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)

Inhibition of polypeptide chain elongation with the mRNA-complementary (antisense) oligonucleotide has been realized through a RNase H independent mechanism. Nuclease resistant complementary non-natural alpha-17-mer oligonucleotide did not inhibit cell-free protein biosynthesis of beta-globin in the wheat germ system because it did not elicit RNase H activity. Linkage of alkylating group [4-(N-2-chloroethyl-N-methyl)-aminobenzyl]-methylamine to the 5'-terminus of the alpha-oligomer led to the formation of its covalent adduct with mRNA which could not be translated in vitro. Linkage of hydrophobic residues to the terminal phosphates of natural oligonucleotides increased their stability against nucleases and uptake by human cancer cells. A porphyrin, substituted in the meso-position by aromatic groups, gave a rise to an approximately six-fold increase of uptake and cholesterol a 30-100-fold increase. Eighty percent of bound derivatives were found in cytoplasmic cellular fractions.
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PMID:Effect of the terminal phosphate derivatization of beta- and alpha-oligodeoxynucleotides on their antisense activity in protein biosynthesis, stability and uptake by eucaryotic cells. 132 80

A detailed comparison was made of the concentration dependence of translation inhibition by phosphorothioate and phosphodiester oligodeoxynucleotides of the same anti-beta-globin sequence in cell-free systems using beta-globin mRNA and unrelated mRNAs as controls. The results confirm that at low concentrations the phosphorothioate oligomer is more potent as an antisense compound, while at higher concentration (greater than 4 microM) it exhibits more nonspecific inhibition than the phosphodiester oligomer for RNase H-mediated translation inhibition.
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PMID:Translation inhibition by phosphorothioate oligodeoxynucleotides in cell-free systems. 132 32

A sequence of the rabbit alpha-globin mRNA is the primary target for ODN1, an unmodified 15-nucleotide (nt) antisense oligodeoxyribonucleotide (oligo). ODN1 prevented in vitro translation of both alpha- and beta-globin mRNAs in wheat germ extract. Nine secondary sites exhibiting more than 60% complementarity with ODN1 were present in the beta-globin message. The ODN1 inhibition of beta-globin synthesis was shown to be mediated by RNase H cleavage of the beta-globin mRNA at three partially complementary sites. Sandwich-type oligos consisting of a stretch of unmodified nt with a few methylphosphonate residues at both 5' and 3' ends were derived from ODN1. We have demonstrated that one such analogue (ODN2), with five phosphodiester linkages in the central region, exhibited improved specificity for alpha-globin mRNA compared with the unmodified parent 15-mer, due to a reduced ability of RNase H to cleave beta-mRNA/ODN2 mismatched duplexes.
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PMID:RNase H-mediated inhibition of translation by antisense oligodeoxyribonucleotides: use of backbone modification to improve specificity. 133 11

Stable association of U2 snRNP with the branchpoint sequence of mammalian pre-mRNAs requires binding of a non-snRNP protein to the polypyrimidine tract. In order to determine how U2 snRNP contacts this protein, we have used an RNA containing the consensus 5' and the (Py)n-AG 3' splice sites but lacking the branchpoint sequence so as to prevent direct U2 snRNA base pairing to the branchpoint. Different approaches including electrophoretic separation of RNP complexes formed in nuclear extracts, RNase T1 protection immunoprecipitation assays with antibodies against snRNPs and UV cross-linking experiments coupled to immunoprecipitations allowed us to demonstrate that at least three splicing factors contact this RNA at 0 degree C without ATP. As expected, U1 snRNP interacts with the region comprising the 5' splice site. A protein of approximately 65,000 molecular weight recognizes the RNA specifically at the 5' boundary of the polypyrimidine tract. It could be either the U2 auxiliary factor (U2AF) (Zamore and Green (1989) PNAS 86, 9243-9247), the polypyrimidine tract binding protein (pPTB) (Garcia-Blanco et al. (1989) Genes and Dev. 3, 1874-1886) or a mixture of both. U2 snRNP also contacts the RNA in a way depending on p65 binding, thereby further arguing that the latter may correspond to the previously characterized U2AF and pPTB. Cleavage of U2 snRNA sequence by a complementary oligonucleotide and RNase H led us to conclude that the 5' terminus of U2 snRNA is required to ensure the contact between U2 snRNP and p65 bound to the RNA. More importantly, this conclusion can be extended to authentic pre-mRNAs. When we have used a human beta-globin pre-mRNA instead of the above artificial substrate, RNA bound p65 became precipitable by anti-(U2) RNP and anti-Sm antibodies except when the 5' end of U2 snRNA was selectively cleaved.
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PMID:The 5' end domain of U2 snRNA is required to establish the interaction of U2 snRNP with U2 auxiliary factor(s) during mammalian spliceosome assembly. 185 Jan 27

Proteins interacting with pre-mRNAs during early stages of spliceosome formation in a HeLa nuclear extract were investigated by photochemical RNA-protein crosslinking. The level of protein crosslinking to a beta-globin pre-mRNA was positively correlated with the presence of an intron. Proteins of 110,000, 59,000 and 39,000 mol. wt. were crosslinked to the beta-globin pre-mRNA, the latter of which was identified as the A1 hnRNP protein. Comparable experiments with an adenovirus pre-mRNA revealed crosslinked proteins of 110,000, 56,000 and 45,000 mol. wt., with the latter identified as belonging to the C group hnRNP proteins. Crosslinking of hnRNP proteins to both the beta-globin and adenovirus pre-mRNAs was eliminated by oligodeoxynucleotide-directed RNase H excision of an internal region (nt 28-42) of U2 RNA, but was not affected by oligo/RNase H cleavage of the 5'-terminal 15 nucleotides of U2 RNA. Cleavage of the 5'-terminal 15 nucleotides of U1 RNA preferentially eliminated crosslinking of the hnRNP A1 protein to both pre-mRNAs. The requirement of intact U1 snRNP for A1 protein crosslinking was further demonstrated by the fact that although micrococcal nuclease-treated extracts did not support crosslinking of A1 hnRNP protein to beta-globin pre-mRNA, crosslinking was restored by addition of a U1 snRNP-enriched fraction.
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PMID:Crosslinking of hnRNP proteins to pre-mRNA requires U1 and U2 snRNPs. 214

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

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

Inhibition of oligonucleotide-directed cleavage of pre-mRNA using exogenously added E. coli RNase H has been utilized as a probe for mRNA-protein interaction. We now show that such an RNase H-like activity is present in splicing competent Hela cell nuclear extract. Using this extract and in vitro transcribed beta-globin pre-mRNA, we have demonstrated that synthetic oligonucleotides, complementary to the splice site sequences, direct preferential cleavage of the 5' splice site. Thus, these experiments using complementary oligonucleotide-directed, endogenous RNase H-like cleavage of pre-mRNA, suggest a useful probe for studying the mRNA-protein complex in vitro.
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PMID:Differential enzymatic accessibilities of the 5' and 3' splice sites of beta-globin pre-messenger RNA in splicing competent HeLa cell nuclear extract. 282 76

The mechanism of hybrid-arrested translation by antisense oligodeoxynucleotides has been investigated with the rabbit reticulocyte lysate system. The oligonucleotides studied were directed against different regions of mouse alpha- or beta-globin mRNAs. Freshly prepared reticulocyte lysates were found to contain 1-2% of the level of RNase H in nucleated cells. This level of activity was sufficient to cleave nearly 100% of the targeted mRNA at the site of hybridization with a complementary oligodeoxynucleotide in 1 hr under conditions of active translation. Using poly(rA).oligo(dT) as a competitive inhibitor of the enzyme, hybrid arrest by oligodeoxynucleotides complementary to the sequence spanning the initiation codon or to a sequence in the coding region was found to be due entirely to cleavage of mRNA by RNase H. Hybridization of oligodeoxynucleotides adjacent to the cap site of beta-globin mRNA, but not the alpha-globin mRNA, also inhibited protein synthesis directly. Even in this case, however, cleavage of the mRNA by RNase H was the predominant pathway of inhibition.
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PMID:Role of RNase H in hybrid-arrested translation by antisense oligonucleotides. 283 27

We report the construction, characterization, and use of luciferase reporters to test the ability of antisense oligonucleotides to inhibit RNA splicing. beta-Globin and adenovirus introns were inserted into a luciferase cDNA, and luciferase expression was analyzed in transiently transfected cells. The adenovirus reporter expressed large amounts of luciferase, but two beta-globin constructs were inactive. RNA analyses determined that the beta-globin pre-mRNAs were not spliced. Mutagenesis of the beta-globin 5' splice site, branchpoint, and 3' splice site sequences to the adenovirus intron sequences promoted maximal splicing and luciferase activity; reciprocal changes in all three elements of the adenovirus intron eliminated luciferase activity. Wild-type and 3' splice site mutated adenovirus reporters were used to determine the ability of phosphorothioate deoxy and 2' methoxy oligonucleotides to inhibit splicing. RNase H activating oligodeoxynucleotides were better inhibitors of wild-type adenovirus expression than were 2' methoxy analogues. However, 2' methoxy oligonucleotides specific for the branchpoint were more effective inhibitors of splicing of adenovirus transcript containing the beta-globin branchpoint and 3' splice site. We suggest that pre-mRNAs with weak splice sites are potential targets for oligonucleotides that inhibit splicing by occupancy rather than cleavage of the transcripts.
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PMID:Inhibition of splicing of wild-type and mutated luciferase-adenovirus pre-mRNAs by antisense oligonucleotides. 747 22

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