Abstract
The cost of DNA sequencing is decreasing year by year, and the era of personalized medicine and the $1000 genome seems to be just around the corner. In order to link genetic variation to gene function, however, we need to learn more about the function of the non-coding genomic elements. The advance of high-throughput sequencing enabled rapid progress in mapping the functional elements in our genome. In the present article, I discuss how intronic mutations acting at Alu elements enable formation of new exons. I review the mutations that cause disease when promoting a major increase in the inclusion of Alu exon into mature transcripts. Moreover, I present the mechanism that represses such a major inclusion of Alu exons and instead enables a gradual evolution of Alu elements into new exons.
Highlights
The non-coding sequence (i.e. the sequence that does not code for proteins) represents 98% of our genome
The non-coding sequence represents 98% of our genome
Introns are a rich resource of regulatory elements, which can bind to diverse RBPs (RNA-binding proteins)
Summary
The non-coding sequence (i.e. the sequence that does not code for proteins) represents 98% of our genome. Quantitative analysis of genome-wide binding profiles revealed that two RBPs compete for binding to the antisense Alu elements, and thereby control the emergence of new Alu exons. Analysis of the genome-wide U2AF65binding profile demonstrated that U2AF65 gains access to the uridine tracts within antisense Alu elements upon removal of hnRNP C from the cells.
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