XB-ART-46474Science 2012 Dec 21;3386114:1587-93. doi: 10.1126/science.1230612.
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The evolutionary landscape of alternative splicing in vertebrate species.
How species with similar repertoires of protein-coding genes differ so markedly at the phenotypic level is poorly understood. By comparing organ transcriptomes from vertebrate species spanning ~350 million years of evolution, we observed significant differences in alternative splicing complexity between vertebrate lineages, with the highest complexity in primates. Within 6 million years, the splicing profiles of physiologically equivalent organs diverged such that they are more strongly related to the identity of a species than they are to organ type. Most vertebrate species-specific splicing patterns are cis-directed. However, a subset of pronounced splicing changes are predicted to remodel protein interactions involving trans-acting regulators. These events likely further contributed to the diversification of splicing and other transcriptomic changes that underlie phenotypic differences among vertebrate species.
PubMed ID: 23258890
Article link: Science
GEO Series: GSE41338: Xenbase, NCBI
Papasaikas, Evolution. Splicing in 4D. 2012, Pubmed