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)

We surveyed the occurrence of unique restriction sites on the cDNAs of viroids, virusoids, and plant viral satellite RNAs that have a circular RNA as an intermediate of replication and found that four such sites would linearize their circular cDNAs. A rapid and simple method was then developed for cloning a naturally occurring viroid from Nematanthus wettsteinii plants. First-strand cDNA was synthesized using random hexanucleotide DNA primers and M-MuLV reverse transcriptase (Superscript RT). Second-strand DNA was synthesized by employing the replacement synthesis method using Escherichia coli RNase H, E. coli DNA polymerase I, E. coli DNA ligase, and beta-NAD+. The circular double-stranded DNA was analyzed for the presence of commonly available, unique restriction sites and subsequently linearized with a selected restriction enzyme. The linear cDNA was ligated to dephosphorylated plasmid vector pGEM 3Z f(+) and cloned in E. coli strain DH5 alpha. This cDNA cloning procedure is suitable for cloning sequence variants of well-characterized viroids, virusoids, certain plant viral satellite RNAs, and new such pathogens of unknown sequence.
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PMID:A rapid and versatile method for cloning viroids or other circular plant pathogenic RNAs. 138 86

To study the subunit structure and the active site of human immunodeficiency virus reverse transcriptase (RT), the enzyme was expressed in E. coli and purified to homogeneity in large quantities. The recombinant enzyme consists of two major polypeptides of 66,000 and 53,000 Da in equimolar amounts and a minor species of 51,000 Da. Amino acid sequence analysis of the recombinant proteins revealed that the amino termini of the two major subunits are identical to that of the virion-derived enzyme. The two cysteinyl residues at positions 38 and 280 in the RT amino acid sequence were replaced by alanine in an attempt to elucidate the role of the sulfhydryl groups in RT enzyme activities, heterodimer formation, and intrasubunit linkage. The results reported here show that the two cysteinyls are dispensable and their absence in the amino acid sequence of the reverse transcriptase does not affect DNA polymerase or ribonuclease H enzyme activities or the formation of heterodimer structures. Furthermore, inhibitors of polymerase activity such as 3-azidothymidine triphosphate, dideoxythymidine triphosphate, and tetrahydroimidazo[4,5,1-JK][1,4]benzodiazepens (1H)-one are equally effective on the mutant containing no cysteinyl residues and the wild-type enzyme.
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PMID:Comparative analysis of native and cysteine-deficient HIV-1 reverse transcriptase. 138 60

The handle region (residues 84-99) in ribonuclease HI (RNase HI) from Escherichia coli, which is rich in basic amino acid residues, was altered by alanine-scanning mutagenesis. Fifteen mutant proteins were purified to homogeneity and analyzed for the enzymatic activity. A mutation of either of 2 tryptophan residues at 85 or 90 resulted in a large increase in the Km value along with a large decrease in the Vmax value. These values probably resulted from conformational changes introduced by the mutations as indicated by the CD spectra of these mutant proteins. All other mutant enzymes had Vmax values similar to that of the wild-type enzyme. In contrast, replacement of any basic amino acid residue in the handle region, except for lysine 86, yielded proteins whose Km values were 3-5-fold higher than the wild-type enzyme. Such effects were shown to be cumulative, suggesting strongly that the cluster of positive charges in the handle region is important for the effective binding of the substrate. Interestingly, the region of human immunodeficiency virus reverse transcriptase with homology to E. coli RNase HI lacks the handle region which may account for the poor RNase H activity of the domain when separated from the polymerase domain.
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PMID:Importance of the positive charge cluster in Escherichia coli ribonuclease HI for the effective binding of the substrate. 164 12

The retroid family consists of all genetic elements that encode a potential reverse transcriptase (RT). Members of this family include a diversity of eukaryotic genetic elements (viruses, transposable elements, organelle introns, and plasmids) and the retrons of prokaryotes. Some retroid elements have, in addition to the RT gene, other genes in common with the retroviruses. On the basis of RT sequence similarity, the retroposon group is defined as the eukaryotic long interspersed nuclear elements, the transposable elements of (1) Drosophila melanogaster (I and F factors), (2) Trypanosoma brucei (ingi element), (3) Zea mays (Cin4), (4) Bombyx mori (R2Bm), and members of the group II introns and plasmids of yeast mitochondria. The data presented here elucidate the extent of the relationships between the retroposons and other retroid-family members. Protein-sequence alignment data demonstrate that subsets of the retroposons contain different assortments of retroviral-like genes. Sequence similarities can be detected between the capsid, protease, ribonuclease H, and integrase proteins of retroviruses and several retroposon sequences. The relationships among the retroposon capsid-like sequences are congruent with the RT sequence phylogeny. In contrast, the similarity between ribonuclease H sequences varies in different subbranches of the retroposon lineage. These data suggest that xenologous recombination (i.e., the replacement of a homologous resident gene by a homologous foreign gene) and/or independent gene assortment have played a role in the evolution of the retroposons.
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PMID:Evolution of retroposons by acquisition or deletion of retrovirus-like genes. 166 70

Reverse transcription of the retroviral RNA genome begins with tRNA-primed synthesis of a minus-strand DNA, which subsequently acts as the template for the synthesis of plus-strand DNA. This plus-strand DNA is initiated at a unique location and makes use of a purine-rich RNA oligonucleotide derived by RNase H action on the viral RNA. To determine the variables that are relevant to successful specific initiation of plus-strand DNA synthesis, we have used nucleic acid sequences from the genome of Rous sarcoma virus along with three different sources of RNase H: avian myeloblastosis virus DNA polymerase, murine leukemia virus DNA polymerase, and the RNase H of Escherichia coli. Our findings include evidence that specificity is controlled not only by the nucleic acid sequences but also by the RNase H. For example, while the avian reverse transcriptase efficiently and specifically initiates on the sequences of the avian retrovirus, the murine reverse transcriptase initiates specifically but at a location 4 bases upstream of the correct site.
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PMID:Specificities involved in the initiation of retroviral plus-strand DNA. 168 26

The gag and pol genes of the human immunodeficiency virus type 1 (HIV-1) (ref. 1) are translated as two polyproteins, Pr55gag and Pr160gag-pol (refs 2-6), which are subsequently cleaved by the action of a virus-encoded protease into the four structural gag proteins of the virion core (p17, p24, p7 and p6) and the pol-encoded enzymes essential for retrovirus replication (protease, reverse transcriptase, ribonuclease H, and endonuclease). Mutational inactivation of the proteases of HIV-1 and other retroviruses results in immature, non-infectious virions, indicating that exogenous inhibition of the protease may represent an attractive approach to anti-AIDS therapy. Here we demonstrate that synthetic peptide analogues, which are potent inhibitors of purified HIV-1 protease, inhibit the processing of the viral polyproteins in cultures of HIV-1-infected T lymphocytes and attenuate viral infectivity.
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PMID:Inhibition of HIV-1 protease in infected T-lymphocytes by synthetic peptide analogues. 168 46

We have modified an Escherichia coli vector expressing 66-kDa HIV-1 reverse transcriptase (p66) so that it simultaneously expresses this and the pol-coded protease. The twin expression cassette yields high quantities of both reverse transcriptase and protease; however, under these conditions, 50% of the over-expressed p66 reverse transcriptase is processed, resulting in accumulation of large quantities of p66/p51 enzyme. Furthermore, addition of a poly(histidine) affinity label at the amino terminus of the reverse-transcriptase-coding sequence (His-p66) permits a simple, rapid purification of milligram quantities of either p66 or p66/p51 enzyme from a crude lysate by metal chelate affinity chromatography. Purified His-p66 and His-p66/His-p51 reverse transcriptase exhibit both reverse transcriptase and RNase H activity. Purification by metal chelate chromatography of a p66/p51 enzyme wherein only the p66 component is labelled strengthens the argument for the existence of a heterodimer.
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PMID:Rapid purification of homodimer and heterodimer HIV-1 reverse transcriptase by metal chelate affinity chromatography. 168 98

Endoribonucleolytic cleavage by the ribonuclease H activity associated with HIV-1 reverse transcriptase was observed in vitro using substrates consisting of synthetic oligodeoxynucleotides hybridized to a 345 nucleotide T7 RNA polymerase transcript derived from the gag region of HIV-1. This observation suggests that a possible mechanism of action of antisense oligonucleotides in the inhibition of viral replication and expression may involve the selective "suicidal" ribonucleolytic cleavage of viral RNA by reverse transcriptase at the site of hybridization of the oligonucleotide.
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PMID:Endoribonucleolytic cleavage of RNA: oligodeoxynucleotide hybrids by the ribonuclease H activity of HIV-1 reverse transcriptase. 169 3

We have analysed the mechanism of ribonuclease H (RNaseH) induced cleavage of a defined RNA-DNA hybrid by human immuno-deficiency virus (HIV-1) reverse transcriptase (RT). An in vitro transcribed RNA labelled at the 3' end was hybridized to a pentadecameric DNA oligonucleotide complementary to an internal region of the RNA. Upon incubation of this RNA-DNA hybrid with recombinant p66 or p66/p51 HIV-1 reverse transcriptase, RT-RNaseH mediated cleavage is observed at most nucleotides within the short hybridized stretch, resulting in a spectrum of RNA fragments extending from the 3' label to this region and differing in length by one nucleotide. The same RNA, this time labelled at the 5' end, yields only one or two major cleavage products corresponding to RNA species extending from the 5' label to the middle of the hybridized region. Such a result can be explained by the action of both endonuclease and 3'----5' exonuclease activities inherent to the C-terminal domain of p66 RT. To investigate how RNaseH cleavage is coupled to reverse transcription, a combination of deoxynucleoside triphosphates was used which allowed controlled extension of the primer DNA. Concomitantly with the elongation of the oligonucleotide primer, RNaseH cleavage proceeds towards the 5' end of the RNA with identical increments, suggesting a simultaneous action of both activities.
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PMID:HIV-1 RT-associated ribonuclease H displays both endonuclease and 3'----5' exonuclease activity. 169 Oct 93

The Mauriceville and Varkud mitochondrial plasmids of Neurospora are closely related, closed-circular DNAs (3.6 and 3.7 kilobases, respectively) that have characteristics of mtDNA introns and retroid elements. The plasmids contain a single long open reading frame (710 amino acids), whose amino-terminal half has structural similarity to reverse transcriptases. Using antibodies against synthetic peptides and trpE fusion proteins, we detected an 81-kDa protein encoded by this open reading frame in mitochondrial preparations from the plasmid-containing strains. This 81-kDa protein cosegregates with reverse transcriptase activity in sexual crosses and comigrates with reverse transcriptase activity in sodium dodecyl sulfate-polyacrylamide gels, where it can be assayed after renaturation of the protein. In glycerol gradients under nondenaturing conditions, the reverse transcriptase activity sediments at approximately 145 kDa, close to the value expected for a dimer of the 81-kDa protein. The 81-kDa protein represents most of the 710-amino acid open reading frame, but may be missing some amino acids at the amino terminus. The regions upstream and downstream of the putative reverse transcriptase domain lack sequences characteristic of gag, protease, RNase H, or integrase domains found in other retroid elements. The plasmid-encoded 81-kDa protein seems to be a novel type of reverse transcriptase that may provide insight into the evolution of these enzymes.
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PMID:Identification of the reverse transcriptase encoded by the Mauriceville and Varkud mitochondrial plasmids of Neurospora. 169 Nov 79

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