Abstract
Knowing how introns originated should greatly enhance our understanding of the information we carry in our DNA. Gilbert’s suggestion that introns initially arose to facilitate recombination still stands, though not for the reason he gave. Reanney’s alternative, that evolution, from the early “RNA world” to today’s DNA-based world, would require the ability to detect and correct errors by recombination, now seems more likely. Consistent with this, introns are richer than exons in the potential to extrude the stem-loop structures needed for the homology search that can lead to heteroduplex formation and the recognition of base mismatches. In nucleic acid sequences that were unable concomitantly to encode sufficient stem-loop potential, protein-encoding potential was constrained to arise as segments (exons) interrupted by segments rich in stem-loop potential (introns). Thus, sequences with properties that we now deem intronic are likely to have preceded the emergence of exons