Editing specificity of ADAR isoforms.

Abstract

Adenosine to inosine deaminases acting on RNA (ADARs) enzymes are found in all metazoa. Their sequence and protein organization is conserved but also shows distinct differences. Moreover, the number of ADAR genes differs between organisms, ranging from one in flies to three in mammals. The distinct isoforms of ADARs and their specific roles determine the complexity of A-to-I RNA editing, its regulation and the versatility of these enzymes. Understanding the different isoform-specific functions and targets will provide a deeper understanding of the diverse biological processes influenced by ADARs, either through ADAR editing of dsRNAs or the interaction with RNAs and proteins. The detailed identification and assigning of isoform-specific targets is a crucial step towards our understanding of functional differences amongst ADAR isoforms and will help us to understand their individual implications for health and disease. This chapter delves into unique characteristics and functional implications of ADAR isoforms. We describe the ectopic overexpression in editing free cells and the use of RNA immunoprecipitation coupled with sequencing to determine isoform-specific interactions with RNAs and their editing sites. Additionally, we discuss new challenges in editing detection by different ADARs in the context of other modifications and provide ideas for potentially better methods to determine the "true editome".