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Evol Dev. 2011 Jan-Feb;13(1):15-27. doi: 10.1111/j.1525-142X.2010.00452.x.

microRNA complements in deuterostomes: origin and evolution of microRNAs.

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  • 1Institut de Génomique Fonctionnelle de Lyon (UCBL, CNRS UMR5242, ENS, INRA 1288), Ecole Normale Supérieure de Lyon, 46 allée d'Italie, 69364 Lyon CEDEX 07, France.

Abstract

Although numerous studies have emphasized the role of microRNAs (miRNAs) in the control of many different cellular processes, they might also exert a profound effect on the macroevolution of animal body plans. It has been hypothesized that, because miRNAs increase genic precision and are continuously being added to metazoan genomes through geologic time, miRNAs might be instrumental for canalization of development and morphological evolution. Nonetheless, an outstanding question remains: how are new miRNAs constantly evolving? To address this question, we assessed the miRNA complements of four deuterostome species, chosen because of their sequenced genomes and well-resolved phylogeny. Our comparative analysis shows that each of these four species is characterized by a unique repertoire of miRNAs, with few instances of miRNA loss. Moreover, we find that almost half of the miRNAs identified in this study are located in intronic regions of protein coding genes, suggesting that new miRNAs might arise from intronic regions in a process we term intronic exaptation. We also show that miRNAs often occur within cotranscribed clusters, and describe the biological function of one of these conserved clusters, the miR-1/miR-133 cluster. Taken together, our work shows that miRNAs can easily emerge within already transcribed regions of DNA, whether it be introns or preexisting clusters of miRNAs and/or miRNAs and protein coding genes, and because of their regulatory roles, these novel players change the structure of gene regulatory networks, with potential macroevolutionary results.

© 2011 Wiley Periodicals, Inc.

PMID:
21210939
[PubMed - indexed for MEDLINE]
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