Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.9 (ribonuclease)
 6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We identified a Mg2+ dependent 5' exo-ribonuclease and an RNA ligase in cell-free extracts of Trypanosome brucei. The exo-ribonuclease in S100 or nuclear extracts, removes about 20 nts from the 5' end of SP6 derived capped as well as uncapped RNA and then stops. In contrast to the activity of the exo-ribonuclease on capped SP6 mini-exon transcripts, the exonuclease cannot degrade trypanosome-derived mini-exon transcripts or the mini-exon located at hsp 70 mRNAs. We therefore assume that the four secondary base modifications adjacent to the mini-exon cap, generated in vivo, confer resistance to the exo-ribonuclease. After exonuclease shortening of SP6 transcripts, an RNA ligase catalizes intramolecular ligation, generating a 3'-5' phosphodiester bond in a Mg2+ and ATP dependent reaction.
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PMID:A 5' exo-ribonuclease and RNA ligase of T. brucei. 246 Aug 26

We used a ribonuclease cleavage assay to screen for insulin receptor mRNA sequence alterations in 12 patients with syndromes of severe insulin resistance. Uniformly labeled [32P]antisense RNA probes complementary to insulin receptor mRNA were prepared by an SP6 or T7 RNA polymerase transcription reaction. Four probes ranging in size from 670-1470 bases were used to examine the entire 4.2-kilobase receptor protein-coding region. Patient RNA samples were hybridized to individual probes in solution, and mismatched sequences were detected by susceptibility to cleavage by a mixture of RNAses A and T1. The method was validated with insulin receptor mRNAs from cells transfected with cDNA constructs bearing known point and deletion mutations. Alterations in the insulin receptor mRNA sequence of two patients were detected. A patient with the type A syndrome of severe insulin resistance (A2-Boston) had a mutation in the insulin receptor beta-subunit mRNA sequence that localized to the region coding for amino acid residues 1174-1211 near the tyrosine kinase domain. The second alteration was a sequence polymorphism in the insulin receptor alpha-subunit mRNA in a patient with lipoatropic diabetes (LA-2) that localized to a region within amino acids 268-272. Direct sequence analysis revealed that the ribonuclease cleavage sites in patients A2-Boston and LA-2 were due to distinct single base changes in the insulin receptor gene and mRNA. Additional insulin receptor mRNA sequence polymorphisms were also identified as mismatches between the labeled RNA probes used and mRNA from several cultured human cell types. This study demonstrates that ribonuclease cleavage can rapidly detect and localize insulin receptor mRNA sequence mutations and polymorphic variations as small as single base changes. Further analysis of insulin receptor mRNA sequence alterations identified in this way may elucidate a possible genetic basis for functional insulin receptor defects in patients with severe insulin resistance and can also reveal some insulin receptor sequence polymorphisms that occur in the population at large.
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PMID:Insulin receptor messenger ribonucleic acid sequence alterations detected by ribonuclease cleavage in patients with syndromes of insulin resistance. 273 94

In situ hybridization is used for detection of RNA expression when conservation of tissue architecture is important. Most in situ hybridization protocols are written for tissues from animals (i.e., rat) which can be harvested and preserved rapidly. In contrast, human tissue is more difficult to obtain, hence in situ hybridization experiments must frequently be performed with less than optimal tissue preservation. This procedure details hybridization of a radiolabeled single-stranded RNA probe (riboprobe) to complementary sequences of cellular RNA in human tissue sections. This method enables detection of rare mRNA species in specific cell types of human tissue, offering distinct advantages over other in situ methods due to increased sensitivity. In particular, we have found that UV cross-linking and ribonuclease treatment protocols need to be altered for human tissues to ensure successful results, making this protocol unique to those previously described. In situ hybridization experiments can be performed using either DNA or RNA probes. RNA probes are advantageous since they form stable hybrids, are single-stranded, have little or no reannealing during hybridization, and can be synthesized to high specific activity. RNA probes can be readily created utilizing SP6, T3, or T7 promoters in both sense and antisense orientations to provide non-specific (control) and specific probes. Disadvantages of RNA riboprobes include a tendency for RNA to stick non-selectively more than DNA, and degradation by RNase (hence strict adherence to RNase-free precautions is mandatory during most of the protocol). The following protocol includes: (1) preparation of human tissues (tissue fixation and sectioning are highlighted as critical for probe penetration, preservation of tissue architecture, retention of tissue RNA, and overall success); (2) generation of radiolabeled riboprobes (total incorporation of radionucleotide is important to increase sensitivity; 35S was chosen as a compromise between excellent sensitivity, cellular resolution, and required exposure times (compared with 32P or 3H); non-isotopic methods have not been tested in a side-by-side comparison with 35S in human tissues by us, but theoretically might offer faster exposure times while maintaining high resolution); (3) hybridization conditions (stringency, temperature, washes, tissue dehydration); and (4) sample visualization (application of photographic emulsion, developing, fixing, staining, and counterstaining of individual slides).
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PMID:In situ hybridization: identification of rare mRNAs in human tissues. 938 82

The spontaneous self-assembly mechanism of tobacco mosaic virus (TMV) led us to predict that contiguous foreign RNA sequences of unlimited length would be fully encapsidated into ribonuclease-resistant, virus-like particles ("pseudovirions"), provided the cognate origin-of-assembly sequence from TMV RNA was present. We describe the construction of SP6-transcription plasmids and in vitro synthesis of recombinant RNAs bearing a correctly oriented, 3' terminal, origin-of-assembly from TMV RNA together with 5'-coding regions for chicken egg white prelysozyme, calf preprochymosin or Xenopus borealis rRNA. In the presence of a "disk" preparation of TMV coat protein, complete assembly of the prelysozyme coding sequence into ribonuclease-resistant, rod-shaped pseudovirions was directed specifically by the 3'-TMV RNA sequence. Helical particles of the predicted length were visible in the electron microscope and could be separated by sucrose gradient centrifugation. This in vitro RNA packaging system may offer a more efficient, protective route to introduce foreign mRNAs into whole plants or protoplasts by "pseudoinfection", particularly when studying the transient expression of mRNAs incapable of replicating or spreading from cell to cell. However, we have detected some constraints in the assembly elongation process, especially with highly structured transcripts such as rRNA. The significance of these observations for current views on the cooperative self-assembly mechanism of TMV is discussed.
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PMID:Packaging of recombinant RNA molecules into pseudovirus particles directed by the origin-of-assembly sequence from tobacco mosaic virus RNA. 1864 Jun 55

The ribonuclease protection assay (RPA) has emerged as an important methodology for the detection, mapping, and quantification of RNAs. In this assay, total or cytoplasmic RNAs are hybridized to a high-specific activity antisense radioactive RNA probe synthesized by in vitro transcription from the SP6 or T7 promoter of an appropriate linearized plasmid template by the bacteriophage SP6 or T7 polymerase, respectively. The RNA hybrids are subjected to RNAse digestion and the protected products are resolved by denaturing polyacrylamide gel electrophoresis to allow detection of specific RNA fragments by subsequent autoradiography. RPAs are highly sensitive, the probes can be specifically targeted, and, when performed in probe excess, are quantitative, making them the method of choice for many analyses of RNA processing events.
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PMID:RNAse mapping and quantitation of RNA isoforms. 2258 29