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)

An antisense oligodeoxynucleotide (ODN) approach was used to investigate whether mitogen-activated protein kinase (MAPK) is necessary for the hypertrophic response in cardiac myocytes. A phosphorothioate-protected 17-mer directed against the initiation of translation sites of the p42 and p44 MAPK isoform mRNAs was introduced into cultured cardiac myocytes by liposomal transfection. At an antisense ODN concentration of 0.2 mumol/L, p42 MAPK protein was reduced by 82% (immunoblot) after 48 hours, and p42 and p44 MAPK activities were reduced by 44% and 60%, respectively. The same concentration of anti-MAPK ODN inhibited development of the morphological features of hypertrophy (sarcomerogenesis, increased cell size) in myocytes exposed to phenylephrine. Phenylephrine-induced activation of the atrial natriuretic factor (ANF) promoter (measured by the activity of a transfected ANF promoter/luciferase reporter gene) and induction of ANF mRNA (measured by RNase protection assay) were also attenuated. We conclude that MAPK is important for the development of the hypertrophic phenotype in this model of hypertrophy.
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PMID:Depletion of mitogen-activated protein kinase using an antisense oligodeoxynucleotide approach downregulates the phenylephrine-induced hypertrophic response in rat cardiac myocytes. 863 45

We have shown that antisense oligonucleotides can be targeted to hepatitis B virus (HBV)-infected cells, resulting in specific inhibition of viral protein synthesis and replication in vitro. The targeting system was based on the internalization of DNA complexes by highly selective receptors for galactose-terminal glycoproteins, asialoglycoproteins, on the surface of hepatocytes. Our objective in this study was to determine whether antisense DNA could be targeted to hepatocytes to prevent subsequent infection by HBV. A 21-mer phosphorothioate-linked oligo DNA complementary to the HBV polyadenylation signal and 5'-upstream sequences was complexed to a targetable DNA carrier consisting of asialoglycoprotein coupled to polylysine. Pretreatment of Huh7, asialoglycoprotein receptor (+) cells, with antisense complexes before lipofection with an HBV-plasmid at a level of 6.5 x 10(6) copies of plasmid per cell inhibited the amount of newly synthesized, core-associated viral DNA in Huh7 cells to undetectable levels, less than 0.1 pg, as assessed by quantitative polymerase chain reaction (PCR). Hepatitis B viral RNA transcripts were decreased by 60% compared with controls as detected by RNase protection assays, and HBV surface antigen (HBsAg) accumulation was inhibited by 97%. The inhibition lasted for 6 days and was dose dependent. Controls consisting of antisense alone and a random oligo complex showed no significant effect on any of the parameters under identical conditions. We conclude that preexposure of cells to targeted complexed antisense DNA can substantially block viral gene expression and viral replication after transfection of HBV DNA.
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PMID:Inhibition of hepatitis B virus replication by targeted pretreatment of complexed antisense DNA in vitro. 867 42

The Sendai virus polycistronic P/C mRNA encodes the P and C proteins from alternate overlapping reading frames. To determine the functions of these proteins in virus replication, hammerhead ribozymes were targeted to cleave the 5'-untranslated region of the P/C mRNA. Both cell-free and intracellular assays were employed to determine ribozyme efficacy. To appropriately compare activities between cell-free and intracellular assays, identical ribozymes were synthesized in vitro as well as expressed in cells. Ribozyme parameters, namely hybridization arm length (HAL) and nonhybridizing extraneous sequences (NES), were found to have rate-determining properties. In cell-free reactions, ribozymes with 13-mer HAL were up to 10-fold more efficient than those with 9-mer HAL. Ribozymes with 9-mer HAL were relatively ineffective in transfected cells. Minimizing the number of NES increased ribozyme efficiency in vitro. However, ribozymes with minimal NES were essentially inert intracellularly. The NES at the termini of the most effective intracellular ribozyme, Rz13st ( approximately 95% inhibition of the p gene expression), were predicted to fold into stem-loop structures. These structures most likely increase ribozyme stability as evidenced by the 8-fold higher resistance to ribonuclease T2 digestion of Rz13st compared with Rz13B. Our results suggest that when designing effective intracellular ribozymes, parameters that enhance formation of productive ribozyme:substrate duplexes and that increase RNA stability should be optimized.
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PMID:Efficient hammerhead ribozymes targeted to the polycistronic Sendai virus P/C mRNA. Structure-function relationships. 899 15

We have explored the use of short (10-mer), fully sequence-randomized oligonucleotide libraries for affinity-based screening in solution for energetically preferred sites of hybridization of a model 47-nucleotide (nt) mutant Ha-ras mRNA stem-loop fragment. In characterizing the model, binding studies using either a gel mobility-shift assay or an RNase ONE footprinting assay indicated the presence of a greatly preferred hybridization site for individual antisense RNA oligonucleotides on the 5'-most side of the ras RNA 19-nt loop. However, initial attempts to affinity-titrate combinatorial uniform 2'-O-methyl-substituted oligonucleotide libraries for selective binding to this 5'-loop site using an RNase ONE footprinting assay that can discriminate between binding to different sites on ras RNA were unsuccessful. By reducing the complexity of the library to a mix of seven RNA oligonucleotides complementary to a range of sites on ras RNA and with no self-complements, footprinting evidence for binding was obtained but was characterized by ras RNA site-specific binding constants differing dramatically from binding constants for individual oligonucleotides. The library complexity was reduced further to three different cases of two RNA oligonucleotides, one of which for all cases was the highest affinity 5'-loop complement. Detailed kinetic and thermodynamic binding analyses revealed a good fit of the data to independent (5'-loop and ascending stem sites), competitive (overlapping 5'-loop sites), or mutually allosteric (5'-loop and 3'-loop sites) formalisms and an energetics description showed that ras 5'-loop site-specific binding could be achieved by affinity titration only for the independent case. Reconstruction of events with the full complexity library suggested that there was the emergence of multiple, linked binding interactions and implied that successful hybridization affinity screening would be achieved only if all possible bimolecular binding interactions of individual library oligonucleotides with target RNA could be made mutually independent. Accordingly, by holding the calculated concentration of unique oligonucleotide sequences of a full complexity DNA library well below the value for the dissociation constant for binding of individual complement to the 5'-loop site and then titrating the concentration of ras RNA through this value, hybridization specific to the 5'-side of the ras loop was demonstrated as assayed either by sequential gel mobility-shift resolution of bimolecular complexes and RNase ONE footprinting in situ in gel slices or by RNase H cleavage of complexes in solution. Because this strategy uses an unbiased oligonucleotide library it should combinatorially identify energetically preferred hybridization sites on folded RNA targets of any sequence and of undetermined structure. This should enable a focused in vitro optimization of antisense oligonucleotide length, sequence, and chemical composition for preferred site binding affinity and specificity which, in turn, may be expected to provide for enhanced biological potency and specificity (Lima et al., 1996). Finally, the complexity constraints encountered and the fundamental requirement to control them presented here also should be applicable to interactions with any biomolecule target of any chemical class of combinatorial library when screened in solution in pooled mixes.
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PMID:Control of complexity constraints on combinatorial screening for preferred oligonucleotide hybridization sites on structured RNA. 912 23

E coli genomic DNA was amplified by polymerase chain reaction (PCR) using two 5' and 3' oligonucleotide primers (27-mer). Amplified DNA was 191 bp. The region of amplified DNA on lac operon in E coli was 14 bp upstream from the transcription initiation site and 177 bp downstream. Amplified DNA was cloned into a phagemid vector for construction of plasmid, suitable for use as template for making strand-specific probe to detect initiated lac transcript by RNase protection assay, labelling for Southern and Northern hybridization. Another use of this probe made from this construct is to detect strand-specific DNA repair. The construct was verified by DNA sequencing.
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PMID:Cloning of PCR synthesized 191 bp DNA overlapping lac promoter for plasmid construction. 927 38

We have identified a double strand RNase (dsRNase) activity that can serve as a novel mechanism for chimeric antisense oligonucleotides comprised of 2'-methoxy 5' and 3' "wings" on either side of an oligoribonucleotide gap. Antisense molecules targeted to the point mutation in codon 12 of Harvey Ras (Ha-Ras) mRNA resulted in a dose-dependent reduction in Ha-Ras RNA. Reduction in Ha-Ras RNA was dependent on the oligoribonucleotide gap size with the minimum gap size being four nucleotides. An antisense oligonucleotide of the same composition, but containing four mismatches, was inactive. When chimeric antisense oligonucleotides were prehybridized with 17-mer oligoribonucleotides, extracts prepared from T24 cells, cytosol, and nuclei resulted in cleavage in the oligoribonucleotide gap. Both strands were cleaved. Neither mammalian nor Escherichia coli RNase HI cleaved the duplex, nor did single strand nucleases. The dsRNase activity resulted in cleavage products with 5'-phosphate and 3'-hydroxyl termini. Partial purification of dsRNase from rat liver cytosolic and nuclear fractions was effected. The cytosolic enzyme was purified approximately 165-fold. It has an approximate molecular weight of 50,000-65,000, a pH optimum of approximately 7.0, requires divalent cations, and is inactivated by approximately 300 mM NaCl. It is inactivated by heat, proteinase K, and also by a number of detergents and several organic solvents.
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PMID:Identification and partial purification of human double strand RNase activity. A novel terminating mechanism for oligoribonucleotide antisense drugs. 944 54

Ribozymes are sequences of catalytic RNA that are being evaluated as possible antisense therapeutics. This paper describes how capillary electrophoresis (CE) could be used to measure the catalytic rate of a synthetic hammerhead ribozyme in cleaving its substrate. This substrate was a synthetic full-RNA 17-mer, whereas the ribozyme was made up of a mixture of 37 2'-OH and 2'-OCH3 RNA nucleotides. After experimental conditions to exclude ribonuclease contamination were successfully met, different CE modes were tried out to separate the ribozyme from its substrate. Only the combination of chemical and thermal denaturation was adequate to disrupt strong secondary structures and to inhibit comigration of the two molecules. Cleavage kinetics were measured by continuous injection from the reaction vial into a polymer-filled capillary, and by determination of the area of the shrinking substrate peak. Compared to the well-established slab gel electrophoresis, CE is at least one order of magnitude faster, may be completely automated, allows easier and more precise quantitation of results, and, due to the small scale and self-contained nature of the apparatus, reduces health risks from dangerous chemicals. Unfortunately, UV detection in a 100-microm internal diameter capillary lacked the sensitivity to perform assays in the nanomolar range, which was necessary for a full Michaelis-Menten analysis.
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PMID:Capillary electrophoresis of RNA oligonucleotides: catalytic activity of a hammerhead ribozyme. 988 17

The 12 bp stem of the RNA hairpin responsible for the gag-pol frameshifting of the ribosomes during translation of the polycistronic HIV-1 mRNA has a pyrimidine-rich 5' strand and, consequently, a purine-rich 3' strand. Electrophoretic mobility shift assays have shown that DNA oligopyrimidines, 12 and 20 nucleotides long (but not oligopurines or G,T-containing oligomers), designed to form triplexes actually bind to the double-stranded RNA target. RNase V1 footprinting studies have confirmed the interaction between the hairpin stem and the RNA and 2'-O-methyl oligoribonucleotide analogues of the 12-mer oligodeoxypyrimidine as well as 5 propynyl,cytosine, containing the 12-mer oligodeoxypyrimidine, bind more strongly to the RNA target than the unmodified parent DNA oligomer. The complexes formed by the RNA hairpin and either the 12-mer oligodeoxypyrimidine or the 20-mer oligopyrimidine are stable at a neutral pH and in the absence of Mg2+ but blocked neither the reverse transcription nor cell-free translation of a RNA template in which the gag-pol frameshifting hairpin was inserted at the 5' end of the luciferase open reading frame.
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PMID:Binding of oligopyrimidines to the RNA hairpin responsible for the ribosome gag-pol frameshift in HIV-1. 1033 25

We previously suggested that the degree of polyamine stimulation of oligopeptide-binding protein (OppA) synthesis is dependent on the secondary structure and position of the Shine-Dalgarno (SD) sequence of OppA mRNA. To study the structural change of OppA mRNA induced by polyamines and polyamine stimulation of initiation complex formation, four different 130-mer OppA mRNAs containing the initiation region were synthesized in vitro. The structural change of these mRNAs induced by polyamines was examined by measuring their sensitivity to RNase T(1), specific for single-stranded RNA, and RNase V(1), which recognizes double-stranded or stacked RNA. In parallel, the effect of spermidine on mRNA-dependent fMet-tRNA binding to ribosomes was examined. Our results indicate that the secondary structure of the SD sequence and initiation codon AUG is important for the efficiency of initiation complex formation and that spermidine relaxes the structure of the SD sequence and the initiation codon AUG. The existence of a GC-rich double-stranded region close to the SD sequence is important for spermidine stimulation of fMet-tRNA binding to ribosomes. Spermidine apparently binds to this GC-rich stem and causes a structural change of the SD sequence and the initiation codon, facilitating an interaction with 30 S ribosomal subunits.
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PMID:Polyamine stimulation of the synthesis of oligopeptide-binding protein (OppA). Involvement of a structural change of the Shine-Dalgarno sequence and the initiation codon aug in oppa mRNA. 1042 55

RNase S consists of two proteolytic fragments of RNase A, residues 1-20 (S20) and residues 21-124 (S pro). A 15-mer peptide (S15p) with high affinity for S pro was selected from a phage display library. Peptide residues that are buried in the structure of the wild type complex are conserved in S15p though there are several changes at other positions. Isothermal titration calorimetry studies show that the affinity of S15p is comparable to that of the wild type peptide at 25 degrees C. However, the magnitudes of DeltaH(o) and DeltaC(p) are lower for S15p, suggesting that the thermal stability of the complex is enhanced. In agreement with this prediction, at pH 6, the T(m) of the S15p complex was found to be 10 degrees C higher than that of the wild type complex. This suggests that for proteins where fragment complementation systems exist, phage display can be used to find mutations that increase protein thermal stability.
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PMID:Protein stabilization through phage display. 1091 31

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