The transfer of genomic information from DNA to mRNA to protein usually occurs with high fidelity, but can also be subverted by a programmed RNA sequence alteration termed 'RNA editing',… Click to show full abstract
The transfer of genomic information from DNA to mRNA to protein usually occurs with high fidelity, but can also be subverted by a programmed RNA sequence alteration termed 'RNA editing', involving deamination of adenosine to inosine (decoded as guanosine), or of cytosine to uracil. These sequence changes can lead to cellular heterogeneity by generating variable sets of transcripts within otherwise identical cells. Recent studies have demonstrated that editing is most prevalent in cells and tissues with high propensity for plasticity. Within those, RNA editing reproducibly targets transcripts of related function, altering the outcomes of entire pathways at once. In ongoing work, changes in patterns of editing have been correlated with neuronal disease pathogenesis, suggesting that RNA editing harbors diagnostic potential.
               
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