以被忽视的品系为重点的赭藻(葡萄孢藻)系统发生组分析

IF 3.6 1区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Anna Cho, Gordon Lax, Patrick J. Keeling
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引用次数: 0

摘要

裸子植物是一种光合作用植物,在真核生物超群之一--石蒜科植物的系统发育树中居于首位。由于其作为主要初级生产者对生态环境的影响,与其他石龙子类相比,对水华藻的研究相对较多,但对其进化关系的了解仍然很少。这部分是由于在大规模多基因分析中缺失了一些世系,以及明显的快速辐射导致树上的赭藻亚群之间出现了许多短节间。这些短节间也出现在系统发育信号有限的石莲花类深枝系中,使得许多关系在整体上存在争议。最近,我们通过其他深枝葡萄科植物解决了这一问题,现在我们要研究的是,是否可以通过在最新的赭藻系统发生组数据集中填补缺失的世系,同时探索各种基因筛选标准来确定最具系统发生信息的基因,从而解决赭藻内部有争议的关系问题。我们从各种培养物和环境样本的单细胞分离中生成了十个新的转录组,将这些转录组添加到现有的系统发生组数据集中,并研究了选择具有高系统发生信号或低系统发生噪声的基因的效果。对于一些以前有争议的关系,我们发现各种分析和基因筛选标准都能以强有力的统计支持将以前不稳定的分组统一起来。例如,我们恢复了红叶石龙子科(Eustigmatophyceae)与石龙子科(Raphidophyceae)-白叶石龙子科(Phaeophyceae)-黄叶石龙子科(Xanthophyceae)的稳健分组关系,而橄榄叶石龙子科(Olisthodiscophyceae)则与红叶石龙子科(Pinguiophyceae)形成姊妹系。选择具有高系统发育信号或数据质量的基因可以恢复更稳定的拓扑结构。总之,我们发现,在不同种系中增加代表性不足的类群对于解决系统发生关系仍然至关重要,而且离散基因的特性对葡萄孢植物的种系有着不同的影响。为了进一步了解石龙子的分子进化,我们可以对这一点进行探索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Phylogenomic analyses of ochrophytes (stramenopiles) with an emphasis on neglected lineages

Phylogenomic analyses of ochrophytes (stramenopiles) with an emphasis on neglected lineages

Ochrophyta is a photosynthetic lineage that crowns the phylogenetic tree of stramenopiles, one of the major eukaryotic supergroups. Due to their ecological impact as a major primary producer, ochrophytes are relatively well-studied compared to the rest of the stramenopiles, yet their evolutionary relationships remain poorly understood. This is in part due to a number of missing lineages in large-scale multigene analyses, and an apparently rapid radiation leading to many short internodes between ochrophyte subgroups in the tree. These short internodes are also found across deep-branching lineages of stramenopiles with limited phylogenetic signal, leaving many relationships controversial overall. We have addressed this issue with other deep-branching stramenopiles recently, and now examine whether contentious relationships within the ochrophytes may be resolved with the help of filling in missing lineages in an updated phylogenomic dataset of ochrophytes, along with exploring various gene filtering criteria to identify the most phylogenetically informative genes. We generated ten new transcriptomes from various culture collections and a single-cell isolation from an environmental sample, added these to an existing phylogenomic dataset, and examined the effects of selecting genes with high phylogenetic signal or low phylogenetic noise. For some previously contentious relationships, we find a variety of analyses and gene filtering criteria consistently unite previously unstable groupings with strong statistical support. For example, we recovered a robust grouping of Eustigmatophyceae with Raphidophyceae-Phaeophyceae-Xanthophyceae while Olisthodiscophyceae formed a sister-lineage to Pinguiophyceae. Selecting genes with high phylogenetic signal or data quality recovered more stable topologies. Overall, we find that adding under-represented groups across different lineages is still crucial in resolving phylogenetic relationships, and discrete gene properties affect lineages of stramenopiles differently. This is something which may be explored to further our understanding of the molecular evolution of stramenopiles.

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来源期刊
Molecular Phylogenetics and Evolution
Molecular Phylogenetics and Evolution 生物-进化生物学
CiteScore
7.50
自引率
7.30%
发文量
249
审稿时长
7.5 months
期刊介绍: Molecular Phylogenetics and Evolution is dedicated to bringing Darwin''s dream within grasp - to "have fairly true genealogical trees of each great kingdom of Nature." The journal provides a forum for molecular studies that advance our understanding of phylogeny and evolution, further the development of phylogenetically more accurate taxonomic classifications, and ultimately bring a unified classification for all the ramifying lines of life. Phylogeographic studies will be considered for publication if they offer EXCEPTIONAL theoretical or empirical advances.
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