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 region of the ovalbumin messenger ribonucleic acid (mRNAov) molecule bound to the 40S ribosomal subunit and its associated initiation factors in the wheat germ cell-free translation system were isolated and characterized. Two mRNAov fragments, 87 and 92 nucleotides in length, were protected from T1 ribonuclease digestion by binding of guanosine 5',beta,gamma-methylenetriphosphate and were shown by hybridization and fingerprint mapping to be derived from the 5' end of mRNAov. Both these mRNAov fragments were of sufficient length to contain both the cap structure and the AUG initiation codon. Four T1-resistant oligonucleotides, prepared by direct digestion of mRNAov with T1 ribonuclease were also found to bind to the wheat germ 40S ribosomal subunit. Nucleotide sequence analysis of these oligonucleotides revealed (1) that they were not a subset of the ribosome binding fragments described above, (2) that they were derived from within the mRNAov molecule (one from within the coding region and three from the noncoding region at the 3' end of the mRNAov molecule), and (3) that three of the four mRNAov nucleotides contained 3'-terminal AUG trinucleotides. These data suggested that features of the mRNAov molecule in addition to the nucleotide sequence might be important in specifying the correct ribosome binding site for the initiation of protein synthesis. The amount of mRNAov bound to the wheat germ 40S ribosomal subunit in a preinitiation complex was found to vary inversely with the potassium ion concentration. Lowering the potassium concentration to levels suboptimal for translation also resulted in the protection of larger fragments of the mRNAov molecule derived from the same 5'-end region as the ribosome binding fragments described above. The ability of the cap analogue 7-methylguanosine 5'-phosphate (m7G5'p) to reduce the amount of mRNAov bound to the wheat germ 40S ribosomal subunit was found to depend directly on thepotassium concentration. Interestingly, the effects of potassium on the amount of mRNAov bound in a preinitiation complex and the inhibition of this binding by m7G5'p could be observed by changing the potassium concentration after binding had occurred. These data suggested that the interaction between the wheat germ 40S ribosomal subunit and mRNAov was very sensitive to the ionic environment.
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PMID:Ribosome binding site analysis of ovalbumin messenger ribonucleic acid. 11 32

Methyl groups derived from 3H-methyl methionine were incorporated into vesicular stomatitis virus (VSV) MRNAs isolated from infected cells. Sequential degradation of the 12-18S viral mRNA species with ribonuclease T2, penicillium nuclease, and alkaline phosphatase yielded a single 3H-labeled dinucleotide. A similar resistant 32P-labeled fragment was obtained by digesting VSV mRNA uniformly labeled with 32P. This methylated and blocked oligomer was further cleaved with nucleotide pyrophosphatase, yielding two methylated 5' nucleotides. We postulate that the 5' terminal structure of the vivo 12-18S VSV mRNA contains 7-methylguanosine linked by a 5'-5' pyrophosphate bond to a methylated derivative of adenosine. In contrast to the mRNAs (+ strand), the VSV genome RNA ( MINUS STRAND) IS NOT BLOCKED.
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PMID:Methylated and blocked 5' termini in vesicular stomatitis virus in vivo mRNAs. 16 1

RNA labeled with [methyl-3H]methionine and/or [32P]orthophosphate was isolated from the polyribosomes of herpes simplex virus (HSV) types 1-infected cells and separated into polyadenylylated [poly(A+)]and non-polyadenylylated [poly(A-)] fractions. Virus-specific RNA was obtained by hybridization in liquid to either excess HSV DNA or filters containing immobilized HSV DNA. Analysis in denaturing sucrose gradients indicated that HSV-specific poly(A+) RNA sedimented in a broad peak, with a modal S value of 20. The ratio of [3H]methyl to 32P decreased with increasing size of RNA, suggesting that each RNA chain contains a similar sumber of methyl groups. Further analysis indicated an average of one RNase-resistant structure of the type m7G(5')pppNmpNp or m7G(5')pppNmpNmpNp per 2,780 nucleotides. The following components were identified in the 5'-terminal oligonucleotides of polyribosome-associated HSV-specific poly(A+) and poly(A-) RNA: 7-methylguanosine, N6,2'-O-dimethyladenosine, and the 2'-O-methyl derivatives of guanosine, adenosine, uridine, and denosine, and the 2'-O-methyl derivatives of guanosine, adenosine, uridine, and cytidine. The most common 5'-terminal sequences were m7G(5')pppm6Am and m7G(5')pppGm. An additional modified nucleoside, N6-methyladenosine, was present in an internal position of HSV-specific RNA.
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PMID:5'-Terminal and internal methylated nucleosides in herpes simplex virus type 1 mRNA. 19 8

The minor base composition of Mycobacterium smegmatis tRNA has been studied. Thin-layer chromatographic patterns of a ribonuclease T2 digest of mycobacterial tRNA indicated the presence of appreciable amounts of 1-methyladenosine (which is commonly present only in eucaryotic tRNA), dihydrouridine, and 7-methylguanosine. Ribothymidine was absent. The S-adenosylmethionine-dependent tRNA methylases of M. smegmatis catalyzed the formation of 1-methyladenosine when Escherichia coli tRNA was used as acceptor. Similarly, E. coli extracts methylated the tRNA of M. smegmatis, forming ribothymidine.
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PMID:Occurrence of 1-methyladenosine and absence of ribothymidine in transfer ribonucleic acid of Mycobacterium smegmatis. 37 35

(1) N2,N2,7-Trimethylguanosine, not previously detected as a component of plant RNA, is shown to be present in the RNA which is isotopically labelled when dry wheat embryos imbibe water in a medium that contains[methyl-3H]methionine. (2) N2,N2,7-Trimethylguanosine and 7-methylguanosine are released as part of "capped" oligonucleotides when the isotopically labelled RNA from imbibing wheat embryos is subjected to hydrolysis by RNase T2. (3) By way of contrast with the "capped" RNA of animal cells, 5'-terminal "cap" structures (m7Gppp- and m32,2,7 Gppp-) in the "capped" RNA from the higher plant organism are not bonded to pneultimate O2'-methylnucleoside constituents. (4) In an allied study, it has been found that recovery of poly (A)-rich RNA from dry wheat embryos depends on the inclusion of sodium dodecyl sulphate (SDS) in phosphate-buffered (pH 6.8) phenolic emulsions. By way of contrast, recovery of poly (A)-rich RNA from dry wheat embryos does not depend on the inclusion of SDS in Tris (hydroxymethyl) aminomethane buffered (pH 9.0) phenolic emulsions.
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PMID:Wheat embryo ribonucleates. XII. Formal characterization of terminal and penultimate nucleoside residues at the 5'-ends of "capped" RNA from imbibing wheat embryos. 68 62

Total cellular RNA was isolated from the ciliate protozoan Paramecium aurelia by pH 9.5 chloroform/octanol extraction. Passage of this RNA through an oligo(dT)-cellulose column in 0.5 M NaCl resulted in 2--3% binding, indicating the presence of polyadenylic acid sequences. These polyadenylic acid regions were estimated to be 250-500 nucleotides in length, based on their resistance to ribonuclease degradation. The oligo(dT)-cellulose bound RNA sedimented at 14--25 S in sodium dodecyl sulphate/sucrose gradients. The base composition of this RNA is similar to the base composition of the DNA. This RNA was also actively translated into protein by an in vitro protein synthesizing system isolated from wheat germ. Translation was optimal under conditions similar to those used for mammalian mRNA translation. In addition, translation of the P. aurelia oligo(dT)-cellulose bound RNA was inhibited 80% by the analog 7-methylguanosine-5'-phosphate, suggesting the presence of a 5'-capped terminus.
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PMID:Isolation and characterization of mRNA from Paramecium aurelia. 88 13

We present a method for studying RNA processing and ribonucleoprotein assembly in vivo, by using RNA synthesized in vitro. SP6-transcribed 32P-labeled U2 small nuclear RNA precursor molecules were introduced into cultured human 293 cells by calcium phosphate-mediated uptake, as in standard DNA transfection experiments. RNase protection mapping demonstrated that the introduced pre-U2 RNA underwent accurate 3' end processing. The introduced U2 RNA was assembled into ribonucleoprotein particles that reacted with an antibody specific for proteins known to be associated with the U2 small nuclear ribonucleoprotein particle. The 3' end-processed, ribonucleoprotein-assembled U2 RNA accumulated in the nuclear fraction. When pre-U2 RNA with a 7-methylguanosine group at the 5' end was introduced into cells, it underwent conversion to a 2,2,7-trimethylguanosine cap structure, a characteristic feature of the U-small nuclear RNAs. Pre-U2 RNA introduced with an adenosine cap (Ap-ppG) also underwent processing, small nuclear ribonucleoprotein assembly, and nuclear accumulation, establishing that a methylated guanosine cap structure is not required for these steps in U2 small nuclear ribonucleoprotein biosynthesis. Beyond its demonstrated usefulness in the study of small nuclear ribonucleoprotein biosynthesis, RNA transfection may be of general applicability to the investigation of eukaryotic RNA processing in vivo and may also offer opportunities for introducing therapeutically targeted RNAs (ribozymes or antisense RNA) into cells.
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PMID:RNA processing and ribonucleoprotein assembly studied in vivo by RNA transfection. 213 10

We have developed and characterized cell-free systems active in translation from unfertilized eggs, 30-min zygotes and hatched blastulae of the sea urchin Strongylocentrotus purpuratus. The ion concentrations selected for preparation of the lysates were 150 mM-K+, 40 mM-Na+, 40 mM-Cl-, 5 x 10(-7) M free Ca2+ and 1 mM free Mg2+. It was necessary to include the ribonuclease inhibitor RNas in the preparations to obtain full activity consistently. The pH optimum was 7.2 and was extremely sharp for the three S. purpuratus lysates. The temperature optima of the three lysates were remarkably similar to those of the intact unfertilized egg and embryos. Lysates from unfertilized egg and 30-min zygotes showed a temperature optimum at 15 degrees C. The hatched blastula lysate showed a broader temperature optimum with a shift to about 20 degrees C. The optimized lysates incorporated radiolabelled amino acids into polypeptides for up to 90 min. The polypeptides synthesized ranged in Mr from 200,000 to 20,000, suggesting that the mRNA in the lysates was intact and capable of directing the synthesis of complete polypeptides. Furthermore, the three lysates were capable of initiation, as demonstrated by inhibition of initiation using the inhibitors edeine and 7-methylguanosine 5'-triphosphate (m7GTP). At 15 degrees C, the transit times for the three lysates were: unfertilized egg, 40 min; 30-min zygotes and hatched blastula lysates, 20 min. These transit times are similar to those of intact eggs and embryos, and significantly, reflect the two-fold increase in elongation rate seen following fertilization in intact embryos. Thus, these lysates display many features and characteristic responses typical of intact eggs and embryos, indicating that the lysates should be useful tools for the analysis of translation control in early embryogenesis.
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PMID:Characterization of translation systems in vitro from three developmental stages of Strongylocentrotus purpuratus. 270

A single capped oligonucleotide is released from Trypanosoma brucei poly(A)+ RNA upon digestion with RNase T2. This observation supports the hypothesis that all T. brucei mRNAs share a common leader sequence. Digestion of the T2-resistant species with nucleotide pyrophosphatase shows that the capping nucleotide is 7-methylguanosine 5'-monophosphate (pm7G). Additional characterization of the T2-resistant fragment indicates that modifications are present on the first four transcribed nucleotides; the 5' termini of T. brucei mRNAs can, therefore, be described as "cap 4" structures. Identical 5'-cap structures are found on the T. brucei spliced leader (SL) RNA; an observation compatible with the hypothesis that the small SL RNA acts as a donor of the SL for the mRNA. However, we find that within a population of purified SL RNAs are species that are capped but incompletely modified. The presence of these unmodified and partially modified species allowed us to analyze the 5' sequence of the SL RNA transcript. The results indicate that transcription begins four nucleotides upstream of the reported 5' end. Therefore, the T. brucei SL transcript is actually 39 rather than 35 nucleotides long. We have also analyzed the capped oligonucleotide of a distantly related Trypanosomatid, Leptomonas collosoma and find it to be identical to that of T. brucei. The potential significance of these results is discussed in light of observations of trypanosome gene expression.
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PMID:Trypanosome mRNAs have unusual "cap 4" structures acquired by addition of a spliced leader. 312 Jan 86

The sequence of the 5'-terminal leader fragment preceding the AUG codon in the RNA of tobacco mosaic virus (TMV), tomato strain, SPS isolate, has been determined. This RNA, similarly to the RNAs of the U1 and Dahlemense strains of TMV [Kukla et al. (1979) Eur. J. Biochem. 98, 61--66] has the 7-methylguanosine(5')triphospho(5')guanosine cap separated from the initiation codon by a long stretch of nucleotides devoid of guanosine residues. The RNase-T1-resistant 73-nucleotide-long leader fragment of TMV RNA from the SPS isolate was assayed for its ability to interact with eukaryotic and prokaryotic ribosomes. The linear fragment, labelled either at its 5' or 3' end, efficiently formed disome initiation complexes when incubated with wheat-germ protein-synthesis extract. In contrast to its linear counterpart, the circular covalently closed RNA leader fragment, obtained in a reaction catalysed by T4 RNA ligase, was unable to interact with wheat germ ribosomes. Both kinds of leader fragment bound equally well to Escherichia coli 70-S ribosomes. The results offer further support to the notion that in eukaryotic initiation the free 5' end (either capped or uncapped) is required for mRNA interaction with ribosomes. Furthermore, they suggest that both ribosomes found in disome initiation complexes with the TMV RNA leader fragment enter the mRNA sequentially via the free 5' terminus.
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PMID:Binding of ribosomes to linear and circular forms of the 5'-terminal leader fragment of tobacco-mosaic-virus RNA. 678 6

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