| Literature DB >> 28762759 |
Aikaterini Gatsiou1,2,3,4, Nikolaos Vlachogiannis5, Federica Francesca Lunella1,2,3,4, Marco Sachse1,3,4, Konstantinos Stellos1,3,4.
Abstract
SIGNIFICANCE: Adenosine deamination in transcriptome results in the formation of inosine, a process that is called A-to-I RNA editing. Adenosine deamination is one of the more than 140 described RNA modifications. A-to-I RNA editing is catalyzed by adenosine deaminase acting on RNA (ADAR) enzymes and is essential for life. Recent Advances: Accumulating evidence supports a critical role of RNA editing in all aspects of RNA metabolism, including mRNA stability, splicing, nuclear export, and localization, as well as in recoding of proteins. These advances have significantly enhanced the understanding of mechanisms involved in development and in homeostasis. Furthermore, recent studies have indicated that RNA editing may be critically involved in cancer, aging, neurological, autoimmune, or cardiovascular diseases. CRITICAL ISSUES: This review summarizes recent and significant achievements in the field of A-to-I RNA editing and discusses the importance and translational value of this RNA modification for gene expression, cellular, and organ function, as well as for disease development. FUTURE DIRECTIONS: Elucidation of the exact RNA editing-dependent mechanisms in a single-nucleotide level may pave the path toward the development of novel therapeutic strategies focusing on modulation of ADAR function in the disease context. Antioxid. Redox Signal. 29, 846-863.Entities:
Keywords: ADAR; RNA editing; RNA metabolism; RNA modification; disease; epitranscriptome
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Year: 2017 PMID: 28762759 DOI: 10.1089/ars.2017.7295
Source DB: PubMed Journal: Antioxid Redox Signal ISSN: 1523-0864 Impact factor: 8.401