RNA editing

The term RNA editing describes those molecular processes in which the information content is altered in a RNA molecule through a chemical change in the base makeup. To date such changes have been observed in tRNA, rRNA and mRNA molecules of eukaryotes, but not prokaryotes. The demonstration of RNA editing in prokaryotes may only be a matter of time, considering the range of species in which the various RNA editing processes have been found. RNA editing occurs in the cell nucleus, cytosol, as well as in mitochondria and plastids, which are thought to have evolved from prokaryotic-like endosymbionts.

Most of the RNA editing processes, however, appear to be evolutionarily recent acquisitions that arose independently. The diversity of RNA editing mechanisms includes nucleoside modifications such as C to U and A to I deaminations, as well as non-templated nucleotide additions and insertions. RNA editing in mRNAs effectively alters the amino acid sequence of the encoded protein so that it differs from that predicted by the genomic DNA sequence.

Editing by insertion / deletion
RNA editing through the addition of Uracil has been found in mitochondria from kinetoplastid protozoa. This uses a gRNA (guide RNA) that is complementary of the region to be changed, with some differences. It binds to the region to be edited, and the differences are copied (by complementation) from the gRNA to the mRNA. This is typically seen in mitochondria and the functional effect is often a frameshift.

C-U editing
The editing involves Cytidine deaminase that deaminates a Cytosine base into a Uracil base. An example of C to U editing is with the apolipoprotein B gene in humans. Apo B100 is expressed in the liver and apo B48 is expressed in the intestines. The B100 form has a CAA sequence that is edited to UAA, a stop codon, in the intestines. It is unedited in the liver.

A-I editing
A to I editing has been found in large genes with extensive areas of double stranded RNA. During translation, I pairs as if it is G.