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Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Foot and mouth disease virus RNA has been treated with
RNase H
in the presence of oligo (dG) specifically to digest the poly(C) tract which lies near the 5' end of the molecule (10). The short (S) fragment containing the 5' end of the RNA was separated from the remainder of the RNA (L fragment) by gel electrophoresis.
RNA ligase
mediated labelling of the 3' end of S fragment showed that the
RNase H
digestion gave rise to molecules that differed only in the number of cytidylic acid residues remaining at their 3' ends and did not leave the unique 3' end necessary for fast sequence analysis. As the 5' end of S fragment prepared form virus RNA is blocked by VPg, S fragment was prepared from virus specific messenger RNA which does not contain this protein. This RNA was labelled at the 5' end using polynucleotide kinase and the sequence of 70 nucleotides at the 5' end determined by partial enzyme digestion sequencing on polyacrylamide gels. Some of this sequence was confirmed from an analysis of the oligonucleotides derived by RNase T1 digestion of S fragment. The sequence obtained indicates that there is a stable hairpin loop at the 5' terminus of the RNA before an initiation codon 33 nucleotides from the 5' end. In addition, the RNase T1 analysis suggests that there are short repeated sequences in S fragment and that an eleven nucleotide inverted complementary repeat of a sequence near the 3' end of the RNA is present at the junction of S fragment and the poly(C) tract.
...
PMID:The nucleotide sequence at the 5' end of foot and mouth disease virus RNA. 23 62
Most yeast strains carry a cytoplasmic double-stranded RNA (dsRNA) molecule called W, of 2.5 kb in size. We have cloned and sequenced most of W genome (1), and we proposed that W (+) strands were identical to 20S RNA, a single-stranded RNA (ssRNA) species, whose copy number is highly induced under stress conditions. Recently it was proposed that 20S RNA was circular (2). In this paper, however, we demonstrate that both W dsRNA and 20S RNA are linear. Linearity of W dsRNA is shown by the stoichiometric labelling of both strands of W with 32P-pCp and T4
RNA ligase
. The last 3' end nucleotide of both strands is about 70 to 80% C and 20 to 30% A. Linearity of 20S RNA is directly demonstrated by a site-specific cleavage of 20S RNA with
RNase H
, using an oligodeoxynucleotide complementary to an internal site of 20S RNA. The cleavage produced not one but two RNA fragments expected from the linearity of 20S RNA.
...
PMID:Both yeast W double-stranded RNA and its single-stranded form 20S RNA are linear. 131 73
When either the homologous RNA (avian myeloblastosis virus RNA) or a heterologous RNA (poliovirus RNA) was used as a template, the anticomplementary DNA synthesized in vitro by avian myeloblastosis virus reverse transcriptase (RNA-directed DNA nucleotidyltransferase, EC 2.7.7.7) was primed by fragments of the original RNA template that usually had adenosine at their 3' ends. When we used phage T/
RNA ligase
(
EC 6.5.1.3
) to label the 3' end of the RNA template fragments contained in the RNA . cDNA hybrid intermediate, adenosine was found to be the principal nucleoside carrying the label. We infer from these results that the
ribonuclease H
(
hybrid nuclease
) activity of the reverse transcriptase creates fragments of the original RNA template with adenosine as the principal 3' terminus and that these fragments serve as primers for the synthesis of anticomplementary DNA.
...
PMID:RNA primer used in synthesis of anticomplementary DNA by reverse transcriptase of avian myeloblastosis virus. 615 30
A new approach for inserting a photo-label at a selected position within the long ribosomal RNA molecules has been developed. The Escherichia coli 16S rRNA was cleaved at a single internucleotide bond, 1141-1142, with
RNase H
in the presence of a complementary chimeric oligonucleotide. 4-Thiouridine 5', 3'-diphosphate was ligated to the 3'-end of the 5'fragment at the cleavage site with T4
RNA ligase
. The 16S rRNA fragments containing this added photo-reactive nucleotide were assembled together with total 30S ribosomal proteins into small ribosomal subunits. The ability of such 30S particles containing fragmented rRNA to form 70S ribosomes has been demonstrated previously. Crosslinks were induced within the 30S subunits by mild UV irradiation. The sites of crosslinking within the 16S rRNA were then analyzed using
RNase H
digestion and reverse transcription. Two crosslinks from the thio-nucleotide attached to nt C1141 of 16S rRNA were observed, namely to nt U1295 and G1272. These results are in agreement with the established proximity of helix 39 and 41 in the 3D structure of the 30S ribosomal subunit, as shown by other intra RNA crosslinking data. These data furthermore allow us to refine the structural arrangement of helices 41 and 39 relative to one another.
...
PMID:A new technique for the characterization of long-range tertiary contacts in large RNA molecules: insertion of a photolabel at a selected position in 16S rRNA within the Escherichia coli ribosome. 917 Oct 76
We describe a new protocol, which does not require (4S)UpG, for introducing (4S)U into specific sites in a pre-mRNA substrate. A 5'-half and a full-length RNA are first synthesized by phage RNA polymerase. p(4S)Up, which is derived from (4S)UpU and can therefore be 32P-labeled, is then ligated to the 3' end of the 5'-half RNA with T4
RNA ligase
. The 3' phosphate of the ligated product is removed subsequently by CIP (calf intestinal alkaline phosphatase) to produce a 3'-OH group. The 3'-half RNA with a 5' phosphate is produced by site-specific
RNase H
cleavage of the full-length pre-mRNA directed by a 2'-O-methyl RNA-DNA chimera. The two half RNAs are then aligned with a bridging oligonucleotide and ligated with T4 DNA ligase. Our results show that 32P-p(4S)Up ligation to the 3' end of the 5'-half RNA is comparable to 32P-pCp ligation. Also, the efficiency of the bridging oligonucleotide-mediated two-piece ligation is quite high, approximately 30-50%. This strategy has been applied to the P120 pre-mRNA containing an AT-AC intron, but should be applicable to many other RNAs.
...
PMID:A new strategy for introducing photoactivatable 4-thiouridine ((4S)U) into specific positions in a long RNA molecule. 921 62
Availability of 4-thiouridine (4-thioU)-containing RNAs is the prerequisite for 4-thioU site-specific cross-linking studies. This paper presents a method for constructing such RNAs. A 5'- and a 3'-RNA are synthesized via phage RNA polymerase transcription and/or
RNase H
site-specific cleavage directed by 2'-O-methyl-RNA-DNA chimeras. These two half-RNAs in combination correspond to the sequence of full-length RNA, with a single nucleotide gap at the junction that will be filled in with a 4-thiouridylate. A single p4SUp, which is derived from 4SUpN (N can be any nucleotide) via 5'-phosphorylation (therefore, the phosphate can be radioactive) followed by RNase A digestion, is then ligated to the 3' end of the 5'-half RNA with T4
RNA ligase
. The 3'-phosphate of the ligated product is subsequently removed by calf intestinal alkaline phosphatase to produce a 3'-hydroxyl group. The resulting 5'-half RNA and the 3'-half RNA with a 5'-phosphate group (which can also be radioactive) are then aligned with a bridging deoxyoligonucleotide and ligated with T4 DNA ligase. This method was previously applied to the P120 pre-mRNA that contains an AT-AC intron, yielding three RNAs each containing a single 4-thioU near the 5'-splice site. Subsequent cross-linking studies with these RNAs yielded detailed information regarding interactions between the 5'-splice site and other spliceosomal snRNAs and between the 5'-splice site and proteins during splicing. Because there is no sequence constraint surrounding the site of 4-thioU substitution, this method should be applicable to many other RNAs.
...
PMID:Construction of 4-thiouridine site-specifically substituted RNAs for cross-linking studies. 1020 12
RNA microarrays were created on chemically modified gold surfaces using a novel surface ligation methodology and employed in a series of surface plasmon resonance imaging (SPRI) measurements of DNA-RNA hybridization and RNA aptamer-protein binding. Various unmodified single-stranded RNA (ssRNA) oligonucleotides were ligated onto identical 5'-phosphate-terminated ssDNA microarray elements with a T4
RNA ligase
surface reaction. A combination of ex situ polarization modulation FTIR measurements of the RNA monolayer and in situ SPRI measurements of DNA hybridization adsorption onto the surface were used to determine an ssRNA surface density of 4.0 x 10(12) molecules/cm2 and a surface ligation efficiency of 85 +/- 10%. The surface ligation methodology was then used to create a five-component RNA microarray of potential aptamers for the protein factor IXa (fIXa). The relative surface coverages of the different aptamers were determined through a novel enzymatic method that employed SPRI measurements of a surface
RNase H
hydrolysis reaction. SPRI measurements were then used to correctly identify the best aptamer to fIXa, which was previously determined from SELEX measurements. A Langmuir adsorption coefficient of 1.6 x 10(7) M(-1) was determined for fIXa adsorption to this aptamer. Single-base variations from this sequence were shown to completely destroy the aptamer-fIXa binding interaction.
...
PMID:Fabrication and characterization of RNA aptamer microarrays for the study of protein-aptamer interactions with SPR imaging. 1713 Jan 55
The genomic RNAs of barley stripe mosaic virus (BSMV) were used in experiments involving site-specific cleavage to yield noninfective but functionally active fragments and subsequent restoration of infectious viral RNA by means of religation. The specific fragments were obtained after site-specific cleavage of BSMV RNAs with
RNase H
in the presence of oligo(dT)10 complementary to the internal poly(A) track in BSMV genomic RNAs: (i) long (L) 5'-terminal fragments, lacking the tyrosine-accepting activity, but capable of directing in vitro a full set of BSMV-specific polypeptides (A. A. Agranovsky, V. V. Dolja, and J. G. Atabekov, 1982, Virology 119, 51-58) and (ii) short (Sh) fragments containing a tRNA-like structure accepting tyrosine. L- and Sh-fragments of BSMV RNAs were religated by T4
RNA ligase
producing infectious BSMV RNA. The religated BSMV RNA was shown to lack the internal poly(A) track present in authentic BSMV RNA. Nevertheless the typical poly(A) spectra were restored in the progeny RNA from religated, poly(A) - deficient BSMV RNA.
...
PMID:Site-specific cleavage and religation of viral RNAs. I. Infectivity of barley stripe mosaic virus RNA religated from functionally active segments and restoration of the internal poly(A) tract in progeny. 1864 70
The 3' half molecule of yeast tRNA(Ala) (nucleotides 36-75) was hybridized with a DNA fragment (5'GGAATCGAACC 3') and the hybrid was then digested with E. coli
RNase H
(from Boehringer). The enzyme can specifically cleave the 3' half molecule at the 3' side of nucleotide Psi(55), thus a fragment C(36)-Psi(55) was prepared. The 3'-terminal T or TPsi of this fragment was removed by one or two cycles of periodate oxidation and beta-elimination. The products were fragments C(36)-T(54) and C(36)-G(53). Three yeast tRNA(Ala) fragments C(56)-A(76), U(55)-A(76) (with Psi(55) replaced by U), U(54)-A(76) (with T(54)Psi(55) replaced by UU) were synthesized and ligated with three prepared fragments (C(36)-Psi(55), C(36)-T(54) and C(36)-G(53)) respectively by T4
RNA ligase
. The products were further ligated with the 5' half molecule (nucleotides 1-35). Using this method, one reconstituted yeast tRNA(Ala) (tRNAr) and two yeast tRNA(ALa) analogs: (i) tRNAa with U(55) instead of Psi(55); (ii) tRNAb with U(54)U(55) instead of T(54)Psi(55) were synthesized. The charging and incorporation activities of these three tRNAs were determined. In comparison with the reconstituted tRNA, the charging activity was 75% for tRNAa and 45% for tRNAb and the incorporation activity was 65% for tRNAa and 70% for tRNAb. These results suggest that the modified nucleotides T(54) and Psi(55) play an important role in yeast tRNA(Ala) function.
...
PMID:Biological function of modified nucleotides T(54) and Psi(55) of yeast tRNA(Ala). 1872 80
High-throughput sequencing of the products of 5'
RNA ligase
-mediated rapid amplification of cDNA ends (5' RLM-RACE) reactions (RACE-SEQ) enables the mapping and digital enumeration of expected and novel 5' ends in RNA molecules. The resulting data are essential in documenting the mechanism of action and precision of endonucleolytically active, RNA-targeting drugs such as
RNase H
-active antisense or small interfering RNA. When applied to error-prone replication systems such as RNA viruses or in vitro RNA replicon systems, the method can additionally report the relative susceptibility of known and unknown polymorphisms to a prospective sequence-specific drug, making it a powerful tool in patient selection and stratification as well as resistance prediction.We describe the preparation of sequencing libraries for ultra-high depth 5' RLM-RACE analysis on two popular second-generation high-throughput sequencing platforms (Illumina, Ion Torrent) and supply a detailed bioinformatics analysis pipeline for target site activity definition and enumeration. We further illustrate how the pipeline can be simply modified to generate polymorphism-specific drug susceptibility data from in vitro replicon experiments (RACE-SEQ-MM), in a patient-free manner, to cover both known and unknown target site variants in the population.
...
PMID:RACE-SEQ and Population-Wide Polymorphism Susceptibility Testing for Endonucleolytically Active, RNA-Targeting Therapeutics. 3141 Aug 4
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