Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.3 (RNase T1)
 1,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated three aspects of RNA turmor virus replication and cell transformation: (1) the properties of the purified avian and mammalian viral RNA-directed DNA polumerase, (2) some characteristics of the viral 60-70S RNA genome, 30-40S RNA subunits and intracellular viral RNA species, and (3) the interaction of the viral DNA polymerase with its RNA template early during infection and cell transformation by the murine sarcoma-leukemia virus (MSV[MLV]). Avian myeloblastosis virus (AMV) contains two forms of RNA-directed DNA polymerase, alpha, consisting of a single polypeptide of molecular weight 65,000, and alphabeta, consisting of two polypeptides of molecular weights 65,000 and 105,000. The alpha and alphabeta forms of AMV DNA polymerase both possess RNase H activity that requires free end termini on the ribopolymer and can degrade the RNA of the RNA-DNA hybrid in the 3' to 5' and 5' to 3' directions. But, alpha and alphabeta possess a different mode of exoribonuclease activity. While alphabeta RNase H is a processive exoribonuclease that degrades the polynucleotide chain to a core residue before attacking a second chain, alpha RNase H is a random exoribonuclease that releases the polynucleotide after each scission. Highly purified Moloney-MSV(MLV) DNA polymerase has both RNase H activity and the ability to read viral 60-70S RNA. These activities comigrate through five different steps of purification and are present at levels comparable to those found in purified AMV DNA polymerase. The MSV(MLV) 60-70S RNA genome and 35S RNA subunits were shown by periodate oxidationtritiated borohydride reduction to contain adenosine as the major 3'-terminal nucleoside. Poly (A) segments were isolated from viral 60-70S and 35S RNA by treatment with RNase A or RNase T1 and purified by afinity chromatography and gel electrophoresis. Viral poly(A) was shown to be present at the 3' terminus as -G(C,U)A190AOH. The similar sequence reported for poly(A) present in mammalian mRNA suggests that similar mechanisma are involved in the transcription and processing of both cellular and viral DNA sequences. Within transformed cells replicating MSV(MLV), viral 35S and 20S RNA were found in membrane-bound polyribosomes, whereas only 35S RNA was detected in free polyribosomes. The origin and function of 20S RNA is unknown. The early events during rapid infection and cell transformation of mouse 3T6 cells by the Harvey strain of MSV(MLV) were studied. By both autoradiographic analysis and molecular hybridization, viral DNA synthesis was detected in the cytoplasm by 1 hour after infection, reached a maximum at 2 hours, and subsequently decreased. Cytological chase experiments produced evidence that cytoplasmic viral DNA was transported to the nucleus. In situ hybridization experiments using radioactive viral DNA product as a probe demonstrated the rapid association of viral DNA sequences with the chromocenters of interphase nuclei and with the centromeric heterochromatin regions of some chromosomes.
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PMID:Properties of oncornavirus RNA-directed DNA polymerase, the RNA template, and the intracellular products formed early during infection and cell transformation. 5 Sep 2

Poly(A)-containing messenger RNA isolated from rabbit reticulocytes as estimated by periodate oxidation and condensation with [3H]isoniazid has two oxidizable end groups per molecule of mol. wt. 220000. When the mRNA is subjected to stepwise degradation by beta-elimination, only one oxidizable end-group is found. This indicates that one of the 2',3' hydroxyl end-groups is linked through the normal 3'--5' phosphodiester bond, but that the other is linked in such a way that after stepwise degradation no new 2',3 hydroxyl group is revealed. This structure could be a 5'-linked 5'-phospho di- or tri-ester. On digestion with ribonuclease the isoniazid-labelled RNA produced oligonucleotide hydrazones consistent with a poly(A) sequence at the 3' end plus fragments that are not found after stepwise degradation. These fragments have a charge of --6 and --8 from pancreatic ribonuclease or --7 from ribonuclease T1 digestion. These charges are changed to --3.4 and --4.1 after pancreatic ribonuclease, ribonuclease T2 and alkaline phosphatase digestion. methyl-3H-labelled-poly(A)-containing RNA isolated from late erythroid cells contain a methyl-labelled fragment resistant to endonuclease and phosphodiesterase II digestion. After digestion with phosphodiesterase I this fragment produces methyl-3 H-labelled nucleotides with the electrophoretic mobility of pm7G and pAm. It is concluded that globin mRNA has the 5' sequences m7G(5')ppp'AmpYpGp ... and m7G(5')pppAmpApGpYp.
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PMID:The nature of the 5'-linked 5' nucleotide sequence at the 5' end of rabbit globin messenger ribonucleic acid. 94 25

The 42S RNA from Semliki Forest virus contains a polyadenylate [poly(A)] sequence that is 80 to 90 residues long and is the 3'-terminus of the virion RNA. A poly(A) sequence of the same length was found in the plus strand of the replicative forms (RFs) and replicative intermediates (RIs) isolated 2 h after infection. In addition, both RFs and RIs contained a polyuridylate [poly(U)] sequence. No poly(U) was found in virion RNA, and thus the poly(U) sequence is in minus-strand RNA. The poly(U) from RFs was on the average 60 residues long, whereas that isolated from the RIs was 80 residues long. Poly(U) sequences isolated from RFs and RIs by digestion with RNase T1 contained 5'-phosphorylated pUp and ppUp residues, indicating that the poly(U) sequence was the 5'-terminus of the minus-strand RNA. The poly(U) sequence in RFs or RIs was free to bind to poly(A)-Sepharose only after denaturation of the RNAs, indicating that the poly(U) was hydrogen bonded to the poly(A) at the 3'-terminus of the plus-strand RNA in these molecules. When treated with 0.02 mug of RNase A per ml, both RFs and RIs yielded the same distribution of the three cores, RFI, RFII, and RFIII. The minus-strand RNA of both RFI and RFIII contained a poly(U) sequence. That from RFII did not. It is known that RFI is the double-stranded form of the 42S plus-strand RNA and that RFIII is the experimetnally derived double-stranded form of 26S mRNA. The poly(A) sequences in each are most likely transcribed directly from the poly(U) at the 5'-end of the 42S minus-strand RNA. The 26S mRNA thus represents the nucleotide sequence in that one-third of the 42S plus-strand RNA that includes its 3'-terminus.
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PMID:Replication of semliki forest virus: polyadenylate in plus-strand RNA and polyuridylate in minus-strand RNA. 97 99

Purified rat liver mitochondria were shown to synthesize poly(adenylic acid) (poly(A)) in vitro. Detection of the poly(A) synthesizing activity was facilitated by addition of NaF to the reaction was shown to be poly(A) by its insensitivity to digestion with pancreatic RNase and RNase T1, its degradation by venom phosphodiesterase and its retention on poly (uridylic acid) 20-23 AMP units and it was covalently attached to the endogenous RNA in the mitochondria. Poly(A) synthesis required ATP and a divalent ion and was maximally active in the pH range of 7-8. The reaction was inhibited by atractyloside, cordycepin triphosphate, Rose Bengal, rifamycin derivative AF/103, sodium pyrophosphate, and N-ethylmaleimide. These studies indicate that the mitochondrial poly(A) polymerase previously described in our laboratory (Jacob, S.T., Rose, K.M., and Morris, H.P. (1974), Biochim. Biophys. Acta 361, 312-320) is involved in the posttranscriptional addition of poly(A) sequence to mitochondrial RNA.
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PMID:Poly(adenylic acid) synthesis in isolated rat liver mitochondria. 99 Feb 63

Poly(8-bromoadenylic acid) (poly(8-BrA)) has been synthesized by polymerization of 8-BrADP with polynucleotide phosphorylase in the presence of oligonucleotide primers. In the absence of oligonucleotides, significant (i.e. more than 1%) polymerization does not occur. Oligo(I) primer was removed selectively from the polymer with ribonuclease T1 to yield the homopolymer, poly(8-BrA). End group analysis, based on quantitative infrared measurement of the (Ip)3I-primed polymer, indicates an average degree of polymerization of about 70 residues. The primed polymers and the homopolymer appear to have similar helical structures, probably double-stranded with mutual hydrogen bonding interaction of BrA residues. Preliminary NMR observations of poly(8-BrA) with a tetrainosinic acid primer at the 5' ends of the polymer chain ((Ip)3I-(8-BrA)n) are consistent with the existence of a rigid helical structure below the melting range of the primed polymer. Above the melting range (81 degrees) the H1' coupling constants of (Ip)3I-(8-BrA)n and of polyadenylic acid (poly(A)) suggest a significantly higher population of C3' endo conformation of ribose residues in the primed polymer than in poly(A) at 81 degrees.
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PMID:Poly(8-bromoadenylic acid): synthesis and characterization of an all-syn polynucleotide. 112 40

Polyadenylated [poly(A)+] RNA molecules have been isolated from Methanococcus vannielii by oligodeoxythymidylate-cellulose affinity chromatography at 4 degrees C. Approximately 16% of the label in RNA isolated from cultures allowed to incorporate [3H]uridine for 3 min at 37 degrees C was poly(A)+ RNA. In contrast, less than 1% of the radioactivity in RNA labeled over a period of several generations was contained in poly(A)+ RNA molecules. Electrophoretic separation of poly(A)+ RNA molecules showed a heterogeneous population with mobilities indicative of sizes ranging from 900 to 3,000 bases in length. The population of poly(A)+ RNA molecules was found to have a half-life in vivo of approximately 12 min. Polyadenylate [poly(A)] tracts were isolated by digestion with RNase A and RNase T1 after 3' end labeling of the poly(A)+ RNA with RNA ligase. These radioactively labeled poly(A) oligonucleotides were shown by electrophoresis through DNA sequencing gels to average 10 bases in length, with major components of 5, 9, 10, 11, and 12 bases. The lengths of these poly(A) sequences are in agreement with estimates obtained from RNase A and RNase T1 digestions of [3H]adenine-labeled poly(A)+ RNA molecules. Poly(A)+ RNA molecules from M. vannielii were labeled at their 5' termini with T4 polynucleotide kinase after dephosphorylation with calf intestine alkaline phosphatase. Pretreatment of the RNA molecules with tobacco acid pyrophosphatase did not increase the amount of phosphate incorporated into poly(A)+ RNA molecules by polynucleotide kinase, indicating that the poly(A)+ RNA molecules did not have modified bases (caps) at their 5' termini. The relatively short poly(A) tracts, the lack of 5' cap structures, and the instability of the poly(A)+ RNA molecules isolated from M. vannielii indicate that these archaebacterial poly(A)+ RNAs more closely resemble eubacterial mRNAs than eucaryotic mRNAs.
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PMID:Polyadenylated, noncapped RNA from the archaebacterium Methanococcus vannielii. 258 34

The major 5'-termini of human adenovirus type 2 early gene block 4 mRNA were sequenced. Poly(A+) polyribosomal RNA was isolated from Ad2 early infected cells, the 5'-terminal m7GPPP removed and the 5'-OH of the penultimate 2'-0-methylated nucleotide labeled with [gamma-32P]ATP using polynucleotide kinase. Ad2 E4 mRNA was purified by hybridization to the Ad2 EcoRI-C fragment and was digested with RNase T1. The resulting oligonucleotides were resolved by two dimensional paper electrophoresis-homochromatography. Four major and 3-4 minor 5'-terminal sequences were identified and characterized. The sequence of the 5'-terminal structures of the major four termini are: (1) m7GpppUmU(m)UUACACUGp, (2) m7GpppUmU(m)UACACUGp, (3) m7GpppUmU(m)ACACUGp, and (4) m7Gppp(m6)AmC(m)ACUGp. These major 5'-terminal sequences were aligned with nucleotide 325, 326, 327, and 329 from the righthand end of the known Ad2 DNA sequence (1) in the region mapped as the 5'-terminus of E4 mRNA by electron microscopy (2,3) and S1 nuclease-gel (4) mapping. Two potential ribosomal binding sites and an initiator codon were found at 40 to 65 nucleotides and about 80 nucleotides, respectively, from these heterogenous 5'-termini. Ad2 E4 major mRNA species appear to be unique since mRNA molecules initiate at a pyrimidine, perhaps by RNA polymerase stuttering, or they are products of an unusual type of RNA processing.
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PMID:Nucleotide sequences and mapping of novel heterogenous 5'-termini of adenovirus 2 early region 4 mRNA. 616 92

Poly(A)-protein particles were prepared from rat liver polyribosomes, washed with 0.5 M KCl or unwashed, after digestion with pancreatic ribonuclease and ribonuclease T1 by two successive rounds of sucrose gradient centrifugation. The particles were sedimented in a range of 5--13 S with a peak at about 9 S. The KCl wash of polysomes had no effect on the sedimentation properties of the particles. The particles isolated in this manner were 99% resistant to further pancreatic ribonuclease treatment and contained about 96% adenylic acid. The length of the poly(A) molecules prepared from the poly(A)-protein particles showed a broad distribution of about 70--290 nucleotides with a peak around 130 nucleotides, as measured by polyacrylamide gel electrophoresis. In CsCl density gradient the poly(A)-protein particles banded in a density range of 1.30--1.42 g/cm3 with a peak at 1.36 g/cm3, which amounts to about 80% of the protein content. Sodium dodecyl sulfate/polyacrylamide and urea/sodium dodecyl sulfate/polyacrylamide gel electrophoresis demonstrated six polypeptides with molecular weights of 50 000, 54 000, 58 000, 63 000, 76 000 and 90 000 in the poly(A)-protein particles, but the main components were dependent on the method. The treatment of polysomes with KCl resulted in a loss of the 90 000-molecular-weight component. Amino acid analysis of the polypeptides bound to poly(A) revealed that they contained a relatively large amount of aspartic plus glutamic acid (21.6%) as well as hydrophobic amino acids (41.4%). Digestion of glutaraldehyde-fixed particles with ribonuclease T2 showed that about 50% of poly(A) was accessible to the enzyme, thus this part of poly(A) was located on the surface of the particles. In the electron micrographs the shadowed poly(A)-protein particles appeared in a globular, somewhat elongated form and were mostly 14-18 nm in diameter. On the basis of the results a model for the 'average' 9-S particles was constructed.
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PMID:Structural characterization of polysomal poly(A)-protein particles in rat liver. 626 Apr 95

Avian myeloblastosis virus consists of a mixture of a defective leukaemia virus and several non-defective associated avian leukosis viruses. The genomes of two of the associated avian leukosis viruses were examined in this study and were chosen because one of them, MAV-2(N), induces predominantly nephroblastoma, while the other, MAV-2(O), induces predominantly osteopetrosis. Competitive hybridization studies employing labelled virion RNA and DNA from normal and malignant tissue failed to demonstrate a difference the genomes. However, examination of ribonuclease T1-resistant oligonucleotide maps revealed that MAV-2(N) RNA had five oligonucleotide fragments which were not present in the MAV-2(O) genome. Poly(A) selection of the oligonucleotides at the 3' end of the genome showed that the fragments unique to MAV-2(N) were not present at this end of the genome. These results suggest that two viruses differing in oncogenic manifestation also differ in genome composition.
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PMID:Avian nephroblastoma virus MAV-2(N) and avian osteopetrosis virus MAV-2(O) are genetically distinct. 628 66

Poly(7-deazaguanylic acid) was enzymatically synthesized by the polymerization of 7-deazaguanosine 5'-diphosphate with polynucleotide phosphorylase from Micrococcus luteus in high yield. The homopolymer showed a similar thermal and total hypochromicity to poly(G) at the long wavelength absorption maximum. No sigmoid melting profile was observed for poly(c7G) as is found for poly(G), implying a single-stranded structure in aqueous solution. From the circular dichroism spectra it can be concluded that the 7-deazapurine nucleotide is much more flexible than the purine nucleotide. In analogy to poly(G), the homopolymer poly(c7G) forms a 1:1 complex with poly(C) under neutral conditions, melting at a similar temperature to the poly(G) complex. However, at pH 2.5, where a poly(G) X 2poly(C) complex is observed, poly(c7G) still binds only one poly(C) strand. This is due to the lack of N-7 in poly(c7G), not allowing Hoogsteen base pair formation, which occurs with poly(G). RNase T1 cleaves poly(c7G), indicating that N-7 of guanosine is not a requirement for nucleotide binding to the enzyme, as has been suggested. Because of the single-stranded structure of poly(c7G), the polynucleotide chain is rapidly hydrolyzed by the single-strand-specific nuclease S1, whereas multistranded poly(G) is completely resistant.
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PMID:Poly(7-deazaguanylic acid), the homopolynucleotide of the parent nucleoside of queuosine. 628 79


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