脆弱囊毛蕨复合体中通过“五倍体桥”和倍体减少的多倍体基因流(囊毛蕨科:水龙骨科)。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-01 Epub Date: 2023-08-02 DOI:10.1007/s00497-023-00476-5
Jan Ptáček, Libor Ekrt, Ondřej Hornych, Tomáš Urfus
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引用次数: 0

摘要

关键信息:我们的研究结果表明,脆弱囊翅目存在多倍体间基因流,导致来自五倍体亲本的性三倍体和二倍体配子体。类似的进化动力学可能在其他蕨类复合体中发挥作用,需要进一步研究。多倍体化和杂交是蕨类植物进化的关键过程。在这里,我们概述了在多倍体脆弱囊翅目复合体中运作的多倍体间基因流动途径。测试了该途径存在的必要条件。共收集了365个脆弱C.fragilis个体,涵盖了所有三个主要倍性水平(四倍体、五倍体和六倍体)的代表,对其进行培养,通过流式细胞术估计其倍性水平,并收集其孢子。通过流式细胞术分析孢子以及配子体和由此建立的孢子体。还估算了孢子流产率。在四倍体中,我们观察到未还原(四倍体)孢子的形成(约2%)。收集的五倍体个体表明倍性水平之间正在进行杂交。五倍体形成高达52%的活孢子,其中约79%减少,即二倍体和三倍体。减少的孢子形成了有活力的配子体,在三倍体的情况下,形成了子代六倍体孢子体,显示出有性繁殖的证据。一些四倍体孢子体无融合生殖(基于其再发生到子孢子体的均匀倍性)。来自五倍体亲本的三倍体和二倍体配子体能够相互交配,或者与来自有性四倍体孢子体的“正常”减少的配子体(该群体中孢子体的显性倍性水平)交配,产生四倍体、五倍体和六倍体孢子体,从而使基因从五倍体流到四倍体和六倍体群体。类似的进化动力学可能在其他蕨类复合体中发挥作用,需要进一步研究。
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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Interploidy gene flow via a 'pentaploid bridge' and ploidy reduction in Cystopteris fragilis fern complex (Cystopteridaceae: Polypodiales).

Key message: Our results indicate the existence of interploidy gene flow in Cystopteris fragilis, resulting in sexual triploid and diploid gametophytes from pentaploid parents. Similar evolutionary dynamics might operate in other fern complexes and need further investigation. Polyploidization and hybridization are a key evolutionary processes in ferns. Here, we outline an interploidy gene flow pathway operating in the polyploid Cystopteris fragilis complex. The conditions necessary for the existence of this pathway were tested. A total of 365 C. fragilis individuals were collected covering representatives of all three predominant ploidy levels (tetraploid, pentaploid, and hexaploid), cultivated, had their ploidy level estimated by flow cytometry, and their spores collected. The spores, as well as gametophytes and sporophytes established from them, were analysed by flow cytometry. Spore abortion rate was also estimated. In tetraploids, we observed the formation of unreduced (tetraploid) spores (ca 2%). Collected pentaploid individuals indicate ongoing hybridization between ploidy levels. Pentaploids formed up to 52% viable spores, ca 79% of them reduced, i.e. diploid and triploid. Reduced spores formed viable gametophytes, and, in the case of triploids, filial hexaploid sporophytes, showing evidence of sexual reproduction. Some tetraploid sporophytes reproduce apomictically (based on uniform ploidy of their metagenesis up to filial sporophytes). Triploid and diploid gametophytes from pentaploid parents are able to mate among themselves, or with "normal" reduced gametophytes from the sexual tetraploid sporophytes (the dominant ploidy level in the sporophytes in this populations), to produce tetraploid, pentaploid, and hexaploid sporophytes, allowing for geneflow from the pentaploids to both the tetraploid and hexaploid populations. Similar evolutionary dynamics might operate in other fern complexes and need further investigation.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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