EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The complex of Artemia salina ribosomes and Escherichia coli acetylvalyl-tRNA could be cross-linked by irradiation with near-UV light. Cross-linking required the presence of the codon GUU, GUA being ineffective. The acetylvalyl group could be released from the cross-linked tRNA by treatment with puromycin, demonstrating that cross-linking had occurred at the P site. This was true both for pGUU- and also for poly(U2,G)-dependent cross-linking. All of the cross-linking was to the 18S rRNA of the small ribosomal subunit. Photolysis of the cross-link at 254 nm occurred with the same kinetics as that for the known cyclobutane dimer between this tRNA and Escherichia coli 16S rRNA. T1 RNase digestion of the cross-linked tRNA yielded an oligonucleotide larger in molecular weight than any from un-cross-linked rRNA or tRNA or from a prephotolyzed complex. Extended electrophoresis showed this material to consist of two oligomers of similar mobility, a faster one-third component and a slower two-thirds component. Each oligomer yielded two components on 254-nm photolysis. The slower band from each was the tRNA T1 oligomer CACCUCCCUVACAAGp, which includes the anticodon. The faster band was the rRNA 9-mer UACACACCGp and its derivative UACACACUG. Unexpectedly, the dephosphorylated and slower moving 9-mer was derived from the faster moving dimer. Deamination of the penultimate C to U is probably due to cyclobutane dimer formation and was evidence for that nucleotide being the site of cross-linking. Direct confirmation of the cross-linking site was obtained by "Z"-gel analysis [Ehresmann, C., & Ofengand, J. (1984) Biochemistry 23, 438-445].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Conservation of RNA sequence and cross-linking ability in ribosomes from a higher eukaryote: photochemical cross-linking of the anticodon of P site bound tRNA to the penultimate cytidine of the UACACACG sequence in Artemia salina 18S rRNA. 389 7

A fraction extracted from Mycobacterium bovis BCG was found to exhibit strong antitumor activity. This fraction, which was designated MY-1, caused some animal tumors to regress and/or prevent metastasis very effectively. MY-1 after digestion with DNase had almost completely reduced activity, while MY-1 digested with RNase did not. MY-1 also augmented natural killer (NK) cell activity of mouse spleen cells in vitro, and produced factors which showed anti-viral activity and rendered macrophages cytotoxic towards tumor cells. The function of the factor to activate macrophages was destroyed by treatment with anti-interferon (IFN)-gamma antibody, while the anti-viral activity was destroyed by treatment with anti-INF alpha/beta antibody. The oligonucleotides contained in MY-1 distributed in a broad range of molecular size, and peaked at 45 nucleotides. We synthesized 13 kinds of 45-mer nucleotides with sequence present in the known cDNA encoding various BCG proteins. Six out of these oligonucleotides, which contained one or more hexameric palindromic structures, showed strong antitumor activity, while the other without palindrome did not. These active oligonucleotides possessed the capability to induce IFN and to augment NK cell activity of mouse spleen cells by coincubation in vitro. When a portion of the sequence of the inactive oligonucleotides was substituted with either palindromic sequence of GACGTC, AGCGCT or AACGTT, the oligonucleotide acquired the ability to augment NK activity. In contrast, the oligonucleotides substituted with another palindromic sequence such as ACCGGT was without effect. Furthermore, exchange of two neighboring mononucleotides within, but not outside, the active palindromic sequence destroyed the ability of the oligonucleotide to augment NK activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Commemorative lecture of receiving Imamura Memorial Prize. II. Mode of action of oligonucleotide fraction extracted from Mycobacterium bovis BCG]. 752 22

To clarify the mechanism by which the RNA portion of a DNA/RNA hybrid is specifically hydrolyzed by ribonuclease H (RNase H), the binding of a DNA/RNA hybrid, a DNA/DNA duplex, or an RNA/RNA duplex to RNase HI from Escherichia coli was investigated by 1H-15N heteronuclear NMR. Chemical shift changes of backbone amide resonances were monitored while the substrate, a hybrid 9-mer duplex, a DNA/DNA 12-mer duplex, or an RNA/RNA 12-mer duplex was titrated. The amino acid residues affected by the addition of each 12-mer duplex were almost identical to those affected by the substrate hybrid binding, and resided close to the active site of the enzyme. The results reveal that all the duplexes, hybrid-, DNA-, and RNA-duplex, bind to the enzyme. From the linewidth analysis of the resonance peaks, it was found that the exchange rates for the binding were different between the hybrid and the other duplexes. The NMR and CD data suggest that conformational changes occur in the enzyme and the hybrid duplex upon binding.
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PMID:Binding of nucleic acids to E. coli RNase HI observed by NMR and CD spectroscopy. 769 32

Polyamide ("peptide") nucleic acids (PNAs) are molecules with antigene and antisense effects that may prove to be effective neuropharmaceuticals if these molecules are enabled to undergo transport through the brain capillary endothelial wall, which makes up the blood-brain barrier in vivo. The model PNA used in the present studies is an 18-mer that is antisense to the rev gene of human immunodeficiency virus type 1 and is biotinylated at the amino terminus and iodinated at a tyrosine residue near the carboxyl terminus. The biotinylated PNA was linked to a conjugate of streptavidin (SA) and the OX26 murine monoclonal antibody to the rat transferrin receptor. The blood-brain barrier is endowed with high transferrin receptor concentrations, enabling the OX26-SA conjugate to deliver the biotinylated PNA to the brain. Although the brain uptake of the free PNA was negligible following intravenous administration, the brain uptake of the PNA was increased at least 28-fold when the PNA was bound to the OX26-SA vector. The brain uptake of the PNA bound to the OX26-SA vector was 0.1% of the injected dose per gram of brain at 60 min after an intravenous injection, approximating the brain uptake of intravenously injected morphine. The PNA bound to the OX26-SA vector retained the ability to bind to synthetic rev mRNA as shown by RNase protection assays. In summary, the present studies show that while the transport of PNAs across the blood-brain barrier is negligible, delivery of these potential neuropharmaceutical drugs to the brain may be achieved by coupling them to vector-mediated peptide-drug delivery systems.
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PMID:Vector-mediated delivery of a polyamide ("peptide") nucleic acid analogue through the blood-brain barrier in vivo. 777 54

A sequence-selective artificial ribonuclease was prepared by attaching ethylenediamine to the 5'-end of a DNA oligomer as the sequence-recognizing moiety. The hybrid, incorporating a 19-mer DNA which is complementary with the A44-A62 sequence of tRNA(Phe), hydrolyzed the tRNA selectively at the 3'-side of C63.
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PMID:Selective hydrolysis of tRNA by ethylenediamine bound to a DNA oligomer. 788 43

We and others have described methods to label specific nucleic acid sequences in fixed cells by reverse in situ transcription (IST). They are simple alternatives to the tedious steps of in situ hybridization with labeled probes. We have favored use of thermostable DNA polymerases after heat denaturation of template secondary structure, accompanied by synthesis of cDNA from an annealed primer, but the approach has been limited by the low reverse transcriptase (RT) activity of Taq polymerase and delayed detection methods. We have improved the technique by the use of recombinant Thermus thermophilus (rTth) DNA polymerase and fluorescein-12-dUTP (FIST). Jurkat T lymphocytes were stimulated with ionomycin + phorbol myristate acetate to produce interleukin-2 (IL-2) mRNA in vitro overnight. They were cytospun onto slides and fixed in 70% ethanol + 30% DEPC-treated water, acetone, and air-dried. The slides were placed on a temperature-controlled heating block, and the cell spot was covered with a plastic coverslip. The temperature was raised to 95 degrees C, and 5-10 microliters of modified Perkin-Elmer/Cetus rTth RT reaction mix was injected under the edge of the coverslip. Each 10 microliters of mix in DEPC-water contained 10 mM Tris-HCl, pH 8.3, 90 mM KCl, 1 mM MnCl2, 1 mM dithiothreitol, 10 U placental ribonuclease inhibitor, 0.125 mM dA,C,GTPs, 0.1 mM fluorescein-12-dUTP, 2 U rTth DNA polymerase, and 4 pM 22-mer oligonucleotide primer, which spanned the second intron of IL-2. After 3 min at 95 degrees C, 1 min at 50 degrees C and 10 min at 72 degrees C, the slides were washed in 0.5 x phosphate-buffered saline, pH 7.0, at 42 degrees C, in 70% ethanol, 100% ethanol, and air-dried. The cells were mounted in antifade solution (2% n-propyl gallate in 70% glycerol), and could be viewed immediately by fluorescence microscopy. Image analysis showed that stimulated Jurkat cells were brighter than uninduced controls or those treated with RNase or without polymerase or primer. FIST appears to be useful for the detection of specific mRNAs in single cells.
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PMID:In situ transcription with Tth DNA polymerase and fluorescent nucleotides. 798 81

We investigated the properties of two antisense oligonucleotides, 11 alpha Pso and 14TMP, 11 and 14 nucleotides long, respectively, and conjugated to psoralen derivatives. These oligonucleotides were complementary to the mini-exon sequence of Leishmania amazonensis. Upon ultraviolet (UV) irradiation these oligomers were selectively cross-linked to DNA or RNA target sequences, either 14 or 35 nucleotides long. The yield of photo-addition was much lower on the longer targets than on the shorter ones, due to the presence of a hairpin structure. The co-addition of a helper oligonucleotide, whose binding site, on the 35-mer, was adjacent to that of the psoralen-derivatized antisense oligomer, improved the cross-linking efficiency. We then determined the effect of 14TMP on in vitro translation of Leishmania mRNA in cell-free extracts. Non-irradiated antisense oligonucleotide/mRNA complexes reduced the protein synthesis in wheat germ extract but not in rabbit reticulocyte lysate. Conversely, UV irradiation induced a 14TMP-dependent reduction of translation in reticulocyte lysate whereas the inhibition was not improved in the wheat germ extract. These results are discussed with respect to the involvement of RNase-H in the oligonucleotide-mediated effect on protein synthesis.
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PMID:Relative contribution of photo-addition, helper oligonucleotide and RNase H to the antisense effect of psoralen-oligonucleotide conjugates, on in vitro translation of Leishmania mRNAs. 808 83

Degenerate primers directed against conserved regions of the trk and trkB amino acid sequences were used in the polymerase chain reaction to isolate a 455 bp fragment from embryonic day 3 chicken cDNA encoding the trkC. This fragment was subsequently used to synthesize an anti-sense trkC cRNA probe which was used in a RNase protection assay of total RNA from chicken embryos. trkC mRNA was found in the E2 embryo with increasing levels later in development. In the E9 embryo highest levels were found in brain and spinal cord with intermediate levels in eye, heart, gut and muscle. Low levels were found in kidney, liver, skin and yolk sac. Using the 455 bp trkC fragment as a probe in RNA blot analyses of poly A+ RNA, a major transcript of 6.3 kb and two minor transcripts of 3 kb and 10 kb were found. In situ hybridization was performed on embryos taken at three stages of development (embryonic day 3, 9 and 19), using a 48-mer antisense oligonucleotide probe for chicken trkC. Within the sensory nervous system trkC mRNA expression at all ages was confined to the ventrolateral neurons of the spinal sensory and trigeminal ganglia as well as distal ganglia associated with the VIIth, IXth and Xth cranial nerves. Labelling for trkC mRNA was also observed within the developing CNS at E3 and the ganglion of Remak at E19. A barely detectable level of expression was observed in the sympathetic chain and no labelling was evident in the proximal ganglia of the cranial nerves. These results suggest that neurons have a very early capacity to respond to neurotrophin-3 which continues throughout embryonic development. The early expression of trkC mRNA also support the growing evidence suggesting a role for neurotrophins in neuronal differentiation.
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PMID:Molecular cloning and cellular localization of trkC in the chicken embryo. 826 14

The O6-alkylguanine-DNA alkyltransferase (ATase) is known to overcome the effects of promutagenic, precarcinogenic O6-alkylguanine induced in DNA by exposure to environmental, chemotherapeutic and dietary alkylating agents. Within an organ, the cell type-specific responses to these agents may be attributed, in part, to varying expression of critical DNA repair genes, like ATase. In order to determine the cell-specific expression of the human ATase gene, in situ hybridization was used to map the cellular distribution of ATase mRNA in tissue sections of normal human fetal and adult livers. Tissue sections were hybridized with a digoxigenin-labeled 39 base oligomer, antisense to ATase cDNA. Following immunodetection, using an alkaline phosphatase-conjugated anti-digoxigenin antibody, the ATase-specific mRNA levels were visualized in parallel with liver cell type identification. The specificity of the antisense probe and hybridization to human ATase mRNA was demonstrated by: (i) staining of Mer+ and not Mer- cells by the antisense probe; (ii) faint staining of liver sections when the antisense probe was not used during hybridization; (iii) no hybridization of liver sections by the sense probe; (iv) no staining of sections preincubated with RNase before hybridization; and (v) the retention of cell type-specific staining patterns in tissue sections incubated with DNase prior to hybridization with the antisense probe. The staining patterns appeared similar in adjacent sections of tissues obtained from the same liver and in sections obtained from either adult or fetal livers of different individuals. The expression of the ATase mRNA, as noted by stain intensity, appeared highest in all of the bile ductal cells. There was a heterogenous expression in hepatocytes, which varied from moderate to high stain. Staining in Kupffer cells also appeared to be high. Sinusoidal cells, endothelial cells of the hepatic artery and cells of the connective tissue showed weak hybridization, indicating low levels of ATase mRNA. These data explain, in part, the basis for a differential response of various cell types within the liver to the mutagenic and carcinogenic effects of alkylating agents.
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PMID:Cell type-specific expression of the O6-alkylguanine-DNA alkyltransferase gene in normal human liver tissues as revealed by in situ hybridization. 847 40

Ricin A-chin and alpha-sarcin are ribotoxins that inactivate eukaryotic ribosomes by modifying 28 S rRNA; ricin A-chain is an RNA N-glycosidase that depurinates the adenosine at position 4324 and alpha-sarcin is a ribonuclease that cleaves the phosphodiester bond on the 3' side of the adjacent guanosine (at position 4325). In cartoons of the secondary structure these two residues are seen to be embedded in a 17 base single-stranded loop over a seven base-pair helix. However, NMR spectroscopy of an oligoribonucleotide, a 29-mer that mimics the sarcin/ricin domain, indicates that the RNA has a compact conformation in which the guanosine at the position analogous to 4319 in 28 S rRNA is bulged out of what otherwise is an extended A-form helix. Since similar structural irregularities are used by proteins to bind to RNA, we have tested the effect of mutations of the bulged guanosine on recognition and covalent modification of the RNA by ricin A-chain and by alpha-sacrin. For the test a synthetic oligoribonucletide, a 35-mer, was used; the mutations were the deletion, the transition to adenosine, and the transversion to cytidine and uridine of the guanosine that is the analog of G4319. Each of the four mutations abolished cleavage og the RNA by alpha-sacrin, where depurination by ricin A-chain was little affected. Thus G4319 is an identity element for alpha-sacrin recognition. Analysis of the effect of alpha-sacrin on variant oligoribonucleotides in which additional bases were inserted between the identity element guanosine and the site of catalysis suggest that on binding to the RNA the toxin uses the guanosine for orientation and then cleaves at a fixed distance and at a fixed position in space.
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PMID:Determination of the 28 S ribosomal RNA identity element (G4319) for alpha-sarcin and the relationship of recognition to the selection of the catalytic site. 860 35

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