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Alu elements are repetitive short interspersed elements prevalent in the primate genome. These repeats account for over 10% of the genome with more than a million highly similar copies. A direct… Click to show full abstract
Alu elements are repetitive short interspersed elements prevalent in the primate genome. These repeats account for over 10% of the genome with more than a million highly similar copies. A direct outcome of this is an enrichment in long structures of stable dsRNA, which are the target of adenosine deaminases acting on RNAs (ADARs), the enzymes catalyzing A-to-I RNA editing. Indeed, A-to-I editing by ADARs is extremely abundant in primates: over a hundred million editing sites exist in their genomes. However, despite the radical increase in ADAR targets brought on by the introduction of Alu elements, the few evolutionary conserved editing sites manage to retain their editing levels. Here, we review and discuss the cost of having an unusual amount of dsRNA and editing in the transcriptome, as well as the opportunities it presents, which possibly contributed to accelerating primate evolution.
Journal Title: Methods in molecular biology
Year Published: 2021
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