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)

The poly(A) tail present at the 3' end of most eukaryotic mRNAs can play a critical role in message translation and stability. Therefore, identifying alterations in poly(A) tail length can yield important insights into an mRNA's function and subsequent physiological impact. Here, we present three methods for assaying polyadenylation of a specific mRNA in the context of total cellular RNA. The first method described, oligo(dT)/RNase H-Northern analysis, is the classic labor-intensive assay for polyadenylation and is included for historical reference and as a potential experimental control for the poly(A) test (PAT) assays described subsequently. The PAT methods-rapid amplification of cDNA ends-PAT (RACE-PAT), and ligase-mediated PAT (LM-PAT)-are polymerase chain reaction-driven assays that allow speed, sensitivity, and length quantitation. The PAT assays can be conducted in a single day and can readily detect the poly(A) status of an mRNA present in subnanogram quantities of total cellular RNA.
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PMID:Assaying the polyadenylation state of mRNAs. 1007 81

This chapter describes several methods for measuring the length of the mRNA poly(A) tail and a novel method for measuring mRNA decay. Three methods for measuring the length of a poly(A) tail are presented: the poly(A) length assay, the ligation-mediated poly(A) test (LM-PAT), and the RNase H assay. The first two methods are PCR-based assays involving cDNA synthesis from an oligo(dT) primer. The third method involves removing the poly(A) tail from the mRNA of interest. A major obstacle to studying the enzymatic step of mammalian mRNA decay has been the inability to capture mRNA decay intermediates with structural impediments such as the poly(G) tract used in yeast. To overcome this, we combined a standard kinetic analysis of mRNA decay with a tetracycline repressor-controlled reporter with an Invader RNA assay. The Invader RNA assay is a simple, elegant assay for the quantification of mRNA. It is based on signal amplification, not target amplification, so it is less prone to artifacts than other methods for nucleic acid quantification. It is also very sensitive, able to detect attomolar levels of target mRNA. Finally, it requires only a short sequence for target recognition and quantitation. Therefore, it can be applied to determining the decay polarity of a mRNA by measuring the decay rates of different portions of that mRNA.
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PMID:Assays for determining poly(A) tail length and the polarity of mRNA decay in mammalian cells. 1911 Nov 91

Retrotransposons carrying tyrosine recombinases (YR) are widespread in eukaryotes. The first described tyrosine recombinase mobile element, DIRS1, is a retroelement from the slime mold Dictyostelium discoideum. The YR elements are bordered by terminal repeats related to their replication via free circular dsDNA intermediates. Site-specific recombination is believed to integrate the circle without creating duplications of the target sites. Recently a large number of YR retrotransposons have been described, including elements from fungi (mucorales and basidiomycetes), plants (green algae) and a wide range of animals including nematodes, insects, sea urchins, fish, amphibia and reptiles. YR retrotransposons can be divided into three major groups: the DIRS elements, PAT-like and the Ngaro elements. The three groups form distinct clades on phylogenetic trees based on alignments of reverse transcriptase/ribonuclease H (RT/RH) and YR sequences, and also having some structural distinctions. A group of eukaryote DNA transposons, cryptons, also carry tyrosine recombinases. These DNA transposons do not encode a reverse transcriptase. They have been detected in several pathogenic fungi and oomycetes. Sequence comparisons suggest that the crypton YRs are related to those of the YR retrotransposons. We suggest that the YR retrotransposons arose from the combination of a crypton-like YR DNA transposon and the RT/RH encoding sequence of a retrotransposon. This acquisition must have occurred at a very early point in the evolution of eukaryotes.
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PMID:Tyrosine Recombinase Retrotransposons and Transposons. 2610 93