EC:3.1.26.4 - FACTA Search

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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 RNase H activity associated with purified avian myeloblastosis virus and Rauscher murine leukemia virus DNA polymerases is inhibited by homopolymeric RNA molecules, although the efficiency of inhibition by each homopolymer appears enzyme specific. Formation of duplex RNA molecules abolished the inhibitory activity. In contrast to these results, DNA polymerase-independent RNase H activities, such as the RNase H-II from Rauscher murine leukemia virus and calf thymus RNase H, were unaffected by the addition of exogenous RNA molecules to reaction mixtures. These results support the concept (M. J. Modak and S. L. Marcus, J. Virol. 22:253--256, 1977) that the catalytic site of DNA polymerase-associated RNase H activity may be that which is also involved in template binding. Naturally occurring RNA molecules of oncornaviral, procaryotic, or eucaryotic origin also proved to be efficient inhibitors of avian myeloblastosis virus DNA polymerase-associated RNase H activity. In contrast to this result, naturally occurring RNA molecules, at concentrations which inhibited the avian myeloblastosis virus enzyme, did not inhibit Rauscher murine leukemia virus DNA polymerase-catalyzed RNase H activity. This finding represents a new biochemical distinction between the two reverse transcriptases, and may be indicative of differences in the relative affinities of these enzymes for natural RNA molecules.
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PMID:Reverse transcriptase-associated RNase H activity. II. Inhibition by natural and synthetic RNA. 8 13

RNase H of a temperature-sensitive mutant of Rauscher murine leukemia virus is thermolabile, establishing this activity as a virus-coded function of the mammalian type C virus reverse transcriptase.
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PMID:Mammalian retrovirus-associated RNase H is virus coded. 8 14

omicron-Phenanthroline, a zinc chelating agent, is known to inhibit the DNA polymerase activity of cellular DNA-dependent and viral RNA-dependent DNA polymerases. We find that omicron-phenanthroline does not inhibit the reverse transcriptase-associated RNase H activity of retroviruses. Kinetic studies, using DNA template-primers as an inhibitor of RNase H, suggest that zinc does not play any role in template-primer binding by reverse transcriptase. These results also indicate a distinct binding site for the template and triphosphate substrates. Cellular RNase H from calf thymus and RNase H-II from Rauscher leukemia virus are likewise resistant to omicron-phenanthroline inhibition, implying non-involvement of zinc in the nucleic acid hydrolysis by these enzymes.
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PMID:Reverse transcriptase-associated ribonuclease H does not require zinc for catalysis. 8 44

Cells from a goose embryo were shown to release particle-associated RNA-directed DNA polymerase and RNase H activities that required the presence of Nonidet P-40 for detection. The particles were not infectious and did not have endogenous DNA synthesis. The goose particle DNA polymerase was related to the DNA polymerase of spleen necrosis virus with respect to size and was inhibited by immunoglobulin G to spleen necrosis virus DNA polymerase. However, goose cells producing DNA polymerase-containing particles did not contain reticuloendotheliosis virus-related nucleotide sequences in their DNA.
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PMID:RNA-directed DNA polymerase from particles released by normal goose cells. 8 17

A model RNA template-primer system is described for the study of RNA-directed double-stranded DNA synthesis by purified avian myeloblastosis virus DNA polymerase and its associated RNase H. In the presence of complementary RNA primer, oligo(rI), and the deoxyribonucleoside triphosphates dGTP, dTTP, and dATP, 3'-(rC)30-40-poly(rA) directs the sequential synthesis of poly(dT) and poly(dA) from a specific site at the 3' end of the RNA template. With this model RNA template-primer, optimal conditions for double-stranded DNA synthesis are described. Analysis of the kinetics of DNA synthesis shows that initially there is rapid synthesis of poly(dT). After a brief time lag, poly(dA) synthesis and the DNA polymerase-associated RNase H activity are initiated. While poly(rA) is directing the synthesis of poly(dT), the requirements for DNA synthesis indicate that the newly synthesized poly(dT) is acting as template for poly(dA) synthesis. Furthermore, selective inhibitor studies using NaF show that activation of RNase H is not just a time-related event, but is required for synthesis of the anti-complementary strand of DNA. To determine the specific role of RNase H in this synthetic sequence, the primer for poly(dA) synthesis was investigated. By use of formamide--poly-acrylamide slab gel electrophoresis, it is shown that poly(dT) is not acting as both template and primer for poly(dA) synthesis since no poly(dT)-poly(dA) covalent linkages are observed in radioactive poly(dA) product. Identification of 2',3'-[32P]AMP on paper chromatograms of alkali-treated poly(dA) product synthesized with [alpha-32P]dATP as substrate demonstrates the presence of rAMP-dAMP phosphodiester linkages in the poly(dA) product. Therefore, a new functional role of RNase H is demonstrated in the RNA-directed synthesis of double-stranded DNA. Not only is RNase H responsible for the degradation of poly(rA) following formation of a poly(rA)-poly(dT) hybrid but also the poly(rA)fragments generated are serving as primers for initiation of synthesis of the second strand of the double-stranded DNA.
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PMID:Model RNA-directed DNA synthesis by avian myeloblastosis virus DNA polymerase and its associated RNase H. 8 56

We have investigated the use of oligodeoxycytidylic acid [oligo(dC)] as a primer for the initiation of DNA synthesis by the avian retrovirus reverse transcriptase in vitro, employing the viral RNA genome as template. The addition of oligo(dC)(12-18) to viral 35S RNA results in a stimulation of DNA synthesis by the viral RNA-directed DNA polymerase comparable to that observed when oligo(dT) is employed as a primer. Under similar conditions neither oligo(dA)(12-18) nor oligo(dG)(12-18) was active as primer for transcription of the avian retrovirus genome. Several different approaches have been employed to localize the oligo(dC)(12-18) binding site on the viral genome, including isolation of poly(A)-containing fragments, competition hybridization, and RNase H hydrolysis. These analyses indicate that oligo(dC)(12-18) binds to a site approximately 2,000 to 3,000 nucleotides from the 3' terminus of the genome of transforming strains of avian sarcoma viruses and approximately 700 to 1,000 nucleotides from the 3' terminus of nontransforming avian retroviruses. Therefore, the major site of initiation of DNA synthesis by oligo(dC)(12-18) appears to be in the vicinity of the 3' end of the env gene and the 5' end of the src gene, although the presence of minor initiation sites located elsewhere on the viral genome cannot be excluded by these data. Characterization of oligonucleotides after pancreatic RNase hydrolysis and poly(C)-Sepharose chromatography of viral RNA directly demonstrates the presence of oligoguanylic acid residues in the avian sarcoma virus genome. DNA sequences transcribed from the oligo(dC) primer appear to be conserved in all of the avian leukosis-sarcoma viruses tested. The use of oligo(dC) as a tool for the production of specific complementary DNA probes is discussed.
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PMID:Initiation of DNA synthesis by the avian retrovirus reverse transcriptase in vitro: nature and location of the oligodeoxycytidylic acid primer binding site. 9 Jan 58

Two mutants of avian sarcoma virus which exhibit different phenotypes have been analyzed for the properties of their RNA-dependent DNA polymerase and RNase H activities. LA 338 is a complex multiple mutant with at least one lesioneach in transformation and replication functions. The purified RNA-dependent DNA polymerase-RNase H complex from the mutant is twofold more thermolabile than that from the wild-type parent. A peculiarity of this mutant is that the ability of the enzyme to respond to synthetic template-primers is lost more rapidly than is the response to native RNA as template. The mutant enzyme cannot be protected from inactivation by the addition of synthetic template-primers. LA 672 represents a different phenotype among reverse transciptase mutant, showing a "late"-acting block in replication which affects only production of progeny by infected cells grown at the nonpermissive temperature. The purified DNA polymerase-RNase H complex of LA 672 is not thermolabile; rather, progeny grown at the nonpermissive temperature yield purified enzyme with a 20-fold-reduced specific activity in both DNA polymerase and RNase H. The content of reverse transcriptase protein in such noninfectious progeny, furthermore, did not appear to be significantly diminished since immunologically active enzyme could be demonstrated in a competition test for anti-reverse transcriptase antibody and since beta and alpha subunits of reverse transcriptase could be identified after polyacrylamide gel electrophoresis of partially purified enzyme preparations. The amounts of beta and alpha from the mutant were about twofold lower.
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PMID:Two avian sarcoma virus mutants with defects in the DNA polymerase-RNase H complex. 9 85

Crude extracts of Escherichia coli selectively convert fd viral DNA and not phiX174 DNA to duplex DNA via a complex series of reactions one of which involves RNA polymerase. Reactions leading to formation of fd duplex-replicative (RFII) structures have been reconstituted with purified proteins from E. coli. Maximal synthesis requires the combined action of E. coli binding protein, DNA elongation factor I, DNA elongation factor II preparations (which are a mixture of dna Z and DNA elongation factor III), DNA polymerase III, DNA-dependent RNA polymerase, Mg2+, dATP, dGTP, dCTP, dTTP, and ATP, GTP, CTP, and UTP. In contrast to crude extracts of E. coli, purified protein fractions do not distinguish between fd DNA and phiX174 DNA in duplex DNA formation. The addition of crude fractions of E. coli to the purified components listed above selectively permits fd RFII formation and prevents phiX RFII formation. This selective inhibition was used as an assay to isolate proteins essential for this phenomenon; they include RNase H, discriminatory factor alpha, and discriminatory factor beta.
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PMID:Selective inhibition of in vitro DNA synthesis dependent on phiX174 compared with fd DNA. I. Protein requirements for selective inhibition. 14 Jan 66

The replication cycle of bacteriophage phi X174 DNA has been analyzed by agarose gel electrophoresis. The electrophoretic behavior of the predominant species of parental and progeny DNA molecules formed between 5 and40 min after infection was deduced and quantitated. Migration through 1.4% agarose at 5 and 10 V/cm resolved all known viral DNA species as well as fragments of host chromosomal DNA. Among parental replicative form(RF) molecules synthesized, 1 to 3% were full length linear duplexes (RFIII) and approximately 65% were closed circular duplexes (RFI). Most of the input viral strands remained in a duplex structure throughout the period of infection studied here. Among progeny molecules, RFIII was not readily detected unless viral DNA synthesis was inhibited by chloramphenicol. Late in infection, 20% of the progeny RF were found to exist as form I dna. in addition, approximately 1% of the viral DNA was found as unit length linear single strands. Electrophoretic analysis of RF DNA after controlled denaturation suggests the existence of four populations of closed circular RF: (i) molecules of native superhelix density (RFI); (ii) a population of molecules of altered topological linking number, alpha, differing in increments of one superhelical turn (tau) between tau values of 0 and approximately -31; (iii) a superimposed population of topological isomers which under electrophoresis conditions have mean tau value (tau) equal to +5; and (iv) a population of "complexed" molecules with a reduced number of superhelical turns due to their association with single-stranded DNA and RNA. Complexed parental molecules isolated from cells infected at high multiplicity released FRI and homologous single-stranded DNA upon denaturation and are postulated to be intermediates in genetic recombination. Complexed RF DNA isolated from cells infected at low multiplicity release native supercoils upon reaction with RNase H and are observed by electron microscopy to contain displacement loops. Such molecules are likely intermediates in transcription. Our results are consistent with a structure of complexed RFI involving a partially triple-stranded helix in which a covalently closed circular duplex molecule contains a reduced number of superhelical turns due to the unwinding produced by base pairing between one strand of the supercoil and an associated homologous single strand of DNA or RNA.
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PMID:Electrophoretic characterization of intracellular forms of bacteriophage phi X174 DNA: identification of novel intermediate of altered superhelix density. 15 64

Ribonuclease Hybrid (RNaseH) from adrenal cortical tissue has been characterized. RNase H specifically degrades the RNA strand of purified RNA:DNA hybrids but is inactive on single- or double-stranded RNA or on DNA. The mode of clevage by RNase H is endonucleolytic, producing oligoribonucleoties with 3'-hydroxyl and 5'- phosphate termini. ACTH administration to guinea pigs results in no detectable change in adrenal cortical RNase H activity at times when changes in DNA synthesis are marked.
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PMID:Adrenal Cortical Ribonuclease H (hybrid) (38494). 16 21

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