AI Article Synopsis
- Exaptation through exonization is a key evolutionary process that creates new functions for gene products by converting non-coding sequences into protein-coding domains.
- A-to-I RNA modification plays a significant role in this process by facilitating the use of introns, leading to the creation of alternatively spliced exons, such as exon 8 in the human prelamin A recognition factor gene.
- Evolutionary analysis shows that the emergence of this exon traces back to primate ancestors, highlighting the dynamic changes in RNA and DNA that contribute to genetic diversity in gorillas, chimpanzees, and humans.
Article Abstract
The exaptation of transposed elements into protein-coding domains by a process called exonization is one important evolutionary pathway for generating novel variant functions of gene products. Adenosine-to-inosine (A-to-I) modification is a recently discovered, RNA-editing-mediated mechanism that contributes to the exonization of previously unprocessed mRNA introns. In the human nuclear prelamin A recognition factor gene transcript, the alternatively spliced exon 8 results from an A-to-I editing-generated 3' splice site located within an intronic Alu short interspersed element. Sequence comparisons of representatives of all primate infraorders revealed the critical evolutionary steps leading to this editing-mediated exonization. The source of exon 8 was seeded within the primary transcript about 58-40 million years ago by the head-to-head insertions of two primate-specific Alu short interspersed elements in the common ancestor of anthropoids. The latent protein-coding potential was realized 34-52 million years later in a common ancestor of gorilla, chimpanzee, and human as a result of numerous changes at the RNA and DNA level. Comparisons of 426 processed mRNA clones from various primate species with their genomic sequences identified seven different RNA-editing-mediated alternative splice variants. In total, 30 A-to-I editing sites were identified. The gorilla, chimpanzee, and human nuclear prelamin A recognition factor genes exemplify the versatile interplay of pre- and posttranscriptional modifications leading to novel genetic potential.
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| http://dx.doi.org/10.1016/j.jmb.2008.07.014 | DOI Listing |
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