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 primary structure of a 149-nucleotide fragment of encephalomyocarditis (EMC) virus RNA from the 5'-terminus of the genome up to the poly(C) tract (S fragment) has been determined. For isolation of the S fragment, site-directed fragmentation of the viral RNA with RNase H and poly(dG) was employed. For sequencing the S fragment, a novel approach has been developed, which can be used for primary structure determination of long RNA molecules. A model of the secondary structure of the S fragment is proposed, according to which this region of RNA is highly structured. The role of complementary oligonucleotide stretches near both termini of the RNA molecule is discussed.
Gene 1983 Dec
PMID:The primary and secondary structure of the 5'-end region of encephalomyocarditis virus RNA. A novel approach to sequencing long RNA molecules. 632 59

A study has been made of the susceptibility of recombinant constructs of reverse transcriptase (RT) and ribonuclease H (RNase H) from human immunodeficiency virus type 1 (HIV-1) to digestion by the HIV-1 protease. At neutral pH, the protease attacks a single peptide bond, Phe440-Tyr441, in one of the protomers of the folded, active RT/RNase H (p66/p66) homodimer to give a stable, active heterodimer (p66/p51) that is resistant to further hydrolysis (Chattopadhyay, D., et al., 1992, J. Biol. Chem. 267, 14227-14232). The COOH-terminal p15 fragment released in the process, however, is rapidly degraded by the protease by cleavage at Tyr483-Leu484 and Tyr532-Leu533. In marked contrast to this p15 segment, both p66/p51 and a folded RNase H construct are stable to breakdown by the protease at neutral pH. It is only at pH values around 4 that these latter proteins appear to unfold and, under these conditions, the heterodimer undergoes extensive proteolysis. RNase H is also hydrolyzed at low pH, but cleavage takes place primarily at Gly436-Ala437 and at Phe440-Tyr441, and only much more slowly at residues 483, 494, and 532. This observation can be reconciled by inspection of crystallographic models of RNase H, which show that residues 483, 494, and 532 are relatively inaccessible in comparison to Gly436 and Phe440. Our results fit a model in which the p66/p66 homodimer exists in a conformation that mirrors that of the heterodimer, but with a p15 segment on one of the protomers that is structurally disordered to the extent that all of its potential HIV protease cleavage sites are accessible for hydrolysis.
Protein Sci 1993 Dec
PMID:Human immunodeficiency virus type-1 reverse transcriptase and ribonuclease H as substrates of the viral protease. 750 54

The aphid Schizaphis graminum is dependent on an association with Buchnera aphidicola, an eubacterial endosymbiont located in specialized host cells. Past studies have indicated that Escherichia coli is the closest known relative of the endosymbiont which has many genetic attributes of free-living bacteria. In order to obtain information on the properties of highly expressed genes, we have chosen for study the single-copy rrs (gene encoding 16S rRNA) of B. aphidicola. A 4.4-kb DNA fragment was cloned into E. coli and the nucleotide (nt) sequence determined. Several ORFs were identified; the order of genes was argS-rrs-ORF1-rnh-dnaQ. ArgS, RNase H and DnaQ had 36-57% amino acid (aa) identity to the homologous proteins of E. coli. B. aphidicola rrs appears to be part of an operon consisting of a putative promoter, rrs and two inverted repeats resembling Rho-independent terminators. Comparisons of the sequences of argS-rrn DNA fragments from endosymbionts of six additional aphid species indicated conservation of sequences corresponding to a single -35 (TTGACA) and -10 (TGTAAT) promoter region, as well as boxA (sequence involved in antitermination) and boxC. The B. aphidicola argS-rrn DNA fragments from endosymbionts from seven species of aphids had promoter activities in E. coli which ranged from 6 to 135% of that observed with a comparable DNA fragment of E. coli rrnB. Similarly, the putative B. aphidicola terminator was functional in E. coli. In most eubacteria, the rRNA-encoding genes are arranged in the order, 16S, 23S, 5S, and are part of a single operon.(ABSTRACT TRUNCATED AT 250 WORDS)
Gene 1993 Dec 31
PMID:Buchnera aphidicola (a prokaryotic endosymbiont of aphids) contains a putative 16S rRNA operon unlinked to the 23S rRNA-encoding gene: sequence determination, and promoter and terminator analysis. 750 75

Activity against human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) in the organic extract of the Red Sea sponge Toxiclona toxius was traced by us to five novel natural compounds, namely toxiusol [1], shaagrockol B [3], shaagrockol C [4], toxicol A [6], all of which are sulfated hexaprenoid hydroquinones, and toxicol B [7], the p-hydroquinone derivative of compound 6. The hydrolysis of the two sulfated compounds 1 and 4 yielded the corresponding hydroquinones designated as compounds 2 and 5, and further oxidation of compound 7 afforded the corresponding p-quinone derivative, compound 8. All compounds exhibited inhibitory activity of both DNA polymerizing functions of HIV-1 RT but failed to inhibit the RT-associated ribonuclease H activity. Toxiusol [1] was found to be the most potent inhibitor of the RNA-dependent DNA polymerase function (with 50% inhibition obtained at 1.5 microM and 95% inhibition at 4.6 microM), whereas the DNA-dependent DNA polymerase was significantly less sensitive to the inhibitor (with 50% inhibition achieved at 6.6 microM and 95% inhibition only at 41.6 microM). The fact that compound 1 discriminates between the two DNA polymerase activities of the RT offers new prospects for developing potent and highly specific anti-RT compounds, since the RNA-dependent DNA polymerase activity of RT is the only unique function that is not expressed at significant levels in uninfected mammalian cells.
J Nat Prod 1993 Dec
PMID:Hexaprenoid hydroquinones, novel inhibitors of the reverse transcriptase of human immunodeficiency virus type 1. 751 Jul 86

The organization of the U3, U8, and U13 small nucleolar ribonucleoproteins (snoRNPs) has been investigated in HeLa cells using antisense DNA and 2'-OMe RNA oligonucleotides. Oligomers corresponding to deoxynucleotides that target RNase H degradation of intact RNP particles were synthesized and used for fluorescence in situ hybridization. U3 and U13 are distributed throughout the nucleolus and colocalize with anti-fibrillarin antibodies. U8, however, is organized in discrete ring-like structures near the center of the nucleolus and surround bright punctate regions visualized with anti-RNA polymerase I and anti-UBF/NOR-90 antibodies. In decondensed nucleoli, a necklace of smaller ring-like structures of U8 RNA appear. A model for the recruitment of U8 (and presumably other processing factors) to the sites of rRNA transcription is discussed. Hybridization to mitotic cells showed that unlike pol I and NOR-90, U8 is dispersed into the cytoplasm during mitosis. The subnucleolar organization of U8 is consistent with its demonstrated participation in early intermediate steps in pre-rRNA processing. In contrast, the more dispersed intranucleolar distribution of U3 agrees with its putative involvement in both early and late steps of rRNA maturation. These studies illustrate the feasibility of mapping functional domains within the nucleolus by correlating the in vitro activities of small nuclear RNPs with their in situ locations.
Mol Biol Cell 1994 Dec
PMID:Organization of small nucleolar ribonucleoproteins (snoRNPs) by fluorescence in situ hybridization and immunocytochemistry. 753 31

HIV integrase is the enzyme responsible for inserting the viral DNA into the host chromosome; it is essential for HIV replication. The crystal structure of the catalytically active core domain (residues 50 to 212) of HIV-1 integrase was determined at 2.5 A resolution. The central feature of the structure is a five-stranded beta sheet flanked by helical regions. The overall topology reveals that this domain of integrase belongs to a superfamily of polynucleotidyl transferases that includes ribonuclease H and the Holliday junction resolvase RuvC. The active site region is identified by the position of two of the conserved carboxylate residues essential for catalysis, which are located at similar positions in ribonuclease H. In the crystal, two molecules form a dimer with a extensive solvent-inaccessible interface of 1300 A2 per monomer.
Science 1994 Dec 23
PMID:Crystal structure of the catalytic domain of HIV-1 integrase: similarity to other polynucleotidyl transferases. 780 Nov 19

A ribonuclease H activity from human placenta has been separated by ion exchange chromatography from the major RNase HI enzyme. Additional chromatographic steps allowed further purification, more than 3,000 fold compared to the crude extract in which it represents about 15% of the total RNase H activity. The enzyme requires Mg2+ ions for its activity, is strongly inhibited by the addition of Mn2+ ions or other divalent transition metal ions, and exhibits a pH optimum between 8.5 and 9. It shows a strong sensitivity to the SH-blocking agent N-ethylmaleimide. It has a strict specificity for double-stranded RNA-DNA duplexes and exhibits neither single-stranded nor double-stranded RNase (or DNase) activities. Therefore, this enzyme displays the characteristics of class II RNase H and is now termed RNase HII. Renaturation gel assays and gel filtration experiments proved a monomeric structure for the active enzyme with a native molecular weight of about 33 kDa. The human RNase HII acts as an endonuclease and releases oligoribonucleotides with 3'-OH and 5'-phosphate ends. It is therefore a candidate for the RNase H-mediated effect of antisense oligodeoxynucleotides.
Nucleic Acids Res 1994 Dec 11
PMID:Purification and characterization of human ribonuclease HII. 781 13

Generation of double-stranded cDNA during reverse transcription of a variety of mRNA molecules is well known to involve the formation of covalently linked antisense and sense strands in a hairpin configuration. In the present study we have examined the sequence of molecular events which occurs during cDNA synthesis from mouse beta globin mRNA, in particular the self-priming event that initiates synthesis of sense-strand DNA. Upon completion of reverse transcription of globin mRNA and the removal of RNA template by RNase H activity associated with reverse transcriptase, the 3' end of cDNA snaps back to form a stable double-stranded structure, which is extended by reverse transcriptase to generate the sense DNA strand. Surprisingly, the fourteen 3' terminal nucleotides of the beta globin antisense DNA strand (cDNA) have strong complementarity with an internal segment of the same molecule corresponding to a portion of the 5'-untranslated region of the mRNA located just upstream of the translation start site. Efficient second strand cDNA synthesis appears to require the occurrence within the cDNA molecule of these two complementary elements, one of which must be 3'-terminal. A second surprising feature is that the strong complementarity between the terminal and the internal portions of the molecule exists in the antisense DNA and not in the sense mRNA strand. This is because A:C mismatches on the sense strand correspond to relatively stable T:G base pairs on the antisense strand. Such an extended region of complementarity within the segment of cDNA corresponding to the short 5' untranslated region of beta globin mRNA is unlikely to occur purely by chance, suggesting some underlying function. In this regard it is of interest that cDNAs of adult beta globin mRNAs from other mammalian species show a very similar arrangement of complementary elements, and that complementarity is heavily conserved, even when there are substitutions in nucleotide sequence.
Nucleic Acids Res 1994 Dec 11
PMID:Evolutionarily conserved elements in the 5' untranslated region of beta globin mRNA mediate site-specific priming of a unique hairpin structure during cDNA synthesis. 781 20

Oligonucleotide (2-aminoethyl)phosphonates in which the backbone consisted of isomerically pure, alternating (2-aminoethyl)-phosphonate and phosphodiester linkages have been prepared and characterized. One of these single isomer oligonucleotides (Rp) formed a more stable duplex with DNA or RNA than its corresponding natural counterpart. Hybrid stability was more pH-dependent, but less salt-dependent than a natural duplex. The specificity of hybridization was examined by hybridization of an oligonucleotide containing one (2-aminoethyl)phosphonate to oligonucleotides possessing mismatches in the region opposite to the aminoethyl group. In contrast to oligonucleotides containing (aminomethyl)-phosphonate linkages, oligonucleotide (2-aminoethyl)phosphonates were completely stable to hydrolysis in aqueous solution. These oligonucleotides were resistant to nuclease activity but did not induce RNase H mediated cleavage of a complementary RNA strand. Incubation in a serum-containing medium resulted in minimal degradation over 24 hours. Studies of cell uptake by flow cytometry and confocal microscopy demonstrated temperature dependent uptake and intracellular localization. (2-Aminoethyl)phosphonates represent a novel approach to the introduction of positive charges into the backbone of oligonucleotides.
Nucleic Acids Res 1994 Dec 11
PMID:Oligonucleotides with novel, cationic backbone substituents: aminoethylphosphonates. 781 33

The expression of TCR-beta mRNAs competent to encode functional V(D)JC beta proteins requires the activation of programmed DNA rearrangement events. It is not known whether other regulatory mechanisms control the steady-state levels of mature TCR-beta transcripts during thymic ontogeny. In this report, we demonstrate that TCR-beta pre-mRNAs accumulate in T cells, thus implicating RNA splicing as another potential level of regulation. Three methods were used to characterize the intron content of these pre-mRNA: Northern blot analysis, ribonuclease H mapping, and reverse transcription polymerase chain reaction analysis. Using these methods, we demonstrate that intron-containing TCR-beta transcripts derived from both the JC beta 1 and JC beta 2 loci accumulate in murine fetal and adult thymus. (VD)JC beta 1 pre-mRNAs that accumulate in the thymus possess unusually long poly(A) tails (> or = 300 nucleotides) and contain different combinations of four introns: the large intron between the J beta 1 and C beta 1 elements and the three introns within the C beta 1 element. The presence of an unusual transcript possessing IVS2C beta 1 at the 5' terminus suggests that cleavage of its splice acceptor is inefficient or negatively regulated. The profile of incompletely spliced TCR-beta transcripts present in the thymus in vivo is identical in intron content to those that we previously showed accumulate in the nucleus of the immature SL12.4 T lymphoma cell clone. An unstable negative regulatory protein may control TCR-beta expression in this cell clone because fully spliced TCR-beta transcripts are dramatically induced in the cytoplasm after treatment with any of five different protein synthesis inhibitors (cycloheximide, anisomyosin, emetine, puromycin, and pactamycin), all of which act by distinct mechanisms to inhibit protein synthesis.
J Immunol 1993 Dec 15
PMID:T cell receptor-beta mRNA splicing during thymic maturation in vivo and in an inducible T cell clone in vitro. 790 99

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