Osigus Hans-Jürgen, Eitel Michael, Schierwater Bernd
ITZ, Ecology & Evolution, Stiftung Tierärztliche Hochschule Hannover, Hannover, Germany.
Department of Ecology and Evolutionary Biology, Yale University, New Haven, Connecticut, United States of America.
PLoS One. 2017 May 18;12(5):e0177959. doi: 10.1371/journal.pone.0177959. eCollection 2017.
The phylum Placozoa holds a key position for our understanding of the evolution of mitochondrial genomes in Metazoa. Placozoans possess large mitochondrial genomes which harbor several remarkable characteristics such as a fragmented cox1 gene and trans-splicing cox1 introns. A previous study also suggested the existence of cox1 mRNA editing in Trichoplax adhaerens, yet the only formally described species in the phylum Placozoa. We have analyzed RNA-seq data of the undescribed sister species, Placozoa sp. H2 ("Panama" clone), with special focus on the mitochondrial mRNA. While we did not find support for a previously postulated cox1 mRNA editing mechanism, we surprisingly found two independent transcripts representing intermediate cox1 mRNA splicing stages. Both transcripts consist of partial cox1 exon as well as overlapping intron fragments. The data suggest that the cox1 gene harbors a single base pair (cytosine) micro exon. Furthermore, conserved group I intron structures flank this unique micro exon also in other placozoans. We discuss the evolutionary origin of this micro exon in the context of a self-splicing intron gain in the cox1 gene of the last common ancestor of extant placozoans.
扁盘动物门对于我们理解后生动物线粒体基因组的进化具有关键地位。扁盘动物拥有庞大的线粒体基因组,具有一些显著特征,如破碎的细胞色素c氧化酶亚基1(cox1)基因和反式剪接的cox1内含子。先前的一项研究还表明,在扁盘动物门唯一被正式描述的物种——黏胶丝盘虫中存在cox1 mRNA编辑现象。我们分析了未描述的姊妹物种扁盘动物H2(“巴拿马”克隆体)的RNA测序数据,特别关注线粒体mRNA。虽然我们没有找到支持先前假设的cox1 mRNA编辑机制的证据,但令人惊讶的是,我们发现了两个独立的转录本,它们代表了cox1 mRNA剪接的中间阶段。这两个转录本都由部分cox1外显子以及重叠的内含子片段组成。数据表明,cox1基因含有一个单碱基对(胞嘧啶)微外显子。此外,在其他扁盘动物中,保守的I类内含子结构也位于这个独特的微外显子两侧。我们在现存扁盘动物的最后共同祖先的cox1基因中自剪接内含子获得的背景下,讨论了这个微外显子的进化起源。