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)

Mycoplasmal contamination of HIV-1-infected cells has been found to induce reduction of reverse transcriptase (RT) activity; however, the exact mechanism of this phenomenon was not clearly elucidated. Our results indicate that the apparent reduction in RT activity is due to a calcium-dependent nuclease(s) that is (are) produced by contaminating mycoplasmas. The interference with the RT assay was found to be due to the degradation of products of the RT activity. Addition of EGTA at a 1 mM concentration was sufficient to remove the inhibitory effect. The particular HIV-1-producing cell line that was under study was found to be contaminated with Mycoplasma fermentans and Mycoplasma pirum and the latter was isolated in pure culture. Nuclease activity was also observed with pure cultures of mycoplasmas from different species. The activity was found to be of the endonuclease type because it was active with both supercoiled and linear DNAs.
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PMID:Inhibition of HIV type 1 reverse transcriptase assay by nucleases produced by contaminating mycoplasmas. 753 61

Ribonuclease H is an endonuclease that hydrolyzes the RNA moiety of RNA-DNA duplex molecules. Escherichia coli ribonuclease H is involved in DNA replication, and retroviral ribonuclease H is essential for reverse transcription of the viral genome. To characterize the intramolecular dynamical properties of E. coli ribonuclease H, spin-lattice relaxation rate constants, spin-spin relaxation rate constants and steady state nuclear Overhauser effects for the 15N nuclear spins were measured by using proton-detected heteronuclear NMR spectroscopy. The relaxation data were analyzed by using a series of dynamical models in conjunction with a statistical model selection protocol. Ribonuclease H exhibits a complex array of dynamical features, most notably in the parallel beta-strands of the principal five-stranded beta-sheet, the coiled-coil helical interface, the active site, and the loop regions surrounding the active site. The dynamical properties are correlated with local structural environments of the 15N spins and suggest possible relationships to the functional properties of ribonuclease H. Results for E. coli ribonuclease H are compared to previously reported results for the human immunodeficiency virus type 1 ribonuclease H domain of reverse transcriptase.
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PMID:Backbone dynamics of Escherichia coli ribonuclease HI: correlations with structure and function in an active enzyme. 753 72

The properties of recombinant p66/p51 human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) containing C-terminal truncations in its p66 polypeptide were evaluated. Deletion end points partly or completely removed alpha-helix E' of the RNase H domain (p66 delta 8/p51 and p66 delta 16/p51, respectively), while mutant p66 delta 23/p51 lacked alpha E' and the beta 5'-alpha E' connecting loop. Although dimerization and DNA polymerase properties of all mutants were not significantly different from those of the parental enzyme, p66 delta 16/p51 and p66 delta 23/p51 RT lacked ribonuclease H (RNase H) activity. In contrast, RT mutant p66 delta 8/p51 retained endonuclease activity but lacked the directional processing feature of the parental enzyme. Despite retaining full endoribonuclease function, p66 delta 8/p51 RT barely supported transfer of nascent (-)-strand DNA between RNA templates representing the 5' and 3' ends of retroviral genome, shedding light on the requirement for the endonuclease and directional processing functions of the RNase H domain during replication.
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PMID:Truncating alpha-helix E' of p66 human immunodeficiency virus reverse transcriptase modulates RNase H function and impairs DNA strand transfer. 753 65

R2 is a non-long terminal repeat-retrotransposable element that inserts specifically in the 28S rRNA gene of most insects. The single protein encoded by R2 has been shown to contain both site-specific endonuclease and reverse transcriptase activities. Integration of the element involves cleavage of one strand of the 28S target DNA and the utilization of the exposed 3' hydroxyl group to prime the reverse transcription of the R2 RNA transcript. We have characterized the RNA requirement of this target DNA-primed reverse transcription reaction and found that the 250 nucleotides corresponding to the 3' untranslated region of the R2 transcript were necessary and sufficient for the reaction. To investigate the sequence requirements at the site of reverse transcription initiation, a series of RNA templates that contained substitutions and deletions at the extreme 3' end of the RNA were tested. The R2 templates used most efficiently had 3' ends which corresponded to the precise boundary of the R2 element with the 28S gene found in vivo. Transcripts containing short polyadenylated tails (8 nucleotides) were not utilized efficiently. R2 RNAs that were truncated at their 3' ends by 3 to 6 nucleotides were used less efficiently as templates and then only after the R2 reverse transcriptase had added extra, apparently nontemplated, nucleotides to the target DNA. The ability of the reverse transcriptase to add additional nucleotides to the target DNA before engaging the RNA template might be a mechanism for the generation of poly(A) or simple repeat sequences found at the 3' end of most non-long terminal repeat-retrotransposable elements.
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PMID:RNA template requirements for target DNA-primed reverse transcription by the R2 retrotransposable element. 754 Jul 21

The stimulatory effect of Mg2+ and Mn2+ on the ribonuclease H (RNase H) functions of HIV-1 reverse transcriptase (RT) has been evaluated using a model 90-nt RNA template/36-nt DNA primer. Wild type enzyme exhibits similar endonuclease and directional processing activities in response to both cations, while RNase H activity (hydrolysis of double-stranded RNA) is only evident in the presence of Mn2+. Enzyme altered at the p66 residue Glu478 (Glu478-->Gln478), which participates in metal ion binding, is completely inactive in Mg2+. However, Mn2+ restores specifically its endoribonuclease activity. In the presence of Mn2+, mutant RT also catalyzes specific removal of the tRNA replication primer, eliminating the possibility of contaminating Escherichia coli RNase H in our recombinant enzyme. However, the efficiency with which mutant RT catalyzes transfer of nascent DNA between RNA templates (an event mandating RNase H activity) is severely reduced. These findings raise the possibility that directional processing activity is required to accelerate transfer of nascent DNA between templates during retroviral replication.
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PMID:Divalent cation modulation of the ribonuclease functions of human immunodeficiency virus reverse transcriptase. 754 83

We have identified a new member of the family of trypanosome site-specific retrotransposons, using a degenerate oligonucleotide PCR strategy. The 9595 bp element, termed Crithidia retrotransposable element 2 (CRE2), was cloned and found to be inserted in the tandemly arrayed miniexon genes of Crithidia fasciculata. The element is flanked by 29 bp target site duplications but lacks the 3' poly dA tract characteristic of most other non-long terminal repeat retrotransposons. The amino terminal region of the single 2518-codon open reading frame contains a putative metal-binding motif and a proline-rich region similar to gag-like domains of other retrotransposons. The carboxy terminal region of this open reading frame shares sequence homology with the reverse transcriptase and putative endonuclease regions of three previously described trypanosomatid site-specific retrotransposons. All four of these retrotransposons are specifically inserted between nucleotides 11 and 12 of the highly conserved 39mer sequence of the miniexon gene. Most copies of CRE2 and the previously characterized CRE1 are located on different sized chromosomes. Additional CRE-related sequences were identified by screening Crithidia libraries. These results suggest that a particular sequence in the C. fasciculata miniexon repeat is the target for multiple distinct site-specific retrotransposon insertions.
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PMID:A new non-LTR retrotransposon provides evidence for multiple distinct site-specific elements in Crithidia fasciculata miniexon arrays. 765 15

The DNA of all species is constantly under threat from both endogenous and exogenous factors, which damage its chemical structure. Probably the most common lesion that arises in cellular DNA is the loss of a base to generate an abasic site, which is usually referred to as an apurinic or apyrimidinic (AP) site. Since these lesions are potentially both cytotoxic and mutagenic, cells of all organisms express dedicated repair enzymes, termed AP endonucleases, to counteract their damaging effects. Indeed, many organisms consider it necessary to express two or more of these lesion-specific endonucleases, underscoring the requirement that exists to remove AP sites for the maintenance of genome integrity and cell viability. Most AP endonucleases are very versatile enzymes, capable of performing numerous additional repair roles. In this article, we review the AP endonuclease class of repair enzymes, with emphasis on the evolutionary conservation of structural features, not only between prokaryotic and eukaryotic homologues, but also between these enzymes and the RNase H domain of one class of reverse transcriptase.
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PMID:Structure and function of apurinic/apyrimidinic endonucleases. 766 52

Mobile group II introns encode reverse transcriptases and insert site specifically into intronless alleles (homing). Here, in vitro experiments show that homing of the yeast mtDNA group II intron aI2 occurs by reverse transcription at a double-strand break in the recipient DNA. A site-specific endonuclease cleaves the antisense strand of recipient DNA at position +10 of exon 3 and the sense strand at the intron insertion site. Reverse transcription of aI2-containing pre-mRNA is primed by the antisense strand cleaved in exon 3 and results in cotransfer of the intron and flanking exon sequences. Remarkably, the DNA endonuclease that initiates homing requires both the aI2 reverse transcriptase protein and aI2 RNA. Parallels in their reverse transcription mechanisms raise the possibility that mobile group II introns were ancestors of nuclear non-long terminal repeat retrotransposons and telomerases.
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PMID:Group II intron mobility occurs by target DNA-primed reverse transcription. 766 34

The reverse transcriptase (RT) of HIV-1 has been mutagenized within the carboxyl-terminal domain which harbors the RNase H. Two amino acids highly conserved among all 14 known RT sequences but not in the bacterial RNase H have been mutagenized resulting in the mutant proteins N494D and Q475E. They were expressed as recombinant proteins, purified, and analyzed for their in vitro properties in comparison to the p66 homodimeric wild-type and a previously described H539N mutant. The N494D mutant closely resembles the wild-type RNase H, exhibits an endonuclease activity and a processive RNase H activity, gives rise to small RNA hydrolysis products, and acts in concert with the RT. The Q475E mutant is more defective and resembles the H539N mutant, exhibits a retarded endonuclease activity and an impaired 3'-->5' processive RNA cleavage activity, gives rise to predominantly larger RNA hydrolysis products, is less processive in the presence of competitor substrate, and is defective in its ability to hydrolyze the polypurine tract and homopolymeric hybrids. Short homopolymeric stretches cause a pausing of the RT of wild-type and mutants which results in a coordinated action of the RNase H. Pausing of the RT correlates with RNase H cleavages about 20 nucleotides behind the point of synthesis. The defects of the mutant enzymes can be interpreted on the basis of the known crystallography data.
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PMID:Enzymatic analysis of two HIV-1 reverse transcriptase mutants with mutations in carboxyl-terminal amino acid residues conserved among retroviral ribonucleases H. 767

R2 is a non-LTR retrotransposable element that inserts at a specific site in the 28S rRNA genes of most insects. We have expressed the open reading frame of the R2 element from Bombyx mori, R2Bm, in E. coli and shown that it encodes both sequence-specific endonuclease and reverse transcriptase activities. The R2 protein makes a specific nick in one of the DNA strands at the insertion site and uses the 3' hydroxyl group exposed by this nick to prime reverse transcription of its RNA transcript. After reverse transcription, cleavage of the second DNA strand occurs. A similar mechanism of insertion may be used by other non-LTR retrotransposable elements as well as short interspersed nucleotide elements.
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PMID:Reverse transcription of R2Bm RNA is primed by a nick at the chromosomal target site: a mechanism for non-LTR retrotransposition. 767 54

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