Resolving Deep Relationships and Revealing Ancient Whole-Genome Duplications in Pteridaceae using Transcriptomic Data

Pub Date : 2023-09-29 DOI:10.1640/0002-8444-113.3.191

Michael J. Song, Carl J. Rothfels, Eric Schuettpelz, Joel Nitta, Layne Huiet, Fay-Wei Li, Keir M. Wefferling

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Abstract

Relationships among the major subclades in the fern family Pteridaceae have proven difficult to resolve. Here, we examine the backbone of this large and heterogeneous lineage using both phylotranscriptomic methods and a more focused, curated approach. We find that Pteridoideae and Parkerioideae are together sister to the rest of Pteridaceae and that Cryptogrammoideae is sister to Vittarioideae plus Cheilanthoideae. We find independent support from our phylotranscriptomic analyses, published cytological data, and genomic distributions of substitutions per site for several whole-genome duplication (WGD) events within Pteridaceae, mainly in Vittarioideae and Cheilanthoideae. However, the various inference methods gave differing approximations for the placement of WGD events within each clade. This study demonstrates that phylotranscriptomic analyses, which employ large datasets at the cost of requiring simpler models and potentially a greater risk of systematic error, can be used in concert with more curated approaches to resolve deep phylogenetic relationships. It also provides an example of the difficulty of confidently inferring ancient WGD event placement, even when using multiple methods.

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利用转录组学数据解决翼科植物深层关系并揭示古代全基因组复制

蕨类科蕨类植物中主要亚支系之间的关系已被证明是难以解决的。在这里，我们使用系统转录组学方法和更有针对性的方法来检查这种大型异质谱系的主干。我们发现，蕨类科和蕨科是其他蕨类科的姐妹科，而隐科是Vittarioideae和Cheilanthoideae的姐妹科。我们从我们的系统转录组学分析、已发表的细胞学数据和在翼科(主要是Vittarioideae和Cheilanthoideae)中几个全基因组重复(WGD)事件的每个位点替换的基因组分布中发现了独立的支持。然而，各种推断方法给出了不同的WGD事件在每个分支中的位置近似值。这项研究表明，系统转录组学分析可以与更有条理的方法一起使用，以解决深层系统发育关系为代价，使用大型数据集，需要更简单的模型，并且可能存在更大的系统错误风险。它还提供了一个例子，说明即使使用多种方法，也很难自信地推断古代WGD事件的位置。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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