A to I editing in disease is not fake news

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This publication doesn't include Institute of Computer Science. It includes Central European Institute of Technology. Official publication website can be found on muni.cz.
Authors

BAJAD P. JANTSCH MF KEEGAN Liam O'CONNELL Mary Anne

Year of publication 2017
Type Article in Periodical
Magazine / Source RNA BIOLOGY
MU Faculty or unit

Central European Institute of Technology

Citation
Web http://europepmc.org/backend/ptpmcrender.fcgi?accid=PMC5699539&blobtype=pdf
Doi http://dx.doi.org/10.1080/15476286.2017.1306173
Keywords Adenosine deaminases acting on RNA; Aicardi Guitieres Syndrome; RNA-editing; self versus non-self; target editing
Description Adenosine deaminases acting on RNA (ADARs) are zinc-containing enzymes that deaminate adenosine bases to inosines within dsRNA regions in transcripts. In short, structured dsRNA hairpins individual adenosine bases may be targeted specifically and edited with up to one hundred percent efficiency, leading to the production of alternative protein variants. However, the majority of editing events occur within longer stretches of dsRNA formed by pairing of repetitive sequences. Here, many different adenosine bases are potential targets but editing efficiency is usually much lower. Recent work shows that ADAR-mediated RNA editing is also required to prevent aberrant activation of antiviral innate immune sensors that detect viral dsRNA in the cytoplasm. Missense mutations in the ADAR1 RNA editing enzyme cause a fatal auto-inflammatory disease, Aicardi-Goutieres syndrome (AGS) in affected children. In addition RNA editing by ADARs has been observed to increase in many cancers and also can contribute to vascular disease. Thus the role of RNA editing in the progression of various diseases can no longer be ignored. The ability of ADARs to alter the sequence of RNAs has also been used to artificially target model RNAs in vitro and in cells for RNA editing. Potentially this approach may be used to repair genetic defects and to alter genetic information at the RNA level. In this review we focus on the role of ADARs in disease development and progression and on their potential use to artificially modify RNAs in a targeted manner.
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