Substitution RNA editing is known to involve either C-to-U or A-to-I conversions. What common chemical event accounts for each?

RNA editing is a molecular process through which the nucleotide sequence of an RNA molecule is altered after transcription. This modification can lead to changes in the protein that is produced, affecting its function. Substitution editing, specifically, involves the conversion of one nucleotide to another, such as C-to-U or A-to-I, which can significantly impact gene expression and protein diversity.

C-to-U conversion is a specific type of RNA editing where cytidine (C) is deaminated to uridine (U). This reaction is catalyzed by enzymes known as cytidine deaminases. The resulting change can affect the coding potential of the RNA, potentially altering the amino acid sequence of the resulting protein, which can have functional implications in various biological processes.

A-to-I conversion refers to the editing process where adenosine (A) is converted to inosine (I) through the action of adenosine deaminases. Inosine is interpreted as guanosine (G) during translation, which can lead to changes in the protein sequence. This type of editing is particularly important in regulating gene expression and can influence the stability and function of RNA molecules.