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)

Because of their nuclease resistance and ability to form substrates for RNase H, antisense oligodeoxynucleotides (ODNs) possessing several methoxyethylphosphoramidate linkages at both termini have proven effective at targeting the degradation of specific mRNAs in Xenopus embryos. The efficacy of these compounds subsequently observed in tissue culture focused our attention on the issue of cellular uptake. To investigate the extent to which phosphate backbone modifications may increase the lipophilicity of ODNs, and thereby increase passive uptake by cells, the partitioning of a series of phosphoramidate-modified compounds between aqueous and organic phases was examined. The octanol:water partition coefficient of an unmodified, mixed-sequence 16-mer was 1.75 x 10(-5). The log of the partition coefficient increased in a sigmoidal manner with the number of methoxyethylphosphoramidate internucleoside linkages, indicating a nonlinear free energy relationship. The highest level of partitioning demonstrated was approximately 4 x 10(-3) (a 230-fold increase), attained when 11 of the 15 phosphodiesters were modified. An increase in hydrophobicity was also attained with C8 and C10 alkylamines acting as phase-transfer agents. The melting temperatures of heteroduplexes formed between a phosphoramidate-modified ODN and a complementary unmodified DNA strand decreased by approximately 1.5 degrees C for every phosphate group modification. ODNs can thus be extensively derivatized without substantially compromising duplex formation under physiological conditions.
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PMID:Physical properties of oligonucleotides containing phosphoramidate-modified internucleoside linkages. 203 Sep 62

Incubation in HeLa nuclear extract of a 32P-labeled 61 nucleotide-long RNA corresponding to the lariat branch site/polypyrimidine tract/3' splice site of the first intron of human beta-globin pre-mRNA led to the crosslinking of a single protein of approximately 62,000 mol. wt. (p62). p62 corresponds to a polypyrimidine tract-binding protein recently described by Garcia-Blanco et al. (Genes & Dev. 3: 1874-1886, 1989). Crosslinking of p62 to the 61 nt RNA was highly sequence specific. No p62 crosslinking was observed with a 60 nt pGEM vector RNA, a 63 nt RNA antisense to the 61-mer or a 72 nt U2 RNA sequence. p62 crosslinking to the 61 nt RNA was competed by unlabeled 61 nt RNA, by beta-globin pre-mRNA containing intron 1, and by poly(U) and poly(C), but was competed to a lesser extent or not at all by pGEM RNA, a beta-globin RNA lacking intron 1, or poly(A). Experiments with mutated RNAs revealed that neither the lariat branch site adenosine nor the 3' splice site were required for p62 crosslinking to polypyrimidine tract-containing RNA. Elimination of the polypyrimidine tract reduced p62 crosslinking, as did mutation of a polypyrimidine tract UU dinucleotide to GA. However, replacement of a pyrimidine-rich tract immediately adjacent (3') to the lariat branch site with a 57% A + G pGEM vector RNA sequence also significantly reduced p62 crosslinking, indicating the involvement of both this pyrimidine-rich region and the classical polypyrimidine tract adjacent to the 3' splice site. The sites of protein interaction were further defined by RNase H protection experiments, the results of which confirmed the patterns of p62 crosslinking to mutant RNAs. p62 crosslinking was efficiently competed by a DNA oligonucleotide having the same sequence as the 61 nt RNA, showing that p62 requires neither ribose 2' OH groups nor uracil bases for its interaction with the polypyrimidine tract. p62 was not crosslinked to double-stranded 61 nt RNA. Q-Sepharose chromatography of HeLa nuclear extract yielded an unbound fraction (QU) in which p62 was the only polypyrimidine tract-crosslinkable protein and a bound fraction (QB) in which, surprisingly, several non-p62 proteins were crosslinkable to the polypyrimidine tract RNA. Yet, when the two Q-Sepharose fractions were combined, p62 strongly out-competed the otherwise-crosslinkable QB proteins for polypyrimidine tract RNA crosslinking. This indicates that p62 may have the highest affinity and/or crosslinking efficiency for the intron polypyrimidine tract of any HeLa nuclear protein.
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PMID:A 62,000 molecular weight spliceosome protein crosslinks to the intron polypyrimidine tract. 217 24

In order to cleave RNA at specific positions in Escherichia coli formylmethionine tRNA, RNase H and complementary chimeric oligonucleotides consisting of DNA and 2'-O-methyl-RNA (Inoue et al. (1987) FEBS Lett. 215, 327] were used. Specific cleavages in the D loop, anticodon loop, T psi C loop, anticodon stem, and acceptor stem were investigated. Virtually unique hydrolyses with RNase H were observed at the T psi C loop, anticodon stem, and acceptor stem when relatively longer chimeric oligonucleotides (20-mer) were used. An efficient cleavage at the anticodon was obtained with a chimeric 13-mer when the higher structure of the tRNA was broken by hybridization with a 20-mer at the acceptor as well as the T psi C stem region. It was found that stabilities of hybrids with chimeric oligonucleotides and the presence of minor nucleosides affect the cleavage of tRNA by this approach.
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PMID:Secondary structure in formylmethionine tRNA influences the site-directed cleavage of ribonuclease H using chimeric 2'-O-methyl oligodeoxyribonucleotides. 217 35

End-labelled oligodeoxynucleotides were injected into Xenopus laevis oocytes and their degradation products were analysed by high-performance ion-exchange liquid chromatography after various times of incubation. The oligonucleotides were synthesised with either the natural [beta] anomers or the synthetic [alpha] anomers of deoxynucleotide units. Oligo-[beta] deoxynucleotides are short-lived inside oocytes (half-life approximately equal to 10 min). Covalent attachment of an intercalating agent to the 3'-phosphate and of a methylthiophosphate group at the 5'-end protects oligodeoxynucleotides against 3'- and 5'-exonucleases, respectively. The half-life of such substituted oligodeoxynucleotides is increased to 40 minutes. Oligo-[alpha]-deoxynucleotides are quite resistant to both endo and exonucleases inside Xenopus oocytes. After 8 hours only 40% of a 16-mer oligo-[alpha]-deoxynucleotide were hydrolysed. The rapid degradation of oligo-[beta]-deoxynucleotides suggests that efficient inhibition of translation in Xenopus oocytes involves an RNase H-induced hydrolysis of mRNAs hybridized to oligo-[beta]-deoxynucleotides.
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PMID:Rate of degradation of [alpha]- and [beta]-oligodeoxynucleotides in Xenopus oocytes. Implications for anti-messenger strategies. 244 63

To cleave RNA molecules using RNase H in a site-specific manner, a short deoxyoligonucleotide (3-5mer) joining with 2'-O-methyl oligonucleotide(s) was designed as a DNA splint to be used. Model experiments were carried out using ribooligonucleotide substrates (9 and 18 mer). It was found that the use of this type of splints (9 mer) causes a unique cleavage by RNase H. For example, when 3'm (GA)d(AGAA)m(GGU)5' was used as a hybridization strand, 32pUCUUUCUUCUUCCAGGAU was cleaved specifically between U11 and C12 to yield 32pUCUUUCUUCUU. This method will have a variety of applications for the study of RNA.
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PMID:Sequence-dependent hydrolysis of RNA using modified oligonucleotide splints and RNase H. 244 65

To cleave RNA molecules using E. coli RNase H in a site-specific manner, a short oligodeoxyribonucleotide (3-5 mer) linked with oligo(2'-O-methyl)ribonucleotide(s) was designed to be used as a DNA splint. Our model experiments with ribooligomer the splint duplexes (9 mers) and RNase H demonstrated that a tetradeoxynucleotide cluster seems to be sufficient for the enzyme recognition and the short DNA-containing splint directs a unique cleavage of RNA by RNase H. The method could be applied to longer ribooligonucleotide substrates. For example, when 3'm (GA)d(AGAA)m(GGU)5' was used as a hybridization strand, 32pUCUUUCUUCUUCCAGGAU was cleaved specifically between U11 and C12 to yield 32pUCUUUCUUCUU. This method will have a variety of applications for the study of RNA.
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PMID:Sequence-specific cleavage of RNA using chimeric DNA splints and RNase H. 246 38

Three types of 14-mer oligonucleotides were hybridized to human beta-globin pre-mRNA and the resultant duplexes were tested for susceptibility to cleavage by RNase H from E. coli or from HeLa cell nuclear extract. The oligonucleotides contained normal deoxynucleotides, phosphorothioate analogs alternating with normal deoxynucleotides, or one to six methylphosphonate deoxynucleosides. Duplexes formed with deoxyoligonucleotides or phosphorothioate analogs were susceptible to cleavage by RNase H from both sources, whereas a duplex formed with an oligonucleotide containing six methylphosphonate deoxynucleosides alternating with normal deoxynucleotides was resistant. Susceptibility to cleavage by RNase H increased parallel to a reduction in the number of methylphosphonate residues in the oligonucleotide. Stability of the oligonucleotides in the nuclear extract from HeLa cells was also tested. Whereas deoxyoligonucleotides were rapidly degraded, oligonucleotides containing alternating methylphosphonate residues remained unchanged after 70 minutes of incubation. Other oligonucleotides exhibited intermediate stability.
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PMID:RNase H cleavage of RNA hybridized to oligonucleotides containing methylphosphonate, phosphorothioate and phosphodiester bonds. 255 87

A ribonuclease H which degrades RNA specifically in RNA-DNA hybrids and, moreover, stimulates its homologous DNA-polymerase-primase complex was purified from calf thymus. The enzyme consists of a single polypeptide of molecular mass 78 kDa. It requires divalent cations for activity, and prefers Mg2+ over Mn2+. Ribonuclease H is optimally active at neutral pH and in 75 mM potassium acetate and is strongly sensitive to N-ethylmaleimide. [3H]Poly(rA).poly(dT), [3H]poly(rC).poly(dI), and [3H]RNA.M13-DNA are degraded to 3-9-mer oligoribonucleotides with similar kinetics, whereas double- or single-stranded DNA, and double- and single-stranded RNA remain unaffected. The enzyme stimulates in vitro DNA synthesis by the immunoaffinity-purified calf-thymus DNA-polymerase-alpha-primase complex threefold. When ribonuclease H is present in a three-fold molar excess to the polymerase-primase complex, twice as much primer is formed as in the absence of ribonuclease H. Ribonuclease H also stimulates the elongation rate of DNA polymerase alpha by a factor of 2-3, independent of whether primase-primed DNA templates or templates primed with oligonucleotides are used. Our results suggest that this form of ribonuclease H is a likely candidate for a genuine primer-removing enzyme in mammalian cells.
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PMID:A distinct form of ribonuclease H from calf thymus stimulates its homologous DNA-polymerase-alpha-primase complex. 255 72

Translation arrest of genomic potato virus X (PVX) RNA promoted by complementary oligodeoxynucleotides in Krebs-2 cell-free system is described. 14-15 mer oligodeoxynucleotides complementary to the 5'-proximal cistron of PVX RNA were shown to induce specific truncation of the major non-structural polypeptide coded by PVX RNA. Evidence is presented that effective translational arrest of PVX RNA in the presence of complementary oligonucleotides results from the site-specific cleavage of RNA by endogenous RNase H intrinsic to the Krebs-2 extract. No similar translational arrest was found in the rabbit reticulocyte lysate cell-free system.
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PMID:Translation arrest of potato virus X RNA in Krebs-2 cell-free system: RNase H cleavage promoted by complementary oligodeoxynucleotides. 283 67

A method has been developed for characterizing rare messenger RNAs in the bulk population by using oligodeoxyribonucleotide: RNA hybrids as substrates for Escherichia coli ribonuclease H. Two 1.3-kb mRNAs in lymphocyte cytoplasm, interferon-gamma (0.002% of polyadenylated mRNA), and prothymosin-alpha, have been studied. Interferon-gamma mRNA was cut virtually completely into two fragments, each about 0.6 kb in length, by using an interferon-specific 24-mer to direct cleavage. Prothymosin-alpha mRNA in the same bulk population was unaffected by this treatment. When the 24-mer was replaced by a 12-mer, whose sequence was based on an incomplete cDNA clone for prothymosin-alpha, the products included two fragments of prothymosin-alpha mRNA. The sum of the fragment lengths equaled the length of the mRNA. Although the reaction directed by the smaller oligomer did not go to completion, the 12-mer, and hence the cDNA clone from which it was derived, could nevertheless be oriented with respect to prothymosin-alpha mRNA. With this technique, sequences in mRNA can be mapped without first isolating full-length cDNA clones.
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PMID:Direct mapping of rare messenger RNAs by means of oligomer-directed ribonuclease H cleavage. 303 98

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