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Query: EC:3.1.21.1 (
DNase
)
7,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A technique is described to identify the rare sequences within an RNA molecule that are available for efficient interaction with complementary DNA probes: the target RNA is digested by
RNase H
in the presence of a random pool of complementary DNA fragments generated from the same DNA preparation that was used for target RNA synthesis. The DNA region was amplified by PCR, partially digested with
DNase
and denatured prior to RNA binding. In the presence of single-stranded DNA fragments the RNA was digested with
RNase H
such that, on average, each molecule was cut once. Cleavage sites were detected by gel electrophoresis either directly with end-labeled RNA or by primer extension. The pattern of accessible sites on c- raf mRNA was determined and compared with the known profile of activity of oligonucleotides found in cells, showing the merit of the method for predicting oligonucleotides which are efficient for in vivo antisense targeting. New susceptible sites in the 3'-untranslated region of c- raf mRNA were identified. Also, four RNAs were probed to ascertain to what extent structure predicts accessibility: the P4-P6 domain of the Tetrahymena group I intron, yeast tRNAAsp, Escherichia coli tmRNA and a part of rat 18S rRNA.
...
PMID:A rapid in vitro method for obtaining RNA accessibility patterns for complementary DNA probes: correlation with an intracellular pattern and known RNA structures. 939 9
The mitochondrial DNA (kinetoplast DNA) of the trypanosomatid Crithidia fasciculata consists of minicircles and maxicircles topologically interlocked in a single network per cell. Individual minicircles replicate unidirectionally from either of two replication origins located 180 degrees apart on the minicircle DNA. Initiation of minicircle leading-strand synthesis involves the synthesis of an RNA primer which is removed in the last stage of replication. We report here the purification to near homogeneity of a structure-specific DNA endo-nuclease based on the
RNase H
activity of the enzyme on a poly(rA).poly(dT) substrate.
RNase H
activity gel analysis of whole cell and kinetoplast extracts shows that the enzyme is enriched in kinetoplast fractions. The
DNA endonuclease
activity of the enzyme is specific for DNA primers annealed to a template strand and requires an unannealed 5' tail. The enzyme cleaves 3' of the first base paired nucleotide releasing the intact tail. The purified enzyme migrates as a 32 kDa protein on SDS gels and has a Stoke's radius of 21.5 A and a sedimentation coefficient of 3.7 s, indicating that the protein is a monomer in solution with a native molecular mass of 32.4 kDa. These results suggest that the enzyme may be involved in RNA primer removal during minicircle replication.
...
PMID:A structure-specific DNA endonuclease is enriched in kinetoplasts purified from Crithidia fasciculata. 975 43
We have examined the stability of long tracts of CAG repeats in yeast mutants defective in enzymes suspected to be involved in lagging strand replication. Alleles of DNA ligase (cdc9-1 and cdc9-2) destabilize CAG tracts in the stable tract orientation, i.e., when CAG serves as the lagging strand template. In this orientation nearly two-thirds of the events recorded in the cdc9-1 mutant were tract expansions. While neither DNA ligase allele significantly increases the frequency of tract-length changes in the unstable orientation, the cdc9-1 mutant produced a significant number of expansions in tracts of this orientation. A mutation in primase (pri2-1) destabilizes tracts in both the stable and the unstable orientations. Mutations in a DNA helicase/
deoxyribonuclease
(dna2-1) or in two
RNase H
activities (rnh1Delta and rnh35Delta) do not have a significant effect on CAG repeat tract stability. We interpret our results in terms of the steps of replication that are likely to lead to expansion and to contraction of CAG repeat tracts.
...
PMID:The impact of lagging strand replication mutations on the stability of CAG repeat tracts in yeast. 1092 64
RT-PCR is a powerful technique used in the amplification and detection of rare mRNAs. However, one of the most serious drawbacks of this method is the amplification of false-positive products due to DNA contamination in the RNA samples. This pitfall is particularly hard to overcome when RNA from prokaryotic origin is used. We present here a modification of the EXACT RT-PCR method that was successfully employed in the amplification of the low abundant full-length polycistronic pst operon mRNA of Escherichia coli. No
DNase
treatment of the RNA template is required, but unlike the original EXACT RT-PCR, a hybrid primer that is not composed of oligo(dT) was used. A nonhomologous sequence was incorporated at the reverse transcription step into the 5' end of the first-strand cDNA by means of the hybrid primer. For the PCR, a gene-specific primer and a second primer identical to the nonhomologous portion of the hybrid primer were used. To avoid amplification of genomic DNA, the hybrid-primer molecules that were not incorporated into the first-strand cDNA were removed by
RNase H
treatment followed by ultrafiltration.
...
PMID:RT-PCR of long prokaryotic operon transcripts without DNase treatment. 1452 63
Xenopus oocytes have been utilized in a number of laboratories as an experimental system to study a variety of biological processes. Here, we describe its application to functional studies of spliceosomal small nuclear RNAs (snRNAs) in pre-messenger RNA (pre-mRNA) splicing, a process that occurs extremely efficiently in Xenopus oocytes. A DNA oligonucleotide complementary to an snRNA of interest is injected into the oocyte cytoplasm. The oligonucleotide subsequently diffuses into the nucleus and hybridizes to the target snRNA, thereby triggering snRNA degradation via endogenous
RNase H
activity. By the time the endogenous snRNA is depleted, the DNA oligonucleotide itself is degraded by endogenous
deoxyribonuclease
(
DNase
) activity. In principle, this procedure enables one to quantitatively deplete any snRNA of choice. Subsequently, a rescuing snRNA that is constructed in vitro may be injected into the snRNA-depleted oocytes to restore the splicing function. After reconstitution, a radiolabeled splicing substrate is injected into the nuclei of the oocytes. These oocyte nuclei are then manually isolated and used to prepare both nuclear RNA for splicing assays and nuclear extract for spliceosome assembly assays. The ability of an injected rescuing snRNA to reconstitute splicing can therefore be tested. Because all types of rescuing snRNAs (e.g., mutant snRNAs, snRNAs with or without modified nucleotides) can be constructed readily, the results obtained from this procedure provide valuable information on the function of a particular snRNA of interest in pre-mRNA splicing.
...
PMID:Pre-mRNA splicing in the nuclei of Xenopus oocytes. 1673 22
Mature spermatozoa contain a whole repertoire of the various classes of cellular RNAs, both coding and non-coding. It was hypothesized that after fertilization they might impact development, a claim supported by experimental evidence in various systems. Despite the current increasing interest in the transgenerational maintenance of epigenetic traits and their possible determination by RNAs, little remains known about conservation in sperm and across generations and the specificities and mechanisms involved in transgenerational maintenance. We identified two distinct fractions of RNAs in mature mouse sperm, one readily extracted in the aqueous phase of the classical TRIzol procedure and a distinct fraction hybridized with homologous DNA in DNA-RNA complexes recovered from the interface, purified after
DNase
hydrolysis and analyzed by RNA-seq methodology. This DNA-associated RNA (D RNA) was found to represent as much as half of the cell contents in differentiated sperm, in which a major part of the cytoplasmic material has been discarded. Stable complexes were purified free of proteins and identified as hybrids (R-loops) on the basis of their sensitivity to
RNase H
hydrolysis. Further analysis by RNA-seq identified transcripts from all the coding and non-coding regions of the genome, thus revealing an extensive wave of transcription, prior to or concomitant with the terminal compaction of the chromatin.
...
PMID:Genome-Wide Distribution of Nascent Transcripts in Sperm DNA, Products of a Late Wave of General Transcription. 3162 38
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