中低等动物的线粒体基因组研究。

Parasitology open Pub Date : 2018-01-01 Epub Date: 2018-08-02 DOI:10.1017/pao.2018.12
Helen E Robertson, Philipp H Schiffer, Maximilian J Telford
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引用次数: 2

摘要

双尾虫和直孔虫是两组微小的、简单的蠕虫状寄生虫,它们在历史上被统一在一个名为Mesozoa的群体中。双叶虫和正孔虫都只有两层细胞,似乎没有任何明确的组织。它们最初被认为是介于原生动物和后生动物之间的进化中间体,但最近的分析表明,它们是由一个复杂的祖先经历了二次简化的原生生动物后生动物。在这里,我们描述了第一个几乎完整的线粒体基因组序列,来自正连科植物Intoshia linei,并分别描述了来自Dicyema sp.和Dicyema japonicum的9个和8个线粒体蛋白质编码基因。全长14247个碱基对的I. linei序列具有典型的后生动物基因含量,但具有异常丰富的at,并具有独特的基因序列。我们从双尾虫身上分析的数据非常有限地支持了双尾虫线粒体基因在离散的小圆圈上发现的建议,而不是典型的后生动物的大圆形线粒体基因组。来自双叶属物种的cox1基因具有一系列保守的框架内缺失,这是该谱系所独有的。利用来自整个双叶菊属的cox1基因,我们报道了这个群体的第一个内部系统发育。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The mitochondrial genomes of the mesozoans <i>Intoshia linei, Dicyema</i> sp. and <i>Dicyema japonicum</i>.

The mitochondrial genomes of the mesozoans <i>Intoshia linei, Dicyema</i> sp. and <i>Dicyema japonicum</i>.

The mitochondrial genomes of the mesozoans <i>Intoshia linei, Dicyema</i> sp. and <i>Dicyema japonicum</i>.

The mitochondrial genomes of the mesozoans Intoshia linei, Dicyema sp. and Dicyema japonicum.

The Dicyemida and Orthonectida are two groups of tiny, simple, vermiform parasites that have historically been united in a group named the Mesozoa. Both Dicyemida and Orthonectida have just two cell layers and appear to lack any defined tissues. They were initially thought to be evolutionary intermediates between protozoans and metazoans but more recent analyses indicate that they are protostomian metazoans that have undergone secondary simplification from a complex ancestor. Here we describe the first almost complete mitochondrial genome sequence from an orthonectid, Intoshia linei, and describe nine and eight mitochondrial protein-coding genes from Dicyema sp. and Dicyema japonicum, respectively. The 14,247 base pair long I. linei sequence has typical metazoan gene content, but is exceptionally AT-rich, and has a unique gene order. The data we have analysed from the Dicyemida provide very limited support for the suggestion that dicyemid mitochondrial genes are found on discrete mini-circles, as opposed to the large circular mitochondrial genomes that are typical of the Metazoa. The cox1 gene from dicyemid species has a series of conserved, in-frame deletions that is unique to this lineage. Using cox1 genes from across the genus Dicyema, we report the first internal phylogeny of this group.

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