A general model for the evolution of nuclear pre-mRNA introns.

We present an overview of the evolution of eukaryotic split gene structure and pre-mRNA splicing mechanisms. We have drawn together several seemingly conflicting ideas and we show that they can all be incorporated in a single unified theory of intron evolution. The resulting model is consistent with the notion that introns, as a class, are very ancient, having originated in the "RNA world"; it also supports the concept that introns may have played a crucial role in the construction of many eukaryotic genes and it accommodates the idea that introns are related to mobile insertion elements. Our conclusion is that introns could have a profound effect on the course of eukaryotic gene evolution, but that the origin and maintenance of intron sequences depends, largely, on natural selection acting on the intron sequences themselves.