Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.26.4 (RNase H)
 2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CAD is a 243-kDa multidomain polypeptide which catalyzes the first three steps in mammalian de novo pyrimidine biosynthesis. The largest cDNA clone obtained thus far, pCAD142 (Shigesada, K., Stark, G.R., Maley, J. A., Niswander, L. A., and Davidson, J. N. (1985) Mol. Cell. Biol. 5, 1735), lacks the 5' end of the mRNA which encodes the amino terminus of CAD. To clone this missing segment, a synthetic oligonucleotide complementary to pCAD142 and poly(A)+ RNA template, isolated from a Syrian hamster cell line which overproduces the CAD mRNA, were used for cDNA synthesis. The resulting clone pKB11, which has a 1369-base pair (bp) cDNA insert, overlapping pCAD142 by 781 bp, was identified by hybridization methods and sequence analysis and found to contain the entire cDNA sequence for the amino end of the CAD polypeptide. The deduced amino acid sequence is homologous to seven carbamyl phosphate synthetases. Primer extension, oligonucleotide-directed RNase H digestion, and RNA sequencing indicated that pKB11 extends to within 68 bases of the 5' end of the CAD mRNA. This conclusion was confirmed by Northern blotting analysis of the 5'-flanking region of CAD gene. The probable 3' end of an unidentified gene which codes for a 1-kilobase (kb) transcript was identified immediately upstream of the CAD gene. Northern analysis using probes complementary to the region between the CAD and the 1-kb genes detected the presence of a small transcript of less than 300 nucleotides. The sequence revealed three potential translation initiation sites raising the possibility of more than one CAD translation product. The major translation start codon was identified as the first ATG in pKB11 by sequence homology, in vitro transcription and translation, and protein studies. Starting from this ATG within pKB11, the clone encodes a 143-residue domain of unknown function. This study completes the determination of the primary structure of the CAD polypeptide. The CAD mRNA is 7.5 kb in length and has 6675 bp of coding sequence and about 200 bp and 600 bp of untranslated sequence at the 5' and 3' ends, respectively.
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PMID:Molecular cloning of a cDNA encoding the amino end of the mammalian multifunctional protein CAD and analysis of the 5'-flanking region of the CAD gene. 167 75

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

We have located a positive, cis-acting DNA sequence element within the 5' flanking DNA of the c-myc gene (-125 base pairs). This DNA sequence element has a large purine-pyrimidine strand asymmetry and can assume the H-DNA conformation. A factor with the properties of a ribonucleoprotein (RNP) interacts with this DNA region. The interaction of the c-myc DNA sequence element and the RNP involves an RNase H-sensitive mechanism and, therefore, may involve an RNA.DNA hybrid. In addition, a protein factor(s) binds to this DNA sequence element. DNA footprinting and mutant oligonucleotide binding/competition assays implicate a punctate, poly(G.C) recognition/binding sequence for the RNP factor, whereas the major protein factor requires two ACCCT sequence motifs for maximal binding. These results suggest that RNP and protein factors act as positive transcriptional regulators of the c-myc gene, perhaps by altering DNA topology.
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PMID:Ribonucleoprotein and protein factors bind to an H-DNA-forming c-myc DNA element: possible regulators of the c-myc gene. 269 70

The mechanism of the human placental DNase VII, described previously (Hollis, G. F., and Grossman, L. (1981) J. Biol. Chem. 256, 8074-8079) has been investigated in further detail. The enzyme initiates exonucleolytic hydrolysis from the 3'-end of DNA in a nonprocessive, or distributive, manner, regardless of whether the carbohydrate moiety associated with the 3'-terminal nucleotide contains H or OH at its 2' and 3' positions. DNase VII does not have associated RNase H activity; however, it is capable of removing 3'-terminal ribonucleotides. The enzyme also can hydrolyze DNA containing a terminal nucleotide lacking a purine or pyrimidine as well as termini containing noncomplementary nucleotides. DNase VII activity is product-inhibited by deoxynucleoside 5'-monophosphates. From kinetic studies, the mononucleotide deoxyadenylic acid is a noncompetitive inhibitor with a Ki = 0.3 mM. The resemblance of DNase VII to the 3'----5' exonuclease activity of Escherichia coli DNA polymerase I and its possible role in excision repair and proofreading are discussed.
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PMID:DNase VII of human placenta. Mechanism studies. 388 48

We previously reported that in the endogenous reaction of Rous sarcoma virus disrupted by melittin, plus-strand DNA initiates on a small oligonucleotide primer and that this initiation can be reconstructed in vitro in reactions containing purified minus-strand DNA as template, viral RNA as a source of primer, and reverse transcriptase (Smith et al., J. Virol. 49:200-204, 1984). Further studies on the specificity of initiation in the endogenous reaction have shown the following. (i) The primer was 12 nucleotides in length. Its sequence began with a 5' pyrimidine, followed by 11 purines, ending with rGrA-3'. This sequence was in agreement with the known plus-strand RNA sequence immediately upstream from the initiation site. Thus, the primer began one nucleotide 5' to the so-called polypurine tract that has been found on all retrovirus genomes. (ii) The transition point between RNA primer and DNA product was precisely located. It was before the end of the polypurine tract. Thus the polypurine tract, although essential for virus replication and probably a flag for the priming event, did not define the limits of the RNA primer. After primer removal, the DNA had a 5' phosphate, consistent with generation by the viral RNase H activity. The priming specificity in reconstructed reactions was also examined further, with the following observations. (i) When the source of RNA primer was prehybridized to the template viral DNA, the generation, utilization, and subsequent removal of primer were essentially the same as those observed in the endogenous reaction. In the absence of deliberate prehybridization, some specificity was lost. There were than additional locations for the 5' end of the primer as well as the transition point between RNA primer and DNA. (ii) Purine-rich oligoribonucleotides created by RNase A digestion of viral RNA could prime strong-stop plus DNA, but again with the loss of specificity relative to that in the endogenous reaction. (iii) The 5' end of the minus-strand DNA template was not required for initiation of strong-stop plus DNA. Therefore, the specificity of initiation did not depend upon an intramolecular interaction requiring the two inverted repeat sequences that flank the long terminal repeat.
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PMID:Specificity of initiation of plus-strand DNA by Rous sarcoma virus. 609 61

Many eukaryotic genomes have been shown to contain long pyrimidine tracts. In mouse L-cells, at least some of these pyrimidine tracts are transcribed and form a significant portion of the poly(A)+ RNA sequences. In this study the results from three different experimental methods indicate that the sequences complementary to polypyrimidines are localized to the 3' end of mRNA molecules. First, polypyrimidines reacted preferentially with the 3'-end fragments of mRNA generated by limited alkaline cleavage. Second, digestion of [3H]mRNA-polypyrimidine hybrids with RNase H released 3'-end fragments of mRNA which averaged only 250 nucleotides (NT) in length. Third, polypyrimidine tracts were isolated from cDNA which averaged only 200-250 NT extending from the 3' end of the corresponding mRNAs. These data suggest that the sequences transcribed from pyrimidine tracts are quite close to the 3' end of the cellular messages in which they occur, probably within the terminal untranslated region.
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PMID:Sequences complementary to cellular deoxypolypyrimidines are localized in the 3' end of L-cell mRNA. 668 39

The antisense activity and gene specificity of two classes of oligonucleotides (ONs) were directly compared in a highly controlled assay. One class of ONs has been proposed to act by targeting the degradation of specific RNAs through an RNase H-mediated mechanism and consists of C-5 propynyl pyrimidine phosphorothioate ONs (propyne-S-ON). The second class of antisense agents has been proposed to function by sterically blocking target RNA formation, transport or translation and includes sugar modified (2'-O-allyl) ONs and peptide nucleic acids (PNAs). Using a CV-1 cell based microinjection assay, we targeted antisense agents representing both classes to various cloned sequences localized within the SV40 large T antigen RNA. We determined the propyne-S-ON was the most potent and gene-specific agent of the two classes which likely reflected its ability to allow RNase H cleavage of its target. The PNA oligomer inhibited T Ag expression via an antisense mechanism, but was less effective than the propyne-S-ON; the lack of potency may have been due in part to the PNAs slow kinetics of RNA association. Interestingly, unlike the 2'-O-allyl ON, the antisense activity of the PNA was not restricted to the 5' untranslated region of the T Ag RNA. Based on these findings we conclude that PNAs could be effective antisense agents with additional chemical modification that will lead to more rapid association with their RNA target.
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PMID:An assessment of the antisense properties of RNase H-competent and steric-blocking oligomers. 753 74

Replication of retroviral RNA into double-stranded DNA provirus involves initiation of plus-strand DNA synthesis at the polypurine tract, PPT, by the reverse transcriptase (RT). The PPT is highly conserved among the known HIV-1 retroviral isolates. It occurs twice, once within the coding region of the integrase and the other one adjacent to the 3' LTR. The data presented show that two antisense oligonucleotides, a 20-mer and a 40-mer, complementary to the PPT induce complete blocks of DNA synthesis whereas an antisense oligonucleotide outside the PPT is only slightly inhibitory. Previously polypurine sequences have been used by several groups for triplex-formation. During replication the HIV-polypurine tract, PPT, is present in a RNA-DNA hybrid. Therefore triple-helix formation consisting of RNA-DNA and a third DNA strand covering the PPT region was tested here by protection against RNase H cleavage in vitro. Incubation with a pyrimidine oligonucleotide in parallel orientation to the PPT-RNA shows some protection. GT-pyrimidine-purine mixed oligonucleotides (25-mer) led to protection against RNase H up to 50% independent of their orientation. The data suggest that triple-helix formation may have taken place with the PPT in vitro. Therefore, this highly conserved structure may prove useful in nucleic acid based anti-viral therapy with antisense or triple-helix approaches. Furthermore, the influence of HIV-1 nucleocapsid (NC) protein, NCp15, on reverse transcription is reported. The data show a two- to three-fold stimulatory effect of the NCp15 on RNA directed DNA synthesis.
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PMID:The polypurine tract, PPT, of HIV as target for antisense and triple-helix-forming oligonucleotides. 768 36

Reduced oxygen tension (hypoxia) induces a 3-fold increase in stability of mRNA for tyrosine hydroxylase (TH), the rate-limiting enzyme in catecholamine synthesis, in the pheochromocytoma (PC12) clonal cell line. To investigate the possibility that RNA-protein interactions are involved in mediating this increase in stability, RNA gel shift assays were performed using different fragments of labeled TH mRNA and the S-100 fraction of PC12 cytoplasmic protein extracts. We identified a sequence within the 3'-untranslated region of TH mRNA that binds cytoplasmic protein. RNase T1 mapping revealed that the protein was bound to a 28 nucleotide long sequence that is located between bases 1551-1579 of TH mRNA. Moreover, protein binding to this fragment was prevented with an antisense oligonucleotide directed against bases 1551-1579 and subsequent RNase H digestion. This fragment of the 3'-untranslated region of TH mRNA is rich in pyrimidine nucleotides, and the binding of cytoplasmic protein to this fragment was reduced by competition with other polypyrimidine sequences including poly(C) but not poly(U) polymers. The binding of the protein to TH mRNA was increased when cytoplasmic proteins were extracted from PC12 cells exposed to hypoxia (5% O2) for 24 h. Electrophoresis of the UV cross-linked RNA-protein complex on SDS-polyacrylamide gel electrophoresis revealed a complex of 74 kDa. The potential role of this protein-TH mRNA interaction in regulation of TH mRNA stability during hypoxia is discussed.
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PMID:Hypoxia stimulates binding of a cytoplasmic protein to a pyrimidine-rich sequence in the 3'-untranslated region of rat tyrosine hydroxylase mRNA. 790 89

The potential of peptide nucleic acids (PNAs) as specific inhibitors of translation has been studied. PNAs with a mixed purine/pyrimidine sequence form duplexes, while homopyrimidine PNAs form (PNA)2/RNA triplexes with complementary sequences on RNA. We show here that neither of these PNA/RNA structures are substrates for RNase H. Translation experiments in cell-free extracts showed that a 15mer duplex-forming PNA blocked translation in a dose-dependent manner when the target was 5'-proximal to the AUG start codon on the RNA, whereas similar 10-, 15- or 20mer PNAs had no effect when targeted towards sequences in the coding region. Triplex-forming 10mer PNAs were efficient and specific antisense agents with a target overlapping the AUG start codon and caused arrest of ribosome elongation with a target positioned in the coding region of the mRNA. Furthermore, translation could be blocked with a 6mer bisPNA or with a clamp PNA, forming partly a triplex, partly a duplex, with its target sequence in the coding region of the mRNA.
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PMID:Antisense properties of duplex- and triplex-forming PNAs. 860 63


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