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 nucleotide sequence of the human spumaretrovirus (HSRV) genome was determined. The 5' long terminal repeat region was analyzed by strong stop cDNA synthesis and S1 nuclease mapping. The length of the RU5 region was determined and found to be 346 nucleotides long. The 5' long terminal repeat is 1,123 base pairs long and is bound by an 18-base-pair primer-binding site complementary to the 3' end of mammalian lysine-1,2-specific tRNA. Open reading frames for gag and pol genes were identified. Surprisingly, the HSRV gag protein does not contain the cysteine motif of the nucleic acid-binding proteins found in and typical of all other retroviral gag proteins; instead the HSRV gag gene encodes a strongly basic protein reminiscent of those of hepatitis B virus and retrotransposons. The carboxy-terminal part of the HSRV gag gene products encodes a protease domain. The pol gene overlaps the gag gene and is postulated to be synthesized as a gag/pol precursor via translational frameshifting analogous to that of Rous sarcoma virus, with 7 nucleotides immediately upstream of the termination codons of gag conserved between the two viral genomes. The HSRV pol gene is 2,730 nucleotides long, and its deduced protein sequence is readily subdivided into three well-conserved domains, the reverse transcriptase, the RNase H, and the integrase. Although the degree of homology of the HSRV reverse transcriptase domain is highest to that of murine leukemia virus, the HSRV genomic organization is more similar to that of human and simian immunodeficiency viruses. The data justify classifying the spumaretroviruses as a third subfamily of Retroviridae.
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PMID:Analysis of the primary structure of the long terminal repeat and the gag and pol genes of the human spumaretrovirus. 245 55

Avarol is a sesquiterpenoid hydroquinone, which displays no inhibitory potencies on mammalian DNA polymerases alpha, beta, and gamma, on mammalian RNA polymerases I, II, and III, or on reverse transcriptases from Moloney murine leukemia virus (Mo-MuLV) and from HIV. For a further elucidation of the antiviral effect of Avarol, we used NIH-3T3 cells infected with Mo-MuLV as a model system. The results show that in uninfected NIH-3T3 cells Avarol (i) causes a 50% reduction of the growth rate only at the high concentration of 29.6 microM and (ii) is accumulated in the cytoplasm close to the nucleus. At the much lower concentrations of 1-3 microM, Avarol causes an almost complete inhibition of viral progeny release. Moreover, it is shown that at 3 microM Avarol, the increase of the Mo-MuLV-induced UAG suppressor glutamine tRNA (tRNA(UmUGGln) was reduced to the normal level. Dot blot hybridization studies revealed that Avarol displays no inhibitory activity on cellular and viral mRNA synthesis. Taking the processing pathway of viral polyprotein Pr180gag,pol to p80 (reverse transcriptase) as an example, our Western blotting experiments showed that the final maturation process, conversion of p110 to p80, is inhibited in Avarol-treated cells. From these data we conclude that Avarol prevents the suppression of the UAG termination codon at the gag-pol junction of the retroviral genome. The functional consequence of this event is very likely an inhibition of the readthrough of the retroviral protease gene which overlaps the pol and gag genes, resulting in the reduction of the protease synthesis which is necessary for the viral proliferation.
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PMID:Selective inhibition of formation of suppressor glutamine tRNA in Moloney murine leukemia virus-infected NIH-3T3 cells by Avarol. 245 80

The Mauriceville and Varkud mitochondrial plasmids of Neurospora are closely related DNA elements whose nucleotide sequences and genetic organization suggest relationships to retrotransposons and mitochondrial introns. Both plasmids potentially encode a reverse transcriptase-like protein of 710 amino acids. We show that mitochondria from the Mauriceville and Varkud strains contain a reverse transcriptase activity highly specific for endogeneous plasmid RNA in RNP preparations. The reverse transcriptase synthesizes full-length minus-strand DNA beginning at the 3' end of the plasmid transcript, which has tRNA-like characteristics similar to the 3' ends of plant viral RNAs. Our results suggest that the plasmids use a novel mechanism of reverse transcription, which may have evolved to utilize tRNA-like structures at the 3' ends of self-replicating RNAs. This mechanism may be ancestral to the standard retroviral mechanism.
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PMID:A novel reverse transcriptase activity associated with mitochondrial plasmids of Neurospora. 246 Feb 46

Domain VI at the 3' end of the 23 S ribosomal RNA from Escherichia coli was prepared using the in vitro T7 RNA polymerase system. Its structure was examined by probing with ribonucleases and chemical reagents, including a psoralen derivative, of various nucleotide specificities, using a reverse transcriptase procedure for analysis. The data provided support for the most recent secondary structure derived from phylogenetic sequence comparisons and for additional structuring that was inferred from earlier experimental data. Moreover, the structure was essentially the same in the free domain, in renatured 23 S RNA and in 50 S subunits. Protein L3 bound to the isolated domain and its binding site was located at a long-range double helix containing a large internal loop. This structure is unusual for a protein-RNA binding site and it may characterize a new (third) class of site. Protein L3 has been implicated, together with L24, in initiating assembly of the 50 S subunit and it shares the exceptional property with L24 that it binds adjacent to the junction of two RNA domains from where it can maximally influence RNA folding. Protein L6 also assembled to domain VI and, in a control experiment, protein L2 bound to isolated domain IV. Domain VI was largely inaccessible in the 50 S subunit and the few accessible RNA sites occurred mainly within conserved sequence regions that constitute potential functional sites. alpha-Sarcin inactivates ribosomes by cutting at one of these sites in 50 S subunits; it also recognized the same site in the free 23 S RNA and in the free domain. Both the EF-Tu ternary complex, and the EF-G ternary complex stabilized by fusidic acid or by a non-hydrolyzable GTP derivative, inhibited alpha-sarcin attack while non-enzymatically bound tRNA did not, thus providing evidence, more direct than before, for the involvement of the RNA region in a common elongation factor binding site.
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PMID:Domain VI of Escherichia coli 23 S ribosomal RNA. Structure, assembly and function. 246 15

We have sequenced Bs1, an insertion element isolated from a null allele of the Adh1 locus encoding alcohol dehydrogenase in maize. The Bs1 element is 3203 base pairs (bp) in length, has 302-bp identical long terminal direct repeats (LTRs), and created a 5-bp flanking direct duplication of target Adh1 DNA upon insertion. The 5' LTR is followed by a canonical primer binding site with homology to the plant initiator methionyl-tRNA, and the 3' LTR is directly preceded by a polypurine stretch like that observed in retroviruses and retrotransposons. Bs1 encodes two overlapping open reading frames specifying peptides of 740 and 168 amino acids. The longer open reading frame specifies a peptide with amino acid homology to the protease and nucleic acid binding moiety of retroviruses and retrotransposons. The deduced amino acid sequence encoded by Bs1 lacks convincing homology to the polymerase (reverse transcriptase) encoded by retroposons, despite the fact that this polymerase-encoding domain is routinely the most conserved region of any such element. The sequence and relatively small size of Bs1 suggest that this element is a deleted retrotransposon that inserted into Adh1 with the aid of a reverse transcriptase function provided in trans. In vitro transcribed Bs1 complementary RNA was translated in vitro to produce both a protein of 81 kDa representing open reading frame 1 (ORF1) and one of the 95-kDa size predicted for the frame-shifted fusion of ORF1 and ORF2. As with many other retroposons, the efficiency of translational initiation at the AUG beginning ORF1 was not noticeably affected by the presence of one or more upstream, unproductive AUGs in the complementary RNA transcript.
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PMID:Structure and coding properties of Bs1, a maize retrovirus-like transposon. 247 29

The virion cores of the replication competent type 1 human immunodeficiency virus (HIV-1), a retrovirus, contain and RNA genome associated with nucleocapsid (NC) and reverse transcriptase (RT p66/p51) molecules. In vitro reconstructions of these complexes with purified components show that NC is required for efficient annealing of the primer tRNALys,3. In the absence of NC, HIV-1 RT is unable to retrotranscribe the viral RNA template from the tRNA primer. We demonstrate that the HIV-1 RT p66/p51 specifically binds to its cognate primer tRNALys,3 even in the presence of a 100-fold molar excess of other tRNAs. Cross-linking analysis of this interaction locates the contact site to a region within the heavily modified anti-codon domain of tRNALys,3.
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PMID:HIV-1 reverse transcriptase specifically interacts with the anticodon domain of its cognate primer tRNA. 247 43

The ribosome binding site of the Escherichia coli lacZ mRNA has been characterized by using an RNA footprinting technique. Purified E. coli 70S ribosomes and fMet-tRNA were incubated with mRNA, and the complex was treated with RNA-reactive reagents or RNases as probes. The protected sites on the mRNA were then mapped by extending a radioactive primer with reverse transcriptase. Dimethyl sulfate, diethyl pyrocarbonate, and 1,10-phenanthroline-copper ion oxidative complex were used as reagent probes; they detected interaction sites within the ribosome binding site. A region of approximately 35 nucleotides was protected by the ribosome, specifically across the Shine-Dalgarno region, around the fMet initiation codon, and at a region 7-12 nucleotides distal to the fMet codon. In addition, an enhanced reaction occurred between the fMet codon and the distal site. These results imply an internally selective interaction between the ribosome and the mRNA sequence. The enhanced reactivity of a site distal to the initiation site--flanked by the AUG codon and a site previously identified as conserved in a study of initiation sequences--may indicate a region where the mRNA is specifically exposed.
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PMID:Mapping the lacZ ribosome binding site by RNA footprinting. 248 94

The lily retrotransposon del 1-46 is 9345 base pairs (bp) long. It has long terminal repeats (LTRs) of 2406 bp (left) and 2415 bp (right), which differ in sequence by 1.4%. Sequences similar to those involved in priming DNA synthesis in retroviruses occur in the internal region. Near the left LTR is a sequence complementary to 18 residues at the 3' end of methionine initiator tRNA of three plant species, and a run of 12 purines occurs close to the right LTR. One internal reading frame of del 1-46 has relatively few stop codons. The 1462-codon product from this frame has motifs, in N to C terminus order, corresponding to those identified with RNA binding, protease, reverse transcriptase, RNase H, and integrase functions in retroviruses and certain other retrotransposons. Amino acid sequence comparisons of three conserved pol regions show del to be closely related to the Ty3 retrotransposon of yeast (37-40% identity). del is also related to the gypsy group of Drosophila (17.6, 297, gypsy/mdg4, and 412), showing closer identity with their reverse transcriptase (32-38%) and RNase H (36-45%) domains than with their integrase domain (21-26%). It is proposed that a gypsy group ancestor exchanged the integrase region with a more distantly related element since its divergence from a del/Ty3 common ancestor. The occurrence of related retrotransposons in three different kingdoms (plants, animals, and fungi) strongly implies their horizontal transmission in recent evolutionary time.
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PMID:Plant retrotransposon from Lilium henryi is related to Ty3 of yeast and the gypsy group of Drosophila. 254 87

The gene coding for Escherichia coli arginyl-tRNA synthetase (argS) was isolated as a fragment of 2.4 kb after analysis and subcloning of recombinant plasmids from the Clarke and Carbon library. The clone bearing the gene overproduces arginyl-tRNA synthetase by a factor 100. This means that the enzyme represents more than 20% of the cellular total protein content. Sequencing revealed that the fragment contains a unique open reading frame of 1734 bp flanked at its 5' and 3' ends respectively by 247 bp and 397 bp. The length of the corresponding protein (577 aa) is well consistent with earlier Mr determination (about 70 kd). Primer extension analysis of the ArgRS mRNA by reverse transcriptase, located its 5' end respectively at 8 and 30 nucleotides downstream of a TATA and a TTGAC like element (CTGAC) and 60 nucleotides upstream of the unusual translation initiation codon GUG; nuclease S1 analysis located the 3'-end at 48 bp downstream of the translation termination codon. argS has a codon usage pattern typical for highly expressed E. coli genes. With the exception of the presence of a HVGH sequence similar to the HIGH consensus element, ArgRS has no relevant sequence homologies with other aminoacyl-tRNA synthetases.
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PMID:Isolation and characterization of the gene coding for Escherichia coli arginyl-tRNA synthetase. 266 91

Ty3, a retrotransposon of Saccharomyces cerevisiae, is found within 20 base pairs (bp) of the 5' ends of different tRNA genes. Determination of the complete nucleotide sequence of one Ty3 retrotransposon (Ty3-2) shows that the element is composed of an internal domain 4,748 bp long flanked by long terminal repeats of the 340-bp sigma element. Three open reading frames (ORFs) longer than 100 codons are present in the sense strand. The first ORF, TYA3, encodes a protein with a motif found in the nucleic acid-binding protein of retroviruses. The second ORF, TYB3, has homology to retroviral pol genes. The deduced amino acid sequence of the reverse transcriptase domain shows the greatest similarity to Drosophila retrotransposon 17.6, with 43% identical residues. The inferred order of functional domains within TYB3--protease, reverse transcriptase, and endonuclease--resembles the order in Drosophila element 17.6 and in animal retroviruses but is different from that found in yeast elements Ty1 and Ty2. A second Ty3 element (Ty3-1) from a standard laboratory strain was overexpressed and shown to transpose.
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PMID:Ty3, a yeast retrotransposon associated with tRNA genes, has homology to animal retroviruses. 285 94

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