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 functionally active fragments MS2 R(-53 leads to 6) and MS2 R(-53 leads to 3) comprising the regulatory region for the replicase cistron have been isolated from MS2 RNA-coat protein complex following T1 RNase digestion. In order to obtain shorter fragments, active in coat protein binding and initiation of translation, MS2 R(-53 leads to 6) was cleaved with S1 nuclease. The results indicate that S1 nuclease attacks the most susceptible loop regions of the two hairpin helices of MSZ R(-53) leads to 6). Among the three fragments which have been isolated, only MS2 R(-35/33 leads to 6) containing the intact hairpin (b) region with initiation codon AUG is active in the coat protein binding. Functional activity exerted by another polynucleotide MS R(-17 leads to 6) supports the assumption that specific binding with the coat protein is determined by the hairpin (b) region prior to the replicase cistron.
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PMID:The regulatory region of MS2 phage RNA replicase cistron. III. Characterization of fragments resulting from S1 nuclease digestion. 10 12

To refine the secondary structure model of the 5' end of the bacteriophage MS2 genome, 32P-labeled MS2 RNA was partially digested with T1 RNase or with Cm-RNase and the 5'-end fragment was isolated, renatured and submitted to treatment with methoxyamine or kethoxal. The resulting modified RNA was digested with T1 RNase and the products were separated by minifingerprinting. Methoxyamine-induced modification of exposed cytidines was detected by differential mobility of modified oligonucleotides, while kethoxal-induced alteration of exposed guanosines was monitored by resistance to T1 ribonuclease digestion. The positions of the modified residues are discussed in terms of an improved secondary structure model proposed for the 5' end of the viral RNA. The structure itself is discussed in relation to sequence conservation and biological function.
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PMID:Secondary structure of the 5' end of bacteriophage MS2 RNA Methoxyamine and kethoxal modification. 11 78

Temperature-sensitive "leaky" mutants of phage MS2 having white dense ring around negative colonies are described. As these mutants are used for quantitative genetic studies, the white ring presents interest. Typical mutant 40 is used as a model for investigation. Light microscopy has shown, that cells from white ring zone have spore-like inclusions, which determine the characteristic structure of surrounding mutant negative colonies. Cytochemical reactions for the presence of glicogen, lipids, volutin, nuclear material and spores were negative. Electrone microscopy of negatively stained samples and ultrathin sections has revealed that cells from white ring zone, unlike phage-infected wild type cells, have two types of electron dense inclusions: 1) crystalline structures formed with great number of closely packed mature phage particles, and 2) large amorphic bodies. Electrone microscope-cytochemical data showed that inclusions remain intact under treatment of ultrathin sections of white zone ring with DNase and perchloric acid, while nuclear material was completely destroyed. Amorphic bodied were completely destructed after the treatment with RNase, while nuclear material and crystalline phage aggregated remained unchanged. Therefore, amorphic bodies consist of RNA, which has not been used to form virions. Single cycle of the development of mutant 40 at 37 degrees and 43 degrees C and under the temperature of incubation 37 degrees leads to 43 degrees C and 43 degrees leads to 37 degrees C in the course of intracellular reproduction is investigated. Influence of the phage on growth on infected culture is studied. The data obtained draw to a conclusion that the impaired function belongs to cystron protein of the phage membrane. As certain mutations in this cystrone of RNA-containing phage result in the depression of cystrone RNA polymerase, it is supposed that the formation of RNA containing bodies in infected cells, determining the formation of white rings in NA, together with cristalline aggregates of cells, is a result of mutation damage of cystrone protein of the phage MS2 membrane.
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PMID:[Effect of mutagens on RNA-containing phages and its infectious RNA. VII. Genetic nature of morphologic mutants of RNA-containing phage MS2]. 99 65

The RNA of the Escherichia coli RNA phages is highly structured with 75% of the nucleotides estimated to take part in base-pairing. We have used enzymatic and chemical sensitivity of nucleotides, phylogenetic sequence comparison and the phenotypes of constructed mutants to develop a secondary structure model for the central region (900 nucleotides) of the group I phage MS2. The RNA folds into a number of, mostly irregular, helices and is further condensed by several long-distance interactions. There is substantial conservation of helices between the related groups I and II, attesting to the relevance of discrete RNA folding. In general, the secondary structure is thought to be needed to prevent annealing of plus and minus strand and to confer protection against RNase. Superimposed, however, are features required to regulate translation and replication. The MS2 RNA section studied here contains three translational start sites, as well as the binding sites for the coat protein and the replicase enzyme. Considering the density of helices along the RNA, it is not unexpected to find that all these sites lie in helical regions. This fact, however, does not mean that these sites are recognized as secondary structure elements by their interaction partners. This holds true only for the coat protein binding site. The other four sites function in the unfolded state and the stability of the helix in which they are contained serves to negatively control their accessibility. Mutations that stabilize helices containing ribosomal binding sites reduce their efficiency and vice versa. Comparison of homologous helices in different phage RNAs indicates that base substitutions have occurred in such a way that the thermodynamic stability of the helix is maintained. The evolution of individual helices shows several distinct size-reduction patterns. We have observed codon deletions from loop areas and shortening of hairpins by base-pair deletions from either the bottom, the middle or the top of stem structures. Evidence for the coaxial stacking of some helical segments is discussed.
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PMID:Secondary structure of the central region of bacteriophage MS2 RNA. Conservation and biological significance. 240 56

The in vivo process of virion assembly was studied in rifampin-treated, MS2-infected Escherichia coli during late times of infection-after 18 min postinfection. Differential sucrose gradient sedimentation of infected-cell lysates taken at various times after radioactive labeling indicated a definite temporal order of appearance of phage-specific protein in assembly-related structures. Labeled MS2 protein appears first as a low-molecular-weight peak at the tops of gradients, then as a peak at 40S and as a large number of almost unseparable structures between 40 and 80S, and finally as 80S mature phage particles. During the chase of a short labeling period, radioactive phage protein was found to disappear from gradients in the same temporal order as it appeared; the soluble peak disappears first, followed by the 40 to 70S region. The chased label appears quantitatively in the 80S phage peak. Labeled phage RNA was found to appear first in the 40S peak, then in the structures between 40 and 70S, and finally in 80S phage particles. The order of disappearance of labeled phage RNA during a chase is the same as its appearance. Resedimentation of the 40 to 70S region indicated the presence of distinct structures at 60 and 70S and many indistinct ones between 40 and 60S. The smaller intermediates exhibit separable maturation protein-rich and coat protein-rich segments, indicating nonrandom binding of the two proteins during the initial steps of assembly. Larger, discrete intermediates appear at 60 and 70S. Treatment of the various structures with pancreatic RNase results in destruction of those from 40 through 60S; treatment of the 70S structure results in the conversion of some of it to a 45S peak, presumably the complete capsid. A small fraction of the 80S phage peak is also sensitive to RNase, resulting in a similar 45S peak. Pulse-chase experiments indicate that structures from 40 through 60S as well as the RNase-sensitive 70S structure are assembly intermediates, but that the RNase-insensitive 70S and the RNase-sensitive 80S structures are not.
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PMID:Intermediates of bacteriophage MS2 assembly in vivo. 461 Jan 79

A concentration of 10 mug of fluorophenylalanine per ml added to a chemically defined medium reduced by 100-fold the number of bacteriophage MS2 produced on Escherichia coli C3000 and increased the latent period. Fluorophenylalanine was most effective when added concurrent with infection. Addition of a 10-fold greater concentration of phenylalanine reversed the inhibition caused by fluorophenylalanine. Radioactive fluorophenylalanine was incorporated into the coat protein. The four phenylalanine-containing chymotryptic peptides are not equally accessible to fluorophenylalanine. Only two of the peptides are highly labeled by fluorophenylalanine. Incorporation of fluorophenylalanine decreased the specific infectivity and the rate of adsorption but did not increase the sensitivity of the whole virus to ribonuclease. MS2 ribonucleic acid (RNA) functioned as messenger RNA for the incorporation of both phenylalanine and fluorophenylalanine in a cell-free incorporating system from E. coli.
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PMID:Effect of fluorophenylalanine on bacteriophage MS2 replication. 491 28

RNA fragments of different chain length, each containing the 5'-terminal guanosine tetraphosphate (pppGp) of bacteriophage-MS2 RNA, have been isolated from partial ribonuclease digests of the viral RNA. The longest fragment overlaps with the ribosomalbinding site of the A-protein cistron. The base sequence has been established for the major part. The results directly confirm that the A-protein cistron is closest to the 5'-terminus. Its initiating (AUG) codon starts at position 130, being preceded by an untranslated sequence of 129 nucleotides.
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PMID:The leader sequence from the 5'-terminus to the A-protein initiation codon in MS2-virus RNA. 527 66

The limited hydrolisis of bacteriophage MS2 RNA by nuclease S1 and ds-specific snake venom RNase was studied in a wide range of ionic strength, at different pH, after heating and (slow and fast) cooling and at various enzyme-substrate relations. It was shown that the RNA has exposed hydrolisis sites for both nucleases. The localizations of these sites are very specific and are not altered in all conditions studied. The hydrolisis rate was changed in some conditions, at that the fragments patterns in denaturing electrophoresis did not move. It was supposed that the RNA has strongly predetermined and predominant conformation which could not be altered by strong influences.
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PMID:[Study of spatial organization of the RNA of phage MSZ using nucleases specific for the secondary structure]. 629 1

A full-length cDNA copy of the RNA genome of bacteriophage MS2 was assembled by the in-frame ligation of the central portion of the genome into a plasmid containing the 5' and 3' ends. Upon transformation of the ligation reaction into Escherichia coli, infectious phage particles were released into the medium. The plaquing ability of the phage produced from the cDNA construct was assessed against various bacterial strains confirming that the bacteriophage produced were male-specific. Sensitivity to RNase in agar overlay was used to confirm that the phage contained RNA. In addition, the phage were unable to infect piliated cells overexpressing MS2 coat protein, a resistance conferred by the binding of recombinant coat protein to the infecting strand of RNA at the replicase initiation region, thus preventing translation of the replicase gene. The phage capsids were visualised after negative staining by transmission electron microscopy, and appeared as spherical particles of approximately 25 nm diameter. The capsid proteins were examined by Western blotting, confirming the presence of a single protein of approximately 14 kDa, which bound anti-MS2 coat protein antibodies. The genomic RNA from single plaques was analysed by reverse transcription-PCR and the presence of the MS2 coat protein gene confirmed by DNA sequencing. The production of replicative MS2 phage from cDNA fragments was used to assess the viability of MS2 coat protein mutants, which had previously been shown to assemble into T = 3 capsid-like particles when expressed in vivo from a bacterial vector. The E76D mutation did not appear to affect phage viability, whilst replacement of the completely conserved P78 residue with asparagine abolished the production of infectious particles, suggesting that P78 may be involved in interactions with the phage maturation protein.
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PMID:Analysis of phage MS2 coat protein mutants expressed from a reconstituted phagemid reveals that proline 78 is essential for viral infectivity. 905 64

The use of electrospray ionization-quadrupole ion trap mass spectrometry for the characterization of linear oligosaccharides and N-linked protein oligosaccharide mixtures is described. Tandem mass spectrometry (MS/MS) experiments with orders higher than two offer a number of ways to enhance MS/MS spectra and to derive information not present in MS and MS2 spectra. Three such methods are presented in this paper. (a) Collisional activation of permethylated oligosaccharide molecular ions (MS2) as illustrated by maltoheptaose, produces abundant fragments from glycosidic bond cleavages which indicate composition and sequence, and weak cross-ring cleavage products which denote specific linkages within the oligosaccharide. Through the trapping and further dissociation of these fragments (MSn), cross-ring cleavage products can be confirmed and their relative abundances increased to facilitate interpretation. (b) The mechanisms of formation of two isobaric ions or ions isobaric with another ion's isotope peaks, such as those present in the MS2 spectrum of the ribonuclease B oligosaccharide GlcNAc2-Man5 can be independently established by separate MS3 experiments. (c) Ions in the MS2 spectrum, specific for individual components of an isobaric mixture, can be isolated and characterized by further stages of fragmentation. This is illustrated by two isobaric oligosaccharides from chicken ovalbumin of the composition HexNAc5Hex5. These findings indicate the utility of ion trap mass spectrometry towards the facile determination of oligosaccharide composition, sequence, branching and linkage, providing a wealth of structural information not obtainable by other individual methods of carbohydrate mass spectrometric analysis.
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PMID:Characterization of oligosaccharide composition and structure by quadrupole ion trap mass spectrometry. 933 19

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