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)

The biochemical properties of the p51 subunit of HIV-1 reverse transcriptase (RT) were studied in order to understand its role in the heterodimeric form p66/p51 found in virions. A recombinant form of RT, p51/p51, expressed in yeast, was purified and characterized. The enzyme was affinity labeled using a 5' modified oligonucleotide primer, covalently linked, that was further elongated in the presence of a radioactive dNTP precursor. We found that the p51 subunit was labeled in the p51/p51 form, thus reflecting its activity, while this subunit was catalytically silent in the heterodimer, since only the p66 subunit was labeled in the latter recombinant form. Processivity studies showed long-sized products synthesized by p51/p51, as in the case of the other RT forms. The effect of primer tRNA(Lys) on the p51/p51 activity showed a strong inhibitory effect in the absence of KCl, similar to that observed with the p66/p51 form, while the same p51/p51 enzyme was strongly stimulated by tRNA(Lys), like RT p66/p66, when KCl was present in the incubation mixture.
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PMID:Biochemical characterization of the p51 sub-unit of human immunodeficiency virus reverse transcriptase in homo- and heterodimeric recombinant forms of the enzyme. 128 Jun

RNase D was recently reported as a new enzymatic activity associated with HIV-1 reverse transcriptase (RT), cleaving RNA at two positions within the double-stranded region of the tRNA primer-viral RNA template complex (Ben-Artzi et al., Proc. Natl. Acad. Sci. USA 89 (1992) 927-931). This would make RNase D a fourth distinct activity of HIV-1 RT, in addition to RNA- and DNA-dependent DNA polymerase and RNase H. Using a specific substrate containing tRNA(Lys,3) hybridized to the primer binding site, we were able to detect the reported RNase D activity in our preparations of recombinant HIV-1 RT. This activity was also present in several active-site mutants of RT, suggesting that it is independent of the RNase H and polymerase functionalities of RT. Furthermore, we found that the cleavage specificity of RNase D is the same as that of RNase III isolated from E.coli. A likely explantation of these results--that the observed RNase D activity is attributable to traces of RNase III contamination--was further strengthened by the finding that the recombinant preparations of HIV-1 RT can specifically cleave a phage T7-derived double-stranded RNA processing signal, which has been used as a model substrate for detection of E.coli RNase III. Moreover, RT purified from an RNase III- strain of E.coli displayed no cleavage of the tRNA primer-RNA template complex.
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PMID:RNase D, a reported new activity associated with HIV-1 reverse transcriptase, displays the same cleavage specificity as Escherichia coli RNase III. 128 Aug 10

We have determined the DNA structure of the Ulysses transposable element of Drosophila virilis and found that this transposon is 10,653 bp and is flanked by two unusually large direct repeats 2136 bp long. Ulysses shows the characteristic organization of LTR-containing retrotransposons, with matrix and capsid protein domains encoded in the first open reading frame. In addition, Ulysses contains protease, reverse transcriptase, RNase H and integrase domains encoded in the second open reading frame. Ulysses lacks a third open reading frame present in some retrotransposons that could encode an env-like protein. A dendrogram analysis based on multiple alignments of the protease, reverse transcriptase, RNase H, integrase and tRNA primer binding site of all known Drosophila LTR-containing retrotransposon sequences establishes a phylogenetic relationship of Ulysses to other retrotransposons and suggests that Ulysses belongs to a new family of this type of elements.
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PMID:Ulysses transposable element of Drosophila shows high structural similarities to functional domains of retroviruses. 131 87

Approximately 2% of the Dictyostelium discoideum genome consists of multiple copies of a retrotransposable element termed DRE (Dictyostelium Repetitive Element). These elements have always been found integrated in a position and orientation-specific manner 50 +/- 4 nucleotides upstream of the coding region of tRNA genes (tDNAs). An intact DRE is 5.7 kb long. It carries an extensive coding region flanked by non-identical long terminal repeats (LTRs), composed of three distinct modules A, B and C. The left LTR proximal to the tRNA gene contains one or several A-modules followed by a single B-module (AnB). By contrast, the right LTR is composed of a B-module followed by a C-module (BC). Approximately 50% of the DRE elements in NC4 derivatives of D. discoideum are structurally different from the 5.7 kb DRE described above. They carry the following alterations: a) a 3.1 kb deletion in the coding region; b) two small deletions of 8 and 29 nucleotides in the B-module of the right LTR; c) a 72 bp deletion in the B-C junction; and d) three distinct point mutations within the A-module of the left LTR. The deletion in the open reading frame encompasses the putative coding regions for reverse transcriptase adn integrase. At least 60 copies of this smaller 2.4 kb DRE subtype are found in the genome of D. discoideum NC4 strains associated with tRNA genes. Thus, inspite of their lack in reverse transcriptase and integrase those 2.4 kb elements are presumably transposable and at least all isolated copies are found exclusively in the proximity of tRNA gene loci. The enzymes needed for their replication and transposition are likely to be provided by the intact 5.7 kb DREs.
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PMID:Two distinct subforms of the retrotransposable DRE element in NC4 strains of Dictyostelium discoideum. 133 70

A synthetic RNA oligonucleotide (15-mer) corresponding to the 3' end of the lysine tRNA primer was hybridized to single-stranded DNA containing the human immunodeficiency virus type 1 (HIV-1) primer-binding site and extended with a DNA polymerase. The resulting structures were used to study primer removal by the RNase H activity of HIV-1 reverse transcriptase. The initial cleavage event removes the RNA primer as a 14-mer and leaves a single ribonucleotide A residue bound to the 5' end of the DNA strand. This result explains the observation by several groups that HIV-1 circle junctions contain 4 bp that are not present in the integrated provirus instead of the predicted 3 bp. Subsequent cleavage events occur at other sites internal to the RNA molecule, and the ribonucleotide A residue on the end of the DNA strand is ultimately removed. Therefore, the biologically relevant cleavage that produces the 14-mer reflects the kinetics of the reaction as well as a specificity for nucleic acid sequence. When the RNA oligonucleotide alone was hybridized to the primer-binding site and tested as a substrate for HIV-1 RNase H, the cleavage pattern near the 3' end of the RNA was altered.
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PMID:Incomplete removal of the RNA primer for minus-strand DNA synthesis by human immunodeficiency virus type 1 reverse transcriptase. 137 87

Ty3 is a Saccharomyces cerevisiae retrotransposon that integrates near the transcription initiation sites of polymerase III-transcribed genes. It is distinct from the copialike Ty1 and Ty2 retrotransposons of S. cerevisiae in both the sequences of encoded proteins and gene order. It is a member of the gypsylike family of retrotransposons which resemble animal retroviruses. This study was undertaken to investigate the nucleocapsid particle of a transpositionally active gypsylike retrotransposon. Characterization of extracts from cells in which Ty3 expression was induced showed the presence of Ty3 nucleoprotein complexes, or viruslike particles, that migrated on linear sucrose gradients with a size of 156S. These particles are composed of Ty3 RNA, full-length, linear DNA, and proteins. In this study, antibodies raised against peptides predicted from the Ty3 sequence were used to identify Ty3-encoded proteins. These include the capsid (26 kDa), nucleocapsid (9 kDa), and reverse transcriptase (55 kDa) proteins. Ty3 integrase proteins of 61 and 58 kDa were identified previously (L. J. Hansen and S. B. Sandmeyer, J. Virol. 64:2599-2607, 1990). Reverse transcriptase activity associated with the particles was measured by using exogenous and endogenous primer-templates. Immunofluorescence studies of cells overexpressing Ty3 revealed cytoplasmic clusters of immunoreactive proteins. Transmission electron microscopy showed that Ty3 viruslike particles are about 50 nm in diameter. Thus, despite the unusual position specificity of Ty3 upstream of tRNA-coding regions, aspects of the Ty3 life cycle are fundamentally similar to those of retroviruses.
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PMID:Ty3 GAG3 and POL3 genes encode the components of intracellular particles. 137 Nov 65

Full-length and 5'-truncated variants of human (h) tRNA(UUULys3) were synthesized by in vitro transcription using SP6 RNA polymerase. Bovine(b) tRNA(SUULys3) was purified from calf liver. Both full-length tRNA species were shown to be biologically active in an aminoacylation assay. Gel retardation assays revealed that both full-length tRNA species, as well as a 5'-truncated h-tRNA(UUULys3) molecule containing 24 nucleotides (nt) at the 3' end (Lys24), interact with human immunodeficiency virus (HIV)-1 reverse transcriptase (RT). Competition studies with these three tRNA species demonstrate that the 3' end of h-tRNA(UUULys3) contributes to the interaction with HIV-1 RT. Escherichia coli tRNA(UUULys) and tRNA(UUCGlu2) were also able to interact with the enzyme, whereas unrelated RNA molecules such as E. coli 5S rRNA did not bind to RT. Both b-tRNA(SUULys3) and h-tRNA(UUULys3) molecules, as well as the 5'-truncated variants, could be demonstrated to prime cDNA synthesis specifically using a HIV-1 RNA template, prepared by in vitro transcription, indicating that other viral or cellular proteins are not essential for this process. E. coli tRNA(UUULys) and tRNA(UUCGlu2), although able to interact with HIV-1 RT, failed to prime retroviral transcription. Products of cDNA synthesis were characterized by polymerase chain reaction, demonstrating that at least 18 nt at the 3' ends of h-tRNA(UUULys3) and b-tRNA(SUULys3) are still present in the cDNA product, whereas the 5' ends of both primer molecules were removed by the RNase H activity of HIV-1 RT.
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PMID:Synthetic human tRNA(UUULys3) and natural bovine tRNA(UUULys3) interact with HIV-1 reverse transcriptase and serve as specific primers for retroviral cDNA synthesis. 137 59

In vitro DNA synthesis on single stranded templates damaged by singlet oxygen was investigated in the supF tRNA gene sequence, using several DNA polymerases. Singlet oxygen was generated by the thermal decomposition of the water soluble with the endoperoxide of disodium 3,3'-(1,4-naphthylidene) dipropionate (NDPO2). The data demonstrated that damage at deoxyguanosine residues interrupts DNA polymerization. Modified T7 phage and Thermus aquaticus DNA polymerases were found to synthesize DNA fragments which terminated opposite deoxyguanosine, while T4 phage DNA polymerase and avian myeloblast virus reverse transcriptase were blocked one nucleotide 3' to deoxyguanosine positions on the template. DNA polymerase I (Klenow fragment) from Escherichia coli was inhibited at both positions, before and at the putative damaged sites. The blocking lesions, induced by 5 mM NDPO2, were estimated to be approximately 1.5 per 260 nucleotides, corresponding to 2% of deoxyguanosines. The distribution of lesions in the supF gene did not reveal any specific sequence context which showed distinct susceptibility to the attack of singlet oxygen.
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PMID:DNA synthesis blocking lesions induced by singlet oxygen are targeted to deoxyguanosines. 137 92

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

Three families of retrotransposons of rice (Tos1, Tos2, and Tos3) were isolated by using a method based on the sequence conservation of the primer binding site for reverse transcription. This method should be generally applicable for cloning retrotransposon of other plants. One retrotransposon, Tos3-1, was studied in detail. Tos3-1 is 5.2 kb long, has structures common to retrotransposons, such as long terminal repeats (LTR), a primer binding site complementary to the initiator tRNA, a polypurine tract, and generates target sequence duplications flanking the inserted element. Southern blotting analysis showed that sequences homologous to Tos1, 2 and 3 are found in wild rice species as well as in cultivated rice species, but not in maize and tobacco. The copy number and genomic location of the families vary in different strains of one species of wild rice, suggesting that these elements may still be active. Retrotransposons were also screened for by amplification of the reverse transcriptase coding region using the polymerase chain reaction (PCR). At least two types of copia-like elements (Tos4 and Tos5) were found. The total copy number of retrotransposons in the rice genome was estimated to be about 1000. These results suggest that, as in Drosophila, retrotransposons are the major transposon class in rice.
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PMID:Retrotransposon families in rice. 137 4

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