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绿藻门绿藻瑞士鞘藻叶绿体基因组的独特结构

Distinctive architecture of the chloroplast genome in the chlorophycean green alga Stigeoclonium helveticum.

作者信息

Bélanger Anne-Sophie, Brouard Jean-Simon, Charlebois Patrick, Otis Christian, Lemieux Claude, Turmel Monique

机构信息

Département de biochimie et de microbiologie, Pavillon Charles-Eugène Marchand, Université Laval, Quebec City, QC, Canada G1K 7P4.

出版信息

Mol Genet Genomics. 2006 Nov;276(5):464-77. doi: 10.1007/s00438-006-0156-2. Epub 2006 Aug 31.

DOI:10.1007/s00438-006-0156-2
PMID:16944205
Abstract

The chloroplast genome has experienced many architectural changes during the evolution of chlorophyte green algae, with the class Chlorophyceae displaying the lowest degree of ancestral traits. We have previously shown that the completely sequenced chloroplast DNAs (cpDNAs) of Chamydomonas reinhardtii (Chlamydomonadales) and Scenedesmus obliquus (Sphaeropleales) are highly scrambled in gene order relative to one another. Here, we report the complete cpDNA sequence of Stigeoclonium helveticum (Chaetophorales), a member of a third chlorophycean lineage. This genome, which encodes 97 genes and contains 21 introns (including four putatively trans-spliced group II introns inserted at novel sites), is remarkably rich in derived features and extremely rearranged relative to its chlorophycean counterparts. At 223,902 bp, Stigeoclonium cpDNA is the largest chloroplast genome sequenced thus far, and in contrast to those of Chlamydomonas and Scenedesmus, features no large inverted repeat. Interestingly, the pattern of gene distribution between the DNA strands and the bias in base composition along each strand suggest that the Stigeoclonium genome replicates bidirectionally from a single origin. Unlike most known trans-spliced group II introns, those of Stigeoclonium exhibit breaks in domains I and II. By placing our comparative genome analyses in a phylogenetic framework, we inferred an evolutionary scenario of the mutational events that led to changes in genome architecture in the Chlorophyceae.

摘要

在绿藻纲绿藻的进化过程中,叶绿体基因组经历了许多结构变化,其中绿藻纲所呈现的祖先特征程度最低。我们之前已经表明,莱茵衣藻(衣藻目)和斜生栅藻(绿球藻目)的全序列叶绿体DNA(cpDNA)在基因顺序上相对于彼此高度混乱。在这里,我们报告了瑞士刚毛藻(胶毛藻目)的完整cpDNA序列,它是绿藻纲第三个谱系的成员。这个基因组编码97个基因,包含21个内含子(包括四个插入新位点的假定反式剪接II类内含子),相对于其绿藻纲同类基因组,其衍生特征非常丰富且极度重排。瑞士刚毛藻的cpDNA为223,902 bp,是迄今为止测序的最大的叶绿体基因组,与衣藻和栅藻的叶绿体基因组不同,它没有大的反向重复序列。有趣的是,基因在DNA链之间的分布模式以及每条链上碱基组成的偏向性表明,瑞士刚毛藻基因组从单一原点双向复制。与大多数已知的反式剪接II类内含子不同,瑞士刚毛藻的内含子在结构域I和II中存在断裂。通过将我们的比较基因组分析置于系统发育框架中,我们推断了导致绿藻纲基因组结构变化的突变事件的进化情景。

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本文引用的文献

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The chloroplast genomes of conifers lack one of the rRNA-encoding inverted repeats.针叶树的叶绿体基因组缺少一个编码核糖体RNA的反向重复序列。
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The complete chloroplast genome sequence of the chlorophycean green alga Scenedesmus obliquus reveals a compact gene organization and a biased distribution of genes on the two DNA strands.
绿藻门绿藻纲的鞘藻属(鞘藻目)和毛枝藻属(胶毛藻目)的完整线粒体基因组,为深入了解导致衣藻目和小球藻目进化过程中出现简化衍生模式的事件顺序提供了线索。
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Large Diversity of Nonstandard Genes and Dynamic Evolution of Chloroplast Genomes in Siphonous Green Algae (Bryopsidales, Chlorophyta).大型非标准基因多样性和绿藻(管藻目,绿藻门)叶绿体基因组的动态进化。
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