EC:3.1.26.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.4 (RNase H)
2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of human immunodeficiency virus reverse transcriptase-catalyzed strand transfer synthesis (i.e. switching of the primer to a new template) from internal regions of natural sequence RNA was investigated. The system consisted of a 142-nucleotide RNA template (donor) primed with a specific 20-nucleotide DNA oligonucleotide used to initiate synthesis. DNA oligonucleotides with homology to internal regions of the donor were used as acceptor templates. In reactions performed in the absence of acceptor template, a prominent DNA synthesis product 75 nucleotides in length resulting from pausing DNA synthesis within the homology zone was observed. Prominent donor RNA degradation products of 47 or 54 nucleotides were also observed, in reactions with 80 or 150 mM KCl, respectively. The lengths indicated a potential 13- or 20-nucleotide long, respectively, complementary region between the DNA and RNAs. The 54-, but not the 47-, nucleotide RNA was susceptible to Escherichia coli RNase H, indicating that the DNA was annealed only to the 54-mer. When acceptor was added, a portion of the 75-nucleotide DNA was chased into transfer product at both salt concentrations, and a portion of the 54-mer RNA became resistant to E. coli RNase H. Evidently, this donor RNA was annealed to the 75-nucleotide long DNA but could be actively displaced by the acceptor. Overall, these observations support two mechanisms for transfer. In one, the pause site-specific DNA dissociates from the donor template before transferring. In the other, the acceptor actively displaces the DNA from the donor.
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PMID:The mechanism of human immunodeficiency virus reverse transcriptase-catalyzed strand transfer from internal regions of heteropolymeric RNA templates. 750 52

Alpha-beta chimeric 17-mer oligodeoxyribonucleotides containing either 5, 10 or 15 beta nucleotides were synthesized. The stability of the RNA/chimera hybrids was only slightly affected by the alpha stretch and by the alpha-beta link, as was the affinity of the Moloney Murine Leukemia Virus reverse transcriptase for the duplexes. All chimeras inhibited in vitro cDNA synthesis in a cell-free system to various extent, via the degradation of the RNA target by RNase H.
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PMID:Chimeric alpha-beta oligonucleotides as antisense inhibitors of reverse transcription. 753 37

Replication of retroviral RNA into double-stranded DNA provirus involves initiation of plus-strand DNA synthesis at the polypurine tract, PPT, by the reverse transcriptase (RT). The PPT is highly conserved among the known HIV-1 retroviral isolates. It occurs twice, once within the coding region of the integrase and the other one adjacent to the 3' LTR. The data presented show that two antisense oligonucleotides, a 20-mer and a 40-mer, complementary to the PPT induce complete blocks of DNA synthesis whereas an antisense oligonucleotide outside the PPT is only slightly inhibitory. Previously polypurine sequences have been used by several groups for triplex-formation. During replication the HIV-polypurine tract, PPT, is present in a RNA-DNA hybrid. Therefore triple-helix formation consisting of RNA-DNA and a third DNA strand covering the PPT region was tested here by protection against RNase H cleavage in vitro. Incubation with a pyrimidine oligonucleotide in parallel orientation to the PPT-RNA shows some protection. GT-pyrimidine-purine mixed oligonucleotides (25-mer) led to protection against RNase H up to 50% independent of their orientation. The data suggest that triple-helix formation may have taken place with the PPT in vitro. Therefore, this highly conserved structure may prove useful in nucleic acid based anti-viral therapy with antisense or triple-helix approaches. Furthermore, the influence of HIV-1 nucleocapsid (NC) protein, NCp15, on reverse transcription is reported. The data show a two- to three-fold stimulatory effect of the NCp15 on RNA directed DNA synthesis.
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PMID:The polypurine tract, PPT, of HIV as target for antisense and triple-helix-forming oligonucleotides. 768 36

The comparative kinetics of RNA-dependent DNA polymerization catalyzed by wild-type HIV-1 reverse transcriptase and a point mutant specifically lacking RNase H activity were analyzed using a heteropolymeric substrate consisting of a 19-mer primer hybridized to a 345-nucleotide RNA template. The rapid-quench product distributions generated under single-turnover conditions, in which primer extension by the two enzymes was restricted to the incorporation of 5 nucleotides (N+5), were significantly different. Whereas the wild-type enzyme catalyzed synthesis of the N+5 product over the time course of the reaction (20 ms-10 s) with a relatively low degree of processivity, the extent of accumulation of the intermediate N+2 and N+3 products was grossly exaggerated in the parallel mutant-catalyzed time course. The observation of concomitant polymerase-dependent hydrolysis during the course of synthesis catalyzed by the wild-type enzyme suggested that the inability of the RNase H- mutant to hydrolyze the RNA template created blocks to further synthesis by reducing the rates of DNA polymerization at these intermediate positions, and hence impaired the ability of this mutant to complete cDNA synthesis.
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PMID:Rapid kinetic analysis of a point mutant of HIV-1 reverse transcriptase lacking ribonuclease H activity. 768 88

To clarify the mechanism by which the RNA portion of a DNA/RNA hybrid is specifically hydrolyzed by ribonuclease H (RNase H), the binding of a DNA/RNA hybrid, a DNA/DNA duplex, or an RNA/RNA duplex to RNase HI from Escherichia coli was investigated by 1H-15N heteronuclear NMR. Chemical shift changes of backbone amide resonances were monitored while the substrate, a hybrid 9-mer duplex, a DNA/DNA 12-mer duplex, or an RNA/RNA 12-mer duplex was titrated. The amino acid residues affected by the addition of each 12-mer duplex were almost identical to those affected by the substrate hybrid binding, and resided close to the active site of the enzyme. The results reveal that all the duplexes, hybrid-, DNA-, and RNA-duplex, bind to the enzyme. From the linewidth analysis of the resonance peaks, it was found that the exchange rates for the binding were different between the hybrid and the other duplexes. The NMR and CD data suggest that conformational changes occur in the enzyme and the hybrid duplex upon binding.
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PMID:Binding of nucleic acids to E. coli RNase HI observed by NMR and CD spectroscopy. 769 32

An endogenous nuclear enzyme, RNase H, is an important component in determining the efficacy of antisense oligodeoxynucleotides (ODNs). In an effort to improve the potency of antisense ODNs, conjugates with three different nuclear targeting signal peptides were prepared. These short peptide sequences have been shown to facilitate transport of macromolecules into the nucleus of cells. Efficient chemistry for the synthesis of ODN-peptide conjugates is described. Reaction of 5'-aminohexyl-modified ODNs with iodoacetic anhydride gave pure iodoacetamide ODNs (IA-ODNs) in good yield. These electrophilic intermediates were reacted with thiol-containing peptides to give ODN-peptides in excellent yield and purity. The ODN-peptides were further characterized by proteolysis with trypsin. Thermal denaturation studies with ssDNA targets showed little effect of the 5'-peptide modifications on the hybridization properties of the ODN. The effect of the nuclear signal peptides on antisense potency was evaluated in the freshwater ciliate Paramecium. A 3'-hexanol-modified 24-mer antisense ODN, complementary to the mRNA for calmodulin, alters regulation of membrane ion channels and swimming behavior of these cells. A 2'-O-methyl analog of this ODN was inactive, thus providing evidence that this activity in Paramecium is mediated by RNase H. Antisense ODN-nuclear signal peptide conjugates were transfected into the cells by electroporation. Surprisingly, these conjugates showed no antisense effects in comparison to a 5'-unmodified control ODN. Random peptides or amino acids conjugated to the 5'-terminus did not decrease antisense activity.
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PMID:Synthesis and evaluation of nuclear targeting peptide-antisense oligodeoxynucleotide conjugates. 771 Oct 95

Biotinylation of phosphodiester oligodeoxynucleotides (PO-ODN) allows for conjugation to avidin-based transcellular delivery systems. In addition, biotinylation of PO-ODN at the 3'-terminus provides complete protection against serum 3'-exonuclease degradation. The present study was undertaken to determine if antisense 3'-biotinylated PO-ODN-avidin constructs are able to recognize and inactivate the target mRNA through RNase H-mediated degradation. A 21-mer antisense PO-ODN complementary to the tat gene encompassing nucleotides 5402-5422 of the HIV-1 genome was synthesized with biotin conjugated to the 3'-terminus (bio-tat). Gel mobility assays using [5'-32P]-labeled bio-tat ODN and avidin showed that the bio-tat ODN was fully monobiotinylated. Aliquots of [32P]-labeled sense or antisense tat RNA (337 and 351 nucleotides, respectively) were prepared from transcription plasmids and were preincubated with an excess of bio-tat ODN with or without avidin constructs and digested with RNase H. Products were resolved with sequencing gel and analyzed by autoradiography. Complete conversion to predicted RNA fragments resulting from RNase H digestion of the RNA-ODN duplex (53 and 263 nucleotides) was observed when [32P]-tat sense RNA was incubated with antisense bio-tat ODN or conjugated to avidin or an avidin-cationized human serum albumin (cHSA) complex. Conversely, no degradation of [32P]-tat-antisense RNA was observed after incubation with antisense bio-tat ODN and RNase H. In addition, the avidin-cHSA complex significantly increased (84-fold) the uptake of [32P]-internally labeled bio-tat ODN and its stability against cellular nuclease degradation in peripheral blood lymphocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Complete inactivation of target mRNA by biotinylated antisense oligodeoxynucleotide-avidin conjugates. 784 69

We have identified 20-mer phosphorothioate oligodeoxynucleotides which potently (IC50 values of 100-200 nM) and specifically inhibit protein kinase C (PKC)-alpha mRNA and protein expression in human lung carcinoma (A549) cells. These oligonucleotides target multiple, diverse sites on PKC-alpha mRNA including the AUG translation codon and 3'-untranslated sequences. 2'-O-Methyl phosphorothioate analogs of these oligonucleotides were without effect on PKC-alpha mRNA levels, suggesting that the reduction in targeted PKC-alpha mRNA is through RNase H-mediated cleavage. One oligonucleotide, however, was effective at inhibiting PKC-alpha protein levels as a 2'-O-methyl phosphorothioate at concentrations 2-3-fold greater than its phosphorothioate/deoxy homolog. These results suggest that the ability to serve as an RNase H substrate, although not required for all oligonucleotides, certainly increases their potency. These oligonucleotides have been used to examine the role played by PKC-alpha in mediating the phorbol ester-induced changes in mRNA levels of the cell adhesion molecule ICAM-1. In A549 cells, ICAM-1 mRNA is increased 10-20-fold by treatment of cells with the phorbol ester phorbol 12-myristate 13-acetate. When PKC-alpha protein levels are depleted by oligonucleotide treatment of A549 cells, the increase in ICAM-1 expression in response to phorbol 12-myristate 13-acetate is greatly reduced, demonstrating that PKC-alpha plays a major role in this process.
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PMID:Inhibition of protein kinase C-alpha expression in human A549 cells by antisense oligonucleotides inhibits induction of intercellular adhesion molecule 1 (ICAM-1) mRNA by phorbol esters. 791 67

To assess the usefulness of computer-assisted modeling of mRNA as an aid in design of antisense DNA, the efficiency of inhibition of translation of rabbit beta-globin mRNA by various antisense sequences was compared with calculated structures of the mRNA. The model obtained by consideration of 30 lowest-energy computer-simulated structures is consistent with the high accessibility of the AUG initiation codon region known from digestion with nucleases and with previous antisense inhibition studies reported in the literature. Additional antisense inhibition data were obtained with 20-mer phosphorothioate oligonucleotides, targeted to regions of beta-globin mRNA differing moderately in their degree of participation in intramolecular folding. The efficiency of translation arrest by the oligonucleotides in cell-free expression systems (wheat germ extract and rabbit reticulocyte lysate) was obtained by measuring incorporation of [35S]methionine into total protein, and corrected for sequence-nonspecific inhibition using brome mosaic virus mRNA. In the presence of RNase H (wheat germ system), the inhibitory activity of the oligonucleotides showed correlation with the calculated secondary structure of mRNA, in particular at low oligonucleotide-to-mRNA ratios (correlation coefficient, 0.95). No correlation was observed in the reticulocyte lysate system, in which the inhibition is mediated by translational arrest.
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PMID:Targeting of antisense DNA: comparison of activity of anti-rabbit beta-globin oligodeoxyribonucleoside phosphorothioates with computer predictions of mRNA folding. 815 75

On the basis of the reported enhanced antisense activity of polylysine-oligonucleotide conjugates, a synthetic 12-mer oligodeoxyribonucleotide has been coupled at its 5' terminus to a series of positively charged (delta-ornithine)n cysteine peptides. Binding between the nucleic acid-peptide conjugate and its complementary DNA target sequence was detected by the impact of complexation on the melting temperature (Tm). It was found that the Tm for the nucleic acid-peptide gradually increased with increasing net charge on the conjugated peptide. Site-directed cleavage with RNase H demonstrates that the peptide-modified oligomer also hybridizes with its RNA target sequence. Increased affinity for target mRNA with net charge was shown by a cell-free translation arrest assay.
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PMID:Oligonucleotide-poly-L-ornithine conjugates: binding to complementary DNA and RNA. 828 27

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