of a reverse transcriptase PCR strategy failed to detect mature kappa transcripts, indicating that stromal cell mediators exist that allow pre-B cells to progress to the stage at which L chain genes are rearranged but not expressed. Reverse transcriptase PCR further revealed that no transcripts for c-kit (the receptor for kit-ligand) and the IL-7R could be detected in these cells. This suggests that these receptors are no longer expressed by the time cells have undergone kappa rearrangements and minimize a role for stromal cell-derived kit-ligand and IL-7 in mediating the pre-B to B cell transition.
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PMID:Status of kappa L chain gene rearrangements and c-kit and IL-7 receptor expression in stromal cell-dependent pre-B cells. 138 91

Reverse transcriptase (RNA-directed DNA polymerase, EC 2.7.7.49) of human immunodeficiency virus type 1 has been examined with respect to the steady-state kinetics of polymerization of dNTPs into product DNA. With dNTPs as variable substrate, the kinetics of polymerization deviated from standard Michaelis-Menten kinetics. Substrate inhibition was observed at high substrate concentrations and negative cooperativity was seen at lower substrate concentrations. Examination of incorporation of substrate dNMPs in the presence of nucleotides not complementing the template demonstrated that dNTPs may act as noncompetitive inhibitors, as well as substrate. The Ki of the enzyme for dNTPs was 104 microM. A working model is presented that accounts for the substrate inhibition. In this model, the reverse transcriptase is a multisubunit holoenzyme, where noncompetitive inhibition is mediated by one subunit binding nucleotide and down-regulating the enzymatically active 64-kDa subunit. With additional assumptions, this model can accommodate the negative cooperativity observed.
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PMID:Regulation of the reverse transcriptase of human immunodeficiency virus type 1 by dNTPs. 138 60

The arsenic resistance operon from Staphylococcus aureus plasmid pI258 was cloned and sequenced. The DNA sequence contains three genes in the order arsR, arsB, and arsC. The predicted amino acid sequences of the gene products are homologous with those of the products of the ars operons of plasmids pSX267 from Staphylococcus xylosus and R773 from Escherichia coli. The cloned staphylococcal ars operon confers resistances to arsenate, arsenite, and antimonite in S. aureus and Bacillus subtilis. The same operon was also expressed in E. coli and conferred resistance to arsenite but less resistance to arsenate and antimonite. Regulation of the pI258 ars operon was studied by using a translational arsB-blaZ fusion in S. aureus and a transcriptional arsB-luxAB fusion in E. coli. The ars operon was induced by arsenate [As(V)], arsenite [As(III)], and antimonite [Sb(III)], to which the strains were resistant, plus Bi(III) in S. aureus. Only arsenate and arsenite induced the operon in E. coli. Northern (RNA) blot DNA-RNA hybridization analysis showed inducible synthesis of a full-length ars mRNA, about 2.1 kb in size, both in S. aureus and in E. coli. S. aureus ars proteins were expressed in E. coli from the T7 phage promoter under the control of the T7 RNA polymerase. Primer extension (reverse transcriptase) analysis showed that the ars mRNA started at the same position (nucleotides 17 and 18 upstream from the arsR ATG) both in S. aureus and in E. coli. An internal deletion mutation in arsB resulted in decreased resistance to arsenate and total loss of arsenite and antimonite resistances. Partial deletion of 56 bp from the 3' end of the arsC gene resulted in loss of resistance to arsenate; the determinant retained arsenite and antimonite resistances.
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PMID:Regulation and expression of the arsenic resistance operon from Staphylococcus aureus plasmid pI258. 153 28

The dispersion of short interspersed elements (SINEs) probably occurred through an RNA intermediate. B1 is a murine homolog of the human SINE Alu; these elements are composed of 5' G + C-rich regions juxtaposed to A-rich tracts and are flanked by direct repeats. Internal promoters direct RNA polymerase III to transcribe B1 and Alu elements and proceed into the 3' flanking DNA until it reaches a (dT)4 termination signal. The resulting transcripts contain 3'-terminal oligo(U) tracts which can presumably base pair with the A-rich tract to form self-primed templates for reverse transcriptase and retrotransposition. Nuclear extracts from mouse tissue culture cells contain an RNA processing activity that removes the A-rich and 3'-terminal regions from purified B1 RNAs (R. Maraia, Nucleic Acids Res. 19:5695-5702, 1991). In this study, we examined transcription and RNA processing in these nuclear extracts. In contrast to results with use of purified RNA, nascent transcripts synthesized in nuclear extract by RNA polymerase III are not processed, suggesting that the transposition-intermediate-like RNA is shielded from processing by a protein(s). Alteration of an AATTTT TAA termination signal to a GCTTTTGC signal activated processing by greater than 100-fold in coupled transcription/processing reactions. A similar difference was found when expression was compared in frog oocytes. No difference in processing was found if the transcripts were made by T7 RNA polymerase in the presence of the nuclear extract, indicating that the different processing effects of the two terminators were dependent on synthesis by polymerase III. The modulation of processing of B1-Alu transcripts and the potential for retrotransposition of B1 and Alu DNA sequences are discussed.
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PMID:The RNA polymerase III terminator used by a B1-Alu element can modulate 3' processing of the intermediate RNA product. 154 7

The 20 S RNA genome is a circular single-stranded replicon, present in most laboratory yeast strains, whose copy number is induced 10,000-fold by transfer of cells to acetate medium without a carbon source. We have sequenced most of the 20 S RNA genome, and the (+) strand has a long open reading frame with the potential to encode a protein with homology to viral RNA-dependent RNA polymerases. The presence of a typical cAMP-dependent phosphorylation site in the putative RNA polymerase suggests that the acetate amplification of the 20 S RNA genome might be mediated by cAMP, a signal known to transmit the same nutritional status information to the sporulation-control system. Our inability to clone across the gap in the sequence suggests either autocatalytic cleavage of the RNA in the reverse transcriptase reaction, an unusual linkage of 5' and 3' ends of a fundamentally linear molecule, or a structure unusually resistant to reverse transcription. The identity of our sequence with that of the accompanying paper (Rodriguez-Cousino, N., Esteban, L.M., and Esteban, R. (1991) J. Biol. Chem. 266, 12772-12778) for W double-stranded RNA (dsRNA) suggests that W is the replicative form of 20 S RNA. The presence of single-stranded (+) and (-) strands and greater than unit length molecules suggests a rolling circle mode of replication as has been suggested for viroids.
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PMID:Yeast 20 S RNA replicon. Replication intermediates and encoded putative RNA polymerase. 164 4


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