EC:3.1.27.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Rye embryo ribosomes were dissociated into subunits and the large subunit fraction was treated with formamide. A low molecular weight complex of RNA and protein (RNP) was released. Electrophoresis of the RNP in polyacrylamide gels containing sodium dodecyl sulphate yielded an RNA band and a single protein band. The protein had a molecular weight of approximately 41 000 and the RNA of the complex was shown to be 5S ribosomal RNA. Embryos were germinated in the presence of [32P]orthophosphate and the labelled RNP was isolated from their ribosomes. The RNA component was partially digested with pancreatic A ribonuclease and the parts protected from degradation by the protein were determined by sequence analysis. Although the whole 5S RNA molecule was shielded to some extent, the portion most protected was between nucleotides 68 and 108. This is, therefore, probably the part of plant cytosol 5S RNA which is primarily involved in the interaction with protein in the complex and possibly in the ribosome as well.
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PMID:Analysis of a 5S RNA-protein complex isolated from the ribosomes of rye embryos. 54 Feb 43

A procedure is described for quinacrine banding of radiolabeled metaphase chromosomes for autoradiography. The chromosomes can be labeled either in vivo or by in situ hybridization. The banding procedure involves treating the slides with RNase and formamide and staining in quinacrine. The slides are then processed for autoradiography. After development of the photoemulsion, the chromosomes can be karyotyped with UV light by their fluorescent banding patterns and the silver grains overlaying the chromosomes can be demonstrated by the addition of tungsten light. It is possible by careful manipulation of the visible light to simultaneously observe both fluorescent bands and silver grains. This technique should significantly increase the accuracy of chromosome identification after autoradiography and decrease the time and effort required for such analysis.
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PMID:Simultaneous observation of quinacrine bands and silver grains on radiolabeled metaphase chromosomes. 57 Jan 84

RNA fractions rich in immunoglobulin light (L)-chain mRNA were isolated from mouse myeloma MOPC 41 by procedures previously described, and chemically labeled with 125I. These RNA fractions were hybridized with MOPC 41 DNA under conditions of DNA excess. Hybridization conditions were chosen under which the entire sequence of the L-chain mRNA probe, thus including the variable region, remains available for hybridization throughout the reaction. The hybridization (C0t) curve showed double transition kinetics, with one component corresponding to about 250 gene copies and the other to about two to four copies. In contrast, when MOPC 41 L-chain mRNA was further purified as a single band by gel elecptrophoresis in 99% formamide, the hybridization curve showed only a single transition, corresponding to about two to four genes, with the disappearance of the "reiterated" component. That component resulted therefore from contaminating RNA species. The data indicate that no reiteration can be detected by RNase or by hydroxylapatite for the genes corresponding to the entire sequence of MOPC 41 L-chain mRNA, including the untranslated segments, within the limits of detectability of short reiterated segments. It thus appears that there is only one or very few genes corresponding to the 41 L-chain variable region "subgroup" in MOPC 41 DNA. The possibility that the variable genes of plasmocytes might result frm a combination of several nonreiterated germline genes is discussed.
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PMID:No detectable reiteration of genes coding for mouse MOPC 41 immunoglobulin light-chain mRNA. 81 7

Phage-related materials existing in cells infected with various mutants of bacteriophage phi chi 174 were investigated. A novel species of replicative-form (RF) DNA was found in cells infected with a phage mutant of gene B, C, D, F, or G. This species, called RFI, sedimented at a position between RFI and RFII in a neutral sucrose gradient. It was converted to RFI upon denaturation in alkali, denaturation in formamide and subsequent renaturation, or RNase treatment at low ionic strength. In cells infected with a phage mutant of gene C, RFI was derived from pulse-labeled RFII after a short chase. TLLS INFECTED WITH A MUTANT OF GENE B, D, or F. A possible function of the C gene product of phi chi 174 could be to prevent the conversion of RFII to RFI, thereby maintaining the availability of RFII to act as the template for single-stranded viral DNA synthesis. A protein complex containing no DNA, which sedimented with an S value of 108 in a sucrose gradient and contained virion proteins F, G, and H, and nonvirion protein D, was found in cells infected with the gene C mutant. A possible function of protein D was considered as a scaffolding protein for assembly of phage structural proteins.
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PMID:Functions of gene C and gene D products of bacteriophage phi X 174. 83 36

The 5'-terminal structures of murine alpha- and beta-globin mRNA were determined after incubating cells of the erythropoietic spleens of mice with [methyl-3H]methionine. Globin mRNA was obtained from total cellular RNA by oligo(dT)-cellulose chromatography followed by elution of mRNA from formamide gels after electrophoresis. The globin mRNA was then hydrolyzed with KOH or digested with a combination of RNase T2 and bacterial alkaline phosphatase, and 5'-terminal structures were isolated by DEAE-cellulose chromatography. The methylated nucleotides of these 5'-structures were determined following digestion with specific ribonucleases and bacterial alkaline phosphatase. Analyses of mRNA fractions enriched for either alpha- or beta-mRNA gave similar results. Our data indicate that murine alpha- and beta-globin mRNAs are identical through the first three nucleotides and that partial dimethylation exists at the second position: m7G(5')ppp(5') [m6Am/Am]pCmpNp.
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PMID:The 5'-terminal structures of murine alpha- and beta-globin messenger RNA. 83 40

The messenger RNAs encoding two late adenovirus serotype 2 (Ad2) proteins, fiber and 100K, were purified by hybridization to restriction endonuclease fragments of Ad2 DNA followed by electrophoresis on polyacrylamide gels containing 98% formamide. The 5' terminal oligonucleotides generated by RNAase T1 digestion of the messengers were selected by dihydroxyboryl-cellulose chromatography. Both mRNAs gave an identical 5'-undecanucleotide with the general structure 7mG5'ppp5'AmC(m)U(C4,U3)G. This undecanucleotide could be removed by mild RNAase treatment from the mRNA after hybridization to DNA fragments containing the main coding sequence of the messenger. In contrast, a small region defined by Bal I-E (14.7-21) protects this undecanucleotide from RNase. A second region contained within both Hind III-B (17-31.5) and Hpa I-F (25.5-27.9), although unable to protect the undecanucleotide, hybridizes to both fiber and 100K mRNAs and protects a similar sequence of 100-150 nucleotides. These observations suggest that both mRNAs contain a long common sequence, complementary to at least two different sites on the Ad2 genome remote from the start of these two genes. The implications of these findings are discussed, and a general mechanism is presented for the biosynthesis of mRNAs from larger precursor molecules, based on intramolecular ligation.
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PMID:Two adenovirus mRNAs have a common 5' terminal leader sequence encoded at least 10 kb upstream from their main coding regions. 90 21

The methylated constituents of early adenovirus 2 mRNA were studied. RNA was isolated from polyribosomes of cells double labeled with [methyl-3H]methionine and 32PO4 from 2 to 7 g postinfection in the presence of cycloheximide. Cycloheximide ensures that methylation and processing are performed by preexisting host cell enzymes. RNA was fractionated into polyadenylic [poly(A)]+ and poly(A)- molecules using poly(U)-Sepharose, and undergraded virus-specific RNA was isolated by hybridization to viral DNA in 50% formamide at 37 degrees C. Viral mRNA was digested with RNase T2 and chromatographed on DEAE-Sephadex in 7 M urea. Two 3H-labeled RNase T2-resistant oligonucleotide fractions with charges between -5 and -6 were obtained, consistent with two classes of 5' terminal methyl "cap" structures, m7G(5')ppp(5')NmpNp (cap 1) and m7G(5')ppp(5')NmNmpNp (cap 2) (Nm is a ribose 2'-O-methylation). The putative cap 1 contains all the methylated constituents of cap 1 plus Cm. The molar ratios of m7G to 2'-O-methylnucleosides is about 1.0 for cap 1 and 0.5 for cap 2, consistent with the proposed cap structures. Most significant, compositional analysis indicates four different cap 1 structures and at least three different cap 2 structures. Thus there is a minimum of seven early viral mRNA species with different cap structures, unless each type of mRNA can have more than one 5' terminus. In addition to methylated caps, early mRNA contains internal base methylations, exclusively as m6A, as shown by analyses of the mononucleotide (-2 charge) fraction. m6A was present in the ratio of 1 mol of m6Ap per 450 nucleotides. Thus viral mRNA molecules contain two to three internal m6A residues per methyl cap, since there is on the average 1 cap per 1,250 nucleotides.
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PMID:Multiple methylated cap sequences in adenovirus type 2 early mRNA. 97 98

The genome of infectious pancreatic necrosis virus consists of two segments of dsRNA, in equimolar amounts, with molecular weights of 2.5 X 10(6) and 2.3 X 10(6) daltons, as determined by polyacrylamide gel electrophoresis and autoradiography. The viral RNA was resistant to ribonuclease, and in sucrose gradient it co-sedimented at 14S with RNase resistant RNA from virus infected cells. Upon denaturation in 98% formamide, the viral genome sedi-mented at 24S in formamide sucrose gradient and became sensitive to RNase. Denatured 24S viral RNA did revert to its undenatured 14S form upon recentrifugation in aquaeous sucrose gradient (0.1 M NaCL), but co-sedimented with the denatured large size class of reovirus 25S RNA. The same results were obtained if the native viral RNA was pre-treated with ribonuclease before denaturation, indicating the absence of exposed single strainded regions in the viral genome. Since infectious pancreatic necrosis virus contains only two dsRNA segments it does not belong to the family Reoviridae and may represent a new group of viruses.
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PMID:Size and structure of the genome of infectious pancreatic necrosis virus. 98 79

Limited digestion of polysomal RNA with pancreatic ribonuclease releases a structure consisting of poly(A) associated with other polyribonucleotide sequences. This complex can be purified by oligo(dT)-cellulose chromatography. Heating for formamide treatment causes the dissociation of fragments free of poly(A) from the poly(A)-containing components. The two types of fragments tend to reassociate under annealing conditions, and this association is prevented by poly(U). Control experiments indicate that this structure is not an artifact generated during the manipulations. The same structure can be obtained by limited RNase digestion of polyribosomes, followed by deproteinization. The results suggest that the mRNA in polyribosomes may have a defined configuration caused by the interaction of the poly(A) sequence with another segment of the RNA.
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PMID:Association of the polyadenylate segment of messenger RNA with other polynucleotide sequences in mouse sarcoma 180 polyribosomes. 114 10

Preparative agarose gel electrophoresis under denaturing conditions has been successfully employed to purify large quantities of ovalbumin mRNA from hen oviducts. The mRNA thus prepared is physically homogeneous based on its migration as a single component on electrophoresis in both analytical acid-urea agarose gels and formamide-containing, neutral polyacrylaminde gels; it also sediments as a single peak in sucrose gradients containing 70% formamide. The mRNA is chemically free of ribosomal RNA contamination since its oligonucleotide fingerprint map after complete T1 ribonuclease digestion contains no detectable specific large oligonucleotide markers of ribosomal RNAs. It is also not contaminated by other biologically active messenger RNAs because, when it is added to the cell-free wheat germ translation system, the only protein product synthesized is ovalbumin as analyzed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and specific immunoprecipitation. Ovalbumin mRNA has a nucleotide composition of 32.3% A, 21.0% G, 25.7% U, and 20.7% C [(A+U)/(G+C) equal 1.41]. The mRNA contains a heterogeneous poly(A) tract ranging from 20 to 140 residues with a number average chain length of 62 adenylate residues. The molecular weight of the sodium salt of the purified mRNA is approximately 650,000 +/- 63,000, corresponding to a chain length of 1890 +/- 180 nucleotides, as determined by electron microscopy under completely denaturing conditions. This value is in close agreement with the values obtained from: (a) sucrose gradient centrifugation in the presence of 70% formamide; (b) evaluation of poly(A) content in the mRNA and the number average chain length of its poly(A) tract; and (c) sedimentation velocity studies in the presence of 3% formaldehyde. When 125I-labeled ovalbumin mRNA is allowed to hybridize with a large excess of chick DNA, the observed kinetics of hybridization reveal no appreciable reaction between the mRNA and the repeated sequences of the chick DNA, although the mRNA appears to be approximately 600 nucleotides longer than necessary to code for ovalbumin. It thus appears that the entire ovalbumin mRNA is primarily transcribed from a unique sequence in the chick genome.
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PMID:Physical and chemical characterization of purified ovalbumin messenger RNA. 115 96

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