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)

We have investigated three aspects of RNA turmor virus replication and cell transformation: (1) the properties of the purified avian and mammalian viral RNA-directed DNA polumerase, (2) some characteristics of the viral 60-70S RNA genome, 30-40S RNA subunits and intracellular viral RNA species, and (3) the interaction of the viral DNA polymerase with its RNA template early during infection and cell transformation by the murine sarcoma-leukemia virus (MSV[MLV]). Avian myeloblastosis virus (AMV) contains two forms of RNA-directed DNA polymerase, alpha, consisting of a single polypeptide of molecular weight 65,000, and alphabeta, consisting of two polypeptides of molecular weights 65,000 and 105,000. The alpha and alphabeta forms of AMV DNA polymerase both possess RNase H activity that requires free end termini on the ribopolymer and can degrade the RNA of the RNA-DNA hybrid in the 3' to 5' and 5' to 3' directions. But, alpha and alphabeta possess a different mode of exoribonuclease activity. While alphabeta RNase H is a processive exoribonuclease that degrades the polynucleotide chain to a core residue before attacking a second chain, alpha RNase H is a random exoribonuclease that releases the polynucleotide after each scission. Highly purified Moloney-MSV(MLV) DNA polymerase has both RNase H activity and the ability to read viral 60-70S RNA. These activities comigrate through five different steps of purification and are present at levels comparable to those found in purified AMV DNA polymerase. The MSV(MLV) 60-70S RNA genome and 35S RNA subunits were shown by periodate oxidationtritiated borohydride reduction to contain adenosine as the major 3'-terminal nucleoside. Poly (A) segments were isolated from viral 60-70S and 35S RNA by treatment with RNase A or RNase T1 and purified by afinity chromatography and gel electrophoresis. Viral poly(A) was shown to be present at the 3' terminus as -G(C,U)A190AOH. The similar sequence reported for poly(A) present in mammalian mRNA suggests that similar mechanisma are involved in the transcription and processing of both cellular and viral DNA sequences. Within transformed cells replicating MSV(MLV), viral 35S and 20S RNA were found in membrane-bound polyribosomes, whereas only 35S RNA was detected in free polyribosomes. The origin and function of 20S RNA is unknown. The early events during rapid infection and cell transformation of mouse 3T6 cells by the Harvey strain of MSV(MLV) were studied. By both autoradiographic analysis and molecular hybridization, viral DNA synthesis was detected in the cytoplasm by 1 hour after infection, reached a maximum at 2 hours, and subsequently decreased. Cytological chase experiments produced evidence that cytoplasmic viral DNA was transported to the nucleus. In situ hybridization experiments using radioactive viral DNA product as a probe demonstrated the rapid association of viral DNA sequences with the chromocenters of interphase nuclei and with the centromeric heterochromatin regions of some chromosomes.
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PMID:Properties of oncornavirus RNA-directed DNA polymerase, the RNA template, and the intracellular products formed early during infection and cell transformation. 5 Sep 2

The 3'-terminal sequences of flavivirus genomes within approx. 100 nucleotides (nt) have been suggested to have a highly conserved secondary structure, as based on the known nt sequence data and free-energy calculations using computer programs. To test the existence of a secondary structure in solution, we devised a strategy to generate truncated RNA molecules from about 0.3-1.4 kb in length, having the same polarity and nt sequence as dengue virus type 2 (DEN-2) RNA (New Guinea-C strain). When these labeled RNA molecules were digested by RNase A, and analyzed by denaturing polyacrylamide-gel electrophoresis, three resistant fragments of 16, 20 and 23 nt in length were reproducibly obtained. To examine whether these RNase A-resistant (RNaseR) fragments emerged from a stable secondary structure formed in solution consisting of 3'-terminal sequences, hybridization of the RNaseR fragments to four chemically synthesized oligodeoxyribonucleotides (oligos), complementary to nt 1-24, 25-48, 49-72, and 73-96 from the 3' terminus of DEN-2 RNA, followed by RNase H digestion were carried out. Oligos complementary to nt 25-48 and 49-72 from the 3' end of DEN-2 RNA were sufficient to render all three RNaseR fragments susceptible to RNase H digestion. These data indicate that a stable secondary structure is formed in solution involving nt 18-67 from the 3' terminus. The potential use of these unique transcripts to identify the viral and/or host proteins which might interact at the 3' terminus of DEN-2 RNA during initiation of replication is discussed.
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PMID:Detection of stable secondary structure at the 3' terminus of dengue virus type 2 RNA. 166 Aug 36

A method for assaying hybrid ribonuclease has been devised which utilizes as substrate the synthetic hybrid [3H]polyriboadenylic acid [poly(rA)]:polydeoxythymidylic acid [poly(dT)] immobilized on the solid matrix of nitrocellulose filters. The hybridization on filter of [3H]poly(rA) to poly(dT) has been explored in terms of efficacy of the process and the response of the product to RNase H. A pulse of uv irradiation of poly(dT) while in dry state on the filter increased its firm binding to the filter in a concentration-dependent manner, resulting in a concomitant increase of the yield of hybrid formation. The filter-immobilized hybrid was 95% resistant to RNase A but sensitive to RNase H. When stored in toluene in the cold the hybrid maintained its stability for over 6 months, as judged by its resistance to RNase A. The method offers a number of advantages over assays that use solution hybrids as substrates and was readily applicable in the screening of leukemic patients, in the leukocytes of which it has demonstrated increased RNase H levels.
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PMID:Assay of hybrid ribonuclease using a membrane filter-immobilized synthetic hybrid: application to the human leukemic cell. 298 68

An RNase A protection assay was employed to investigate the interaction of nuclear components with a precursor-mRNA derived from the adenovirus 2 major late transcription unit in a splicing extract from HeLa cells. Upon incubation in the extract, two regions in the precursor-RNA become resistant to digestion with RNase A. After short incubation times (5 min) at 30 degrees C, fragments mapping upstream from the branch point in the intron are obtained. After ten minutes or more, additional oligonucleotides, derived from the 5' splice site, are protected. RNase A protection of different RNA substrates demonstrates that a 5' splice site is not required for the binding of components to the branch point region. For interaction with this site, the polypyrimidine stretch just upstream from the 3' splice site is essential. Binding to the 5' splice site occurs only in the presence of an intact 3' end of the intron. Preincubation of the extract with excess unlabelled RNA containing only a 3' splice site leads to efficient competition of binding, both in the branch point region and at the 5' splice site, whereas an RNA that contains only 5'-splice-site sequences has no effect on the interaction with the mRNA precursor. This indicates that stable association with the 5' splice site requires prior binding of components in the branch point region. When splicing complexes are digested with RNase A, it becomes apparent that only the branch point region is sequestered into a ribonucleoprotein (RNP) structure in the 35 S complex. The 5' splice site becomes resistant to RNase A only when a 50 S splicing complex has been assembled. Degradation of specific regions in U1, U2 and U4 RNA with complementary oligodeoxynucleotides and RNase H has been used to analyse involvement of the U small nuclear RNPs (snRNPs) in the protection reaction. The 5' end of U2 RNA is essential for protection of the branch point region. RNA sequences in a loop of U2 RNA (nucleotides 65 to 78) are required for the formation of an RNase-A-resistant structure at the 5' splice site. Taken together, these results suggest that U2 snRNP participates in the formation of a pre-splicing complex, the 5' end of its RNA being involved in the observed binding. Conversion to a 50 S splicing complex is obtained after the binding of U1 and U4/U6 snRNPs, which also requires sequences in a loop of U2 RNA. Possible interactions between the individual snRNPs and between snRNPs and precursor-mRNA are discussed.
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PMID:Analysis of RNase-A-resistant regions of adenovirus 2 major late precursor-mRNA in splicing extracts reveals an ordered interaction of nuclear components with the substrate RNA. 368 67

The synthesis of the covalently-closed, circular DNA form of colicinogenic factor E(1) (ColE(1)) continues in Escherichia coli cells after the addition of chloramphenicol. A large portion of the purified supercoiled ColE(1) DNA molecules made in the presence of chloramphenicol are converted to the open circular DNA form after treatment with alkali (pH 13), RNase A, or RNase H. These treatments do not significantly affect the covalently-closed form of ColE(1) DNA isolated from normally growing E. coli cells. The open circular product resulting from treatment of supercoiled ColE(1) DNA with RNase A possesses a single break in one strand of the circular duplex. The site sensitive to RNase A occurs with equal probability in either of the complementary strands. Both synthesis of ColE(1) DNA and the formation of supercoiled ColE(1) DNA sensitive to RNase A or alkali are prevented by the inhibitor of RNA synthesis, rifampicin. These results indicate that covalently-closed ColE(1) DNA containing one or more ribonucleotides accumulates during ColE(1) replication in the presence of chloramphenicol. It is proposed that this incorporated RNA served as a primer during the initiation of synthesis of ColE(1) DNA and that its removal from the circular DNA is inhibited in cells incubated in the presence of chloramphenicol.
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PMID:Isolation of supercoiled colicinogenic factor E 1 DNA sensitive to ribonuclease and alkali. 456 Jun 90

We previously reported that in the endogenous reaction of Rous sarcoma virus disrupted by melittin, plus-strand DNA initiates on a small oligonucleotide primer and that this initiation can be reconstructed in vitro in reactions containing purified minus-strand DNA as template, viral RNA as a source of primer, and reverse transcriptase (Smith et al., J. Virol. 49:200-204, 1984). Further studies on the specificity of initiation in the endogenous reaction have shown the following. (i) The primer was 12 nucleotides in length. Its sequence began with a 5' pyrimidine, followed by 11 purines, ending with rGrA-3'. This sequence was in agreement with the known plus-strand RNA sequence immediately upstream from the initiation site. Thus, the primer began one nucleotide 5' to the so-called polypurine tract that has been found on all retrovirus genomes. (ii) The transition point between RNA primer and DNA product was precisely located. It was before the end of the polypurine tract. Thus the polypurine tract, although essential for virus replication and probably a flag for the priming event, did not define the limits of the RNA primer. After primer removal, the DNA had a 5' phosphate, consistent with generation by the viral RNase H activity. The priming specificity in reconstructed reactions was also examined further, with the following observations. (i) When the source of RNA primer was prehybridized to the template viral DNA, the generation, utilization, and subsequent removal of primer were essentially the same as those observed in the endogenous reaction. In the absence of deliberate prehybridization, some specificity was lost. There were than additional locations for the 5' end of the primer as well as the transition point between RNA primer and DNA. (ii) Purine-rich oligoribonucleotides created by RNase A digestion of viral RNA could prime strong-stop plus DNA, but again with the loss of specificity relative to that in the endogenous reaction. (iii) The 5' end of the minus-strand DNA template was not required for initiation of strong-stop plus DNA. Therefore, the specificity of initiation did not depend upon an intramolecular interaction requiring the two inverted repeat sequences that flank the long terminal repeat.
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PMID:Specificity of initiation of plus-strand DNA by Rous sarcoma virus. 609 61

A 190-base-pair DNA-RNA hybrid containing the Moloney murine leukemia virus origin of plus-strand DNA synthesis was constructed and used as a source of template-primer for the reverse transcriptase in vitro. Synthesis was shown to initiate precisely at the known plus-strand origin. The observation that some of the origin fragments retained ribonucleotide residues on their 5' ends suggests that the primer for chain initiation is an RNA molecule left behind by RNase H during the degradation of the RNA moiety of the DNA-RNA hybrid. If the RNase H is responsible for creating the correct primer terminus, then it must possess a specific endonucleolytic activity capable of recognizing the sequence in the RNA where plus strands are initiated. The 16-base RNase A-resistant fragment which spans the plus-strand origin can also serve as a source of the specific plus-strand primer RNA. Evidence is presented that some of the plus-strand origin fragments synthesized in the endogenous reaction contain 5' ribonucleotides, suggesting that specific RNA primers for plus-strand initiation may be generated during reverse transcription in vivo as well.
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PMID:RNA-primed initiation of Moloney murine leukemia virus plus strands by reverse transcriptase in vitro. 620 82

If lambda DNA replication is blocked by mutation in any one of several genes essential for replication, intracellular lambda DNA often shows short three-stranded regions called D loops. In this report we show that one arm of a D loop is an RNA . DNA hybrid, whereas the remaining arm is made up of single-stranded DNA. The RNA can be partially removed by RNase A and totally removed by RNase H. Also, D loops do not appear if infections are made in cells treated with rifampin, a potent inhibitor of transcription by Escherichia coli RNA polymerase. Several genes associated with recombination, including the host recA gene, are not essential for D-loop formation.
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PMID:Evidence of RNA in D loops of intracellular lambda DNA. 644 65

The relationship between RNA synthesis and homologous pairing in vitro, catalyzed by RecA protein, was examined by using an established strand transfer assay system. When a short DNA duplex is mixed with single-stranded circles, RecA protein promotes the transfer of the minus strand of the duplex onto the complementary region of the plus-strand circle, with the displacement of the plus strand of the duplex. However, if minus-strand RNA is synthesized from the duplex pairing partner, joint molecules containing the RNA transcript, the plus strand of the DNA duplex, and the plus-strand circle are also observed to form. This reaction, which is dependent on RNA polymerase, sequence homology, and RecA protein, produces a joint molecule that can be dissolved by treatment with RNase H but not RNase A. Under these reaction conditions, product molecules form even when the length of shared homology between duplex and circle is reduced to 15 bp.
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PMID:A role for RNA synthesis in homologous pairing events. 752 May 27

Extracts of Saccharomyces cerevisiae were shown to support the elongation of oligodeoxynucleotides with telomere-like sequences. The primer sequence specificity of this elongation activity, its incorporation of dG and dT but not dA or dC from the corresponding triphosphates, and its sensitivity to RNase A and RNase H are all consistent with it being a telomerase. In contrast to the reported properties of other telomerases, the presence of ATP enhances the efficiency of initiation of the yeast enzyme and improves its processivity. Hydrolysis of ATP appears to be unnecessary for the observed effects, as the beta,gamma-imido or the gamma-thio derivative of ATP is nearly as effective.
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PMID:ATP-dependent processivity of a telomerase activity from Saccharomyces cerevisiae. 766 55

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