The Possible Earliest Allopolyploidization in Tracheophytes Revealed by Phylotranscriptomics and Morphology of Selaginellaceae.

IF 11 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular biology and evolution Pub Date : 2024-08-02 DOI:10.1093/molbev/msae153
Jong-Soo Kang, Ji-Gao Yu, Qiao-Ping Xiang, Xian-Chun Zhang
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Abstract

Selaginellaceae, originated in the Carboniferous and survived the Permian-Triassic mass extinction, is the largest family of lycophyte, which is sister to other tracheophytes. It stands out from tracheophytes by exhibiting extraordinary habitat diversity and lacking polyploidization. The organelle genome-based phylogenies confirmed the monophyly of Selaginella, with six or seven subgenera grouped into two superclades, but the phylogenetic positions of the enigmatic Selaginella sanguinolenta clade remained problematic. Here, we conducted a phylogenomic study on Selaginellaceae utilizing large-scale nuclear gene data from RNA-seq to elucidate the phylogeny and explore the causes of the phylogenetic incongruence of the S. sanguinolenta clade. Our phylogenetic analyses resolved three different positions of the S. sanguinolenta clade, which were supported by the sorted three nuclear gene sets, respectively. The results from the gene flow test, species network inference, and plastome-based phylogeny congruently suggested a probable hybrid origin of the S. sanguinolenta clade involving each common ancestor of the two superclades in Selaginellaceae. The hybrid hypothesis is corroborated by the evidence from rhizophore morphology and spore micromorphology. The chromosome observation and Ks distributions further suggested hybridization accompanied by polyploidization. Divergence time estimation based on independent datasets from nuclear gene sets and plastid genome data congruently inferred that allopolyploidization occurred in the Early Triassic. To our best knowledge, the allopolyploidization in the Mesozoic reported here represents the earliest record of tracheophytes. Our study revealed a unique triad of phylogenetic positions for a hybrid-originated group with comprehensive evidence and proposed a hypothesis for retaining both parental alleles through gene conversion.

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系统转录组学和 Selaginellaceae 形态学揭示了气管植物中可能存在的最早异源多倍体化。
茄形目(Selaginellaceae)起源于石炭纪,在二叠纪-三叠纪大灭绝中幸存下来,是最大的苔藓植物科,与其他气管植物是姊妹科。它在气管植物中脱颖而出,表现出非凡的生境多样性,并且没有多倍体化。基于细胞器基因组的系统发育证实了Selaginella的单系性,其六个或七个亚属被分为两个超支系,但神秘的Selaginella sanguinolenta支系的系统发育位置仍然存在问题。在此,我们利用 RNA-seq 的大规模核基因数据对 Selaginellaceae 进行了系统发生组学研究,以阐明其系统发生并探索 S. sanguinolenta 支系系统发生不一致的原因。我们的系统进化分析确定了 S. sanguinolenta 支系的三个不同位置,这三个位置分别得到了排序的三个核基因组的支持。基因流测试、物种网络推断和基于质体的系统发育结果一致表明,S. sanguinolenta 支系可能是杂交起源,涉及 Selaginellaceae 两个超支系的每个共同祖先。根状茎形态学和孢子微形态学的证据证实了杂交假说。染色体观察和 Ks 分布进一步表明杂交伴随着多倍体化。基于核基因组和质粒基因组数据的独立数据集进行的分化时间估计一致推断,异源多倍体化发生在早三叠世。据我们所知,这里所报道的中生代异源多倍体化是气管植物的最早记录。我们的研究以全面的证据揭示了杂交起源类群独特的三系发位置,并提出了通过基因转换保留双亲等位基因的假说。
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来源期刊
Molecular biology and evolution
Molecular biology and evolution 生物-进化生物学
CiteScore
19.70
自引率
3.70%
发文量
257
审稿时长
1 months
期刊介绍: Molecular Biology and Evolution Journal Overview: Publishes research at the interface of molecular (including genomics) and evolutionary biology Considers manuscripts containing patterns, processes, and predictions at all levels of organization: population, taxonomic, functional, and phenotypic Interested in fundamental discoveries, new and improved methods, resources, technologies, and theories advancing evolutionary research Publishes balanced reviews of recent developments in genome evolution and forward-looking perspectives suggesting future directions in molecular evolution applications.
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