Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

In situ transcription (IST) was shown to be useful for the detection of human enteroviral RNA in cultured cells. A primer to detect a wide variety of enteroviral genomes and a coxsackievirus type B3 genome-specific primer were demonstrated to be efficient in IST assays. Transcription times greater than 10 to 30 min did not significantly improve the acquisition of a specific signal, whereas the signal-to-noise ratio decreased with time. Inclusion of actinomycin D to suppress DNA-dependent DNA polymerase activity in reverse transcriptase decreased the signal that was obtained without improving the signal-to-noise ratio. Use of RNase H-free murine leukemia virus reverse transcriptase in the IST reaction increased the signal versus that obtained by use of the avian myeloblastosis virus enzyme, which contains endogenous RNase H activity. Exogenous RNase H added to the transcription reaction ablated the signal. Background transcription because of poorly hybridized (mismatched) primers was reduced after primer hybridization and prior to the transcription reaction by rinsing fixed cells with 3 M tetramethylammonium chloride at temperatures which dissociate mismatched primer-template duplexes. The rapid detection time and the simplicity of application suggest that IST can be performed with a high specificity for the detection of enteroviral genomic sequences in cultured cells and may be more useful than in situ hybridization for the detection of enteroviral genomes.
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PMID:Detection of enteroviruses in cell cultures by using in situ transcription. 137 Aug 49

This study describes a strategy to develop LNA-modified small interfering RNA (siRNAs) against the highly structured 5' UTR of coxsackievirus B3 (CVB-3), which is an attractive target site due to its high degree of conservation. Accessible sites were identified based on structural models and RNase H assays with DNA oligonucleotides. Subsequently, LNA gapmers, siRNAs, siLNAs and small internally segmented interfering RNA (sisiLNAs) were designed against sites, which were found to be accessible in the in vitro assays, and tested in reporter assays and experiments with the infectious virus. The best siLNA improved viability of infected cells by 92% and exerted good antiviral activity in plaque reduction assays.
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PMID:Design of LNA-modified siRNAs against the highly structured 5' UTR of coxsackievirus B3. 1869 77

RNA target accessibility is one of the most important factors limiting the efficiency of RNA interference-mediated RNA degradation. However, targeting RNA viruses in their poorly accessible, highly structured regions can be advantageous because these regions are often conserved in sequence and thus less prone to viral escape. We developed an experimental strategy to attack highly structured RNA by means of pairs of specifically designed small interfering RNAs and helper antisense oligonucleotides using the 5' untranslated region (5'UTR) of coxsackievirus B3 as a model target. In the first step, sites accessible to hybridization of complementary oligonucleotides were identified using two mapping methods with random libraries of short DNA oligomers. Subsequently, the accessibility of the mapped regions for hybridization of longer DNA 16-mers was confirmed by an RNase H assay. Using criteria for the design of efficient small interfering RNAs (siRNA) and a secondary structure model of the viral 5'UTR, several DNA 19-mers were designed against partly double-stranded RNA regions. Target sites for DNA 19-mers were located opposite the sites which had been confirmed as accessible for hybridization. Three pairs of DNA 19-mers and the helper 2'-O-methyl-16-mers were able to effectively induce RNase H cleavage in vitro. For cellular assays, the DNA 19-mers were replaced by siRNAs, and the corresponding three pairs of siRNA-helper oligomer tools were found to target 5'UTR efficiently in a reporter construct in HeLa cells. Addition of the helper oligomer improved silencing capacity of the respective siRNA. We assume that the described procedure will generally be useful for designing of nucleic acid-based tools to silence highly structured RNA targets.
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PMID:Targeting Highly Structured RNA by Cooperative Action of siRNAs and Helper Antisense Oligomers in Living Cells. 2630 32