Molecular determinants and guided evolution of species-specific RNA editing

Most RNA editing systems are mechanistically diverse, informationally restorative, and scattershot in eukaryotic lineages. In contrast, genetic recoding by adenosine-to-inosine RNA editing seems common in animals; usually, altering highly conserved or invariant coding positions in proteins. Here I r...

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Veröffentlicht in:	Nature 2005-03, Vol.434 (7031), p.409-413
1. Verfasser:	Reenan, R.A
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine - genetics Amino Acid Sequence amino acid sequences animal proteins Animals Apis mellifera Base Sequence Biological and medical sciences Blattodea Calcium-Binding Proteins - genetics Coleoptera Culicidae Drosophila Eukaryotes Evolution Evolution, Molecular Exons - genetics Fundamental and applied biological sciences. Psychology genes Genetics Genomics Hexapoda Humanities and Social Sciences Inosine - genetics Insects introns Introns - genetics letter Membrane Glycoproteins - genetics messenger RNA Models, Molecular Molecular and cellular biology Molecular Sequence Data multidisciplinary Mutation - genetics Nerve Tissue Proteins - genetics Papilionoidea Phylogeny Ribonucleic acid RNA RNA editing RNA Editing - genetics RNA Precursors - genetics RNA Precursors - metabolism Science Science (multidisciplinary) sequence alignment Species Specificity Synaptotagmin I Synaptotagmins sytI gene Time Factors
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description	Most RNA editing systems are mechanistically diverse, informationally restorative, and scattershot in eukaryotic lineages. In contrast, genetic recoding by adenosine-to-inosine RNA editing seems common in animals; usually, altering highly conserved or invariant coding positions in proteins. Here I report striking variation between species in the recoding of synaptotagmin I (sytI). Fruitflies, mosquitoes and butterflies possess shared and species-specific sytI editing sites, all within a single exon. Honeybees, beetles and roaches do not edit sytI. The editing machinery is usually directed to modify particular adenosines by information stored in intron-mediated RNA structures. Combining comparative genomics of 34 species with mutational analysis reveals that complex, multi-domain, pre-mRNA structures solely determine species-appropriate RNA editing. One of these is a previously unreported long-range pseudoknot. I show that small changes to intronic sequences, far removed from an editing site, can transfer the species specificity of editing between RNA substrates. Taken together, these data support a phylogeny of sytI gene editing spanning more than 250 million years of hexapod evolution. The results also provide models for the genesis of RNA editing sites through the stepwise addition of structural domains, or by short walks through sequence space from ancestral structures.
doi_str_mv	10.1038/nature03364
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In contrast, genetic recoding by adenosine-to-inosine RNA editing seems common in animals; usually, altering highly conserved or invariant coding positions in proteins. Here I report striking variation between species in the recoding of synaptotagmin I (sytI). Fruitflies, mosquitoes and butterflies possess shared and species-specific sytI editing sites, all within a single exon. Honeybees, beetles and roaches do not edit sytI. The editing machinery is usually directed to modify particular adenosines by information stored in intron-mediated RNA structures. Combining comparative genomics of 34 species with mutational analysis reveals that complex, multi-domain, pre-mRNA structures solely determine species-appropriate RNA editing. One of these is a previously unreported long-range pseudoknot. I show that small changes to intronic sequences, far removed from an editing site, can transfer the species specificity of editing between RNA substrates. 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subjects	Adenosine - genetics Amino Acid Sequence amino acid sequences animal proteins Animals Apis mellifera Base Sequence Biological and medical sciences Blattodea Calcium-Binding Proteins - genetics Coleoptera Culicidae Drosophila Eukaryotes Evolution Evolution, Molecular Exons - genetics Fundamental and applied biological sciences. Psychology genes Genetics Genomics Hexapoda Humanities and Social Sciences Inosine - genetics Insects introns Introns - genetics letter Membrane Glycoproteins - genetics messenger RNA Models, Molecular Molecular and cellular biology Molecular Sequence Data multidisciplinary Mutation - genetics Nerve Tissue Proteins - genetics Papilionoidea Phylogeny Ribonucleic acid RNA RNA editing RNA Editing - genetics RNA Precursors - genetics RNA Precursors - metabolism Science Science (multidisciplinary) sequence alignment Species Specificity Synaptotagmin I Synaptotagmins sytI gene Time Factors
title	Molecular determinants and guided evolution of species-specific RNA editing
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