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)

Reduced tension of O2 slows the degradation rate of mRNA for tyrosine hydroxylase (TH), the rate-limiting enzyme in catecholamine synthesis, in the pheochromocytoma (PC12) clonal cell line. The observed increase in half-life (30 h versus 10 h) correlates with enhanced binding of a 66-kDa protein (hypoxia inducible protein) to the pyrimidine-rich tract located between bases 1552 1578 in the 3 -untranslated region of TH mRNA (hypoxia-inducible protein binding site (HIPBS)). The present study investigates the protein binding site within the 27-base HIPBS, first by using specific cleavages of HIPBS and its flanking sequences with antisense oligodeoxynucleotides and RNase H and then by using mutational analysis of the binding properties. We found that the 27-base HIPBS oligoribonucleotide was sufficient to bind the protein in vitro in a hypoxia-stimulated manner. We further identified the optimal hypoxia-inducible protein binding site that is represented by the motif (U/C)(C/U)CCCU, where the core binding site is indicated by the underlined cytidines. Substitutions of either one of the cytidines with purine or uridine abolished the protein binding. The mutations within HIPBS, which partially reduced binding, did not prevent stimulation of protein binding for extracts from hypoxic cells. The hypoxia-induced increase in complex formation was proportional to the strength of binding using proteins from normoxic cells. The HIPBS element is conserved in TH mRNAs derived from different species.
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PMID:Characterization of the hypoxia-inducible protein binding site within the pyrimidine-rich tract in the 3'-untranslated region of the tyrosine hydroxylase mRNA. 862 33

alpha-Anomeric 2'-deoxycytidine and thymidine were synthesized in a stereospecific manner. With these nucleosides, pyrimidine homooligomers having either exclusively phosphodiester or phosphorothioate linkages were prepared using phosphoramidite method. All tested alpha-DNA.RNA complex was found to be inert toward the action of RNase H, even when phosphorothioate analogs were used as the DNA component. Among the alpha-anomeric homooligomers, alpha-oligocytidilate phosphorothioate exhibited potent inhibitory effect towards the action of RNase H on a DNA.RNA complex.
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PMID:Synthesis of alpha-anomeric homopyrimidine oligo DNA phosphorothioates and their physicochemical and biochemical properties. 884 82

We have explored different domains within the hepatitis C virus (HCV) 5' noncoding region as potential targets for inhibition of HCV translation by antisense oligodeoxynucleotides (ODNs). Inhibition assays were performed with two different cell-free systems, rabbit reticulocyte lysate and wheat germ extract, and three types of chemical structures for the ODNs were evaluated: natural phosphodiesters (beta-PO), alpha-anomer phosphodiesters (alpha-PO), and phosphorothioates (PS). A total of six original ODNs, displaying sequence-specific inhibition ranging from 62 to 96%, that mapped in the pyrimidine-rich tract (nucleotides [nt] 104 to 127) and in the initiator AUG codon (nt 338 to 357) were identified. Two ODNs, which were targeted at the initiatory AUG (nt 341 to 367 and 351 to 377) and which had been previously described as active against genotype 1b and 2a sequences, were shown to exhibit inhibition of expression (> 95%) of a type 1a sequence. Control experiments with the irrelevant chloramphenicol acetyltransferase sequence as a marker and randomized ODNs demonstrated that levels of inhibition associated with the use of PS compounds (of as much as 94%) were mainly due to nonspecific effects. Both alpha- and beta-PO ODNs were found equally active, and no difference could be seen in the activity of beta-PO when it was tested in either rabbit reticulocyte lysate or wheat germ extract, suggesting that RNase H-independent mechanisms may be involved in the inhibitions observed. However, specific RNA cleavage products generated from beta-PO inhibition experiments could be identified, indicating that, with these compounds, control of translation also involves RNase H-dependent mechanisms. This study further delimits the existence of favorable target sequences for the action of ODNs within the HCV 5' noncoding region and indicates the possibility of using nuclease-resistant alpha-PO compounds in cellular studies.
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PMID:In vitro inhibition of hepatitis C virus gene expression by chemically modified antisense oligodeoxynucleotides. 889 Nov 41

The three-dimensional solution structure of the hybrid duplex r(gaggacug):d(CAGTCCTC) has been determined by two-dimensional NMR, distance geometry (DG), restrained molecular dynamics (rMD) and NOE back-calculation methods. This hybrid, consisting of a purine-rich RNA strand and a pyrimidine-rich DNA strand, is related to the polypurine (+)-strand primer formed after (-)-strand DNA synthesis and RNase H degradation of the viral RNA strand and contains the site of a specific cleavage by reverse transcription (RT) RNase H at the end of the HIV-1 polypurine tract. This polypurine primer is an important intermediate in the formation of virally encoded double-stranded DNA prior to HIV-1 retrovirus integration. The correct processing of this primer is vital in the life cycle of the human immunodeficiency virus type (HIV-1) retrovirus. The structure of the r(gaggacug):d(CAGTCCTC) hybrid, as determined in solution by NMR, is intermediate between canonical A-type and B-type double helices, and has mixed structural characteristics. It is quantitatively different from the previously determined solution structures of other RNA-DNA hybrids, particularly in the width and shape of the major groove, which is wider than the major groove of other hybrids and is close to the dimension of the major groove of B-type DNA duplexes. The structure of this hybrid duplex contains a prominent bend in the double helix with a magnitude and direction similar to the bend in Okazaki fragments. The structural features of the present duplex may explain the unique interactions of this sequence with HIV-1 RT during both (-)-strand and (+)-strand DNA synthesis.
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PMID:Solution structure of r(gaggacug):d(CAGTCCTC) hybrid: implications for the initiation of HIV-1 (+)-strand synthesis. 919 Oct 67

Initiation of DNA plus-strand synthesis in most reverse-transcribing elements requires primer generation by reverse transcriptase-associated RNase H at one or more template polypurine tracts (PPTs). We have exploited infectious clones of the plant pararetrovirus cauliflower mosaic virus carrying redundant ectopic plus-strand priming elements to study priming in vivo. Ectopic priming generated an additional discontinuity in progeny virion DNA during infection of plants. We found that altering the length of the 13-base pair PPT by +/-25% significantly reduced priming efficiency. A short pyrimidine tract 5' to the PPT, highly conserved among diverse reverse-transcribing elements, was shown to play an important role in PPT recognition in vivo. The predominant DNA plus-strand 5' end remained 3 nucleotides from the PPT 3' end in mutant primers that were longer or shorter than the wild-type primer. Use of an ectopic redundant primer to study replication-dependent priming was validated by demonstrating that it could rescue infectivity following destruction of the wild-type priming elements. We propose a model for plant pararetroviral plus-strand priming in which pyrimidines enhance PPT recognition during polymerase-dependent RNase H cleavages, and suggest that fidelity of primer maturation during polymerase-independent cleavages involves PPT length measurement and 3' end recognition by RNase H.
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PMID:Analysis of polypurine tract-associated DNA plus-strand priming in vivo utilizing a plant pararetroviral vector carrying redundant ectopic priming elements. 982 93

Minimally modified oligonucleotides belong to the second-generation antisense class. They are phosphodiester oligonucleotides with a minimum of phosphorothioate linkages in order to be protected against serum and cellular exonucleases and endonucleases. They activate RNase H, have weak interactions with proteins, and have thus a better antisense efficiency. Two of them have been designed from an all-phosphorothioate antisense oligonucleotide directed against mdrl-expressing cells. They are protected against serum and cellular enzymatic degradation by the self-forming hairpin d(GCGAAGC) at their 3'-end and by judiciously located phosphorothioate residues, depending on the cellular composition in exonucleases or endonucleases. Besides their already demonstrated ability to cleave pyrimidine sites, endonucleases show some specificity for CpG sites. Their activity is hindered if specific sites are involved in secondary structure as hairpin.
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PMID:Best minimally modified antisense oligonucleotides according to cell nuclease activity. 1144 88

Retroviral conversion of single-stranded RNA into double-stranded DNA requires priming for each strand. While host cellular t-RNA serves as primer for the first strand, the viral polypurine tract (PPT) is primer for the second. Therefore, polypurine tracts of retroviruses are essential for viral replication by reverse transcriptase (RT). These purine tracts are resistant to cleavage during first strand synthesis. In obtaining the primer for second strand synthesis, the RNase H function of RT must cleave the PPT exactly for in vivo transcription to proceed efficiently and proper integration to occur. At the RNase H active site the protein makes contacts primarily along the backbone, with hydrogen bonds to the sugar-phosphate oxygen atoms. A high-resolution structure (1.10A) of the first ten base-pairs of the RNA/DNA hybrid PPT, r-(c-a-a-a-g-a-a-a-a-g)/d-(C-T-T-T-T-C-T-T-T-G), contains the highly deformable r-(a-g-a) steps found in retroviral polypurine tracts. This r-(a-g-a) motif is utilized in the "unzipping" or unpairing of bases that occurs when RT binds a malleable PPT. Another unusual feature found in our high-resolution PPT structure is the sugar switch at RNA adenine 2. All the RNA sugars are the expected C3'-endo, except sugar 2, which is C2'-endo, characteristic of B-form sugars. This local A-to-B conversion adversely affects the pattern of hydrogen bonds from protein to sugar-phosphate backbone, disrupting the catalytic site. Disruption could cause the enzyme to pause at the 5'-end of the PPT, leaving it intact. Pyrimidine-purine (YR) steps are most deformable and the T-A step especially can undergo A-to-B transitions readily.
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PMID:An unusual sugar conformation in the structure of an RNA/DNA decamer of the polypurine tract may affect recognition by RNase H. 1463 94

The locations of RNA-RNA cross-links in 16S rRNA were determined after in vivo incorporation of 4-thiouridine (s(4)U) into RNA in a strain of Escherichia coli deficient in pyrimidine synthesis and irradiation at >320 nm. This was done as an effort to find RNA cross-links different from UVB-induced cross-links that would be valuable for monitoring the 30S subunit in functional complexes. Cross-linked 16S rRNA was separated on the basis of loop size, and cross-linking sites were identified by reverse transcription, RNase H cleavage, and RNA sequencing. A limited number of RNA-RNA cross-links in nine regions were observed. In five regions-s(4)U562 x C879-U884, s(4)U793 x A1519, s(4)U1189 x U1060-G1064, s(4)U1183 x A1092, and s(4)U991 x C1210-U1212-the s(4)U-induced cross-links are similar to UVB-induced cross-links observed previously. In four other regions-s(4)U960 x A1225, s(4)U820 x G570, s(4)U367 x A55-U56, and s(4)U239 x A120-the s(4)U-induced cross-links are different from UVB-induced cross-links. The pattern of cross-linking is not limited by the distribution of s(4)U, because there are at least 112 s(4)U substitution sites in the 16S rRNA. The relatively small number of s(4)U-mediated cross-links is probably determined by the organization of the RNA in the 30S subunit, which allows RNA conformational flexibility needed for cross-link formation in just a limited region.
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PMID:Pattern of 4-thiouridine-induced cross-linking in 16S ribosomal RNA in the Escherichia coli 30S subunit. 1524 50

Recently, we have demonstrated that effective control of the recognition behavior of peptide ribonucleic acid (PRNA) with complementary DNA is possible through the anti-to-synorientational change of pyrimidine nucleobase induced by borate ester formation. In this study, DNA-PRNA chimera was prepared by the solidphase synthesis. In the DNA-PRNA chimeras, both PRNA and DNA domains work as recognition sites for the complementary DNA/RNAs to form stable complex, while DNA-RNA hybrids formed in the DNA domains of DNA-PRNA chimera should be substrates to the hydrolysis by RNase H and PRNA moieties work as recognition control/switching devices and as inhibitor for the hydrolysis by exonucleases. Interaction of the DNA-PRNA chimera with DNA and RNA has been discussed.
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PMID:Synthesis of peptide ribonucleic acid (PRNA)-DNA chimera and interaction with DNA and RNA. 1802 66

DNA.RNA hybrid duplexes are biologically important molecules and are shown to have potential therapeutic properties. To investigate the relationship between structures, energetics, solvation and RNase H activity of hybrid duplexes in comparison with pure DNA and RNA duplexes, a molecular dynamics study using the CHARMM27 force field was undertaken. The structural properties of all four nucleic acids considered are in very good agreement with the experimental data. The backbone dihedral angles and the puckering of the (deoxy)ribose indicate that the purine rich strands retain their A-/B-like properties but the pyrimidine rich DNA strand undergoes A-B conformational transitions. The minor groove widths of the hybrid structures are narrower than those in the RNA duplex, a requirement for RNase H binding. In addition, sampling of noncanonical phosphodiester backbone dihedrals by the DNA strands, differential solvation properties and helical properties, most notably rise, are suggested to contribute to hybrids being RNase H substrates. Differential RNase H activity toward hybrids containing purine versus pyrimidine rich RNA strands is suggested to be due to sampling of values of the phosphodiester backbone dihedrals in the DNA strands. Notably, the present results indicate that hybrids have decreased flexibility as compared to RNA, in contrast to previous reports.
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PMID:Atomic detail investigation of the structure and dynamics of DNA.RNA hybrids: a molecular dynamics study. 1819 61

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