Institute of Botany of the Czech Academy of Sciences, Zámek 1, CZ, 252 43, Průhonice, Czech Republic.
Department of Botany, Faculty of Science, Charles University, Benátská 2, CZ, 128 01, Praha 2, Czech Republic.
Am J Bot. 2020 Jan;107(1):66-90. doi: 10.1002/ajb2.1413. Epub 2020 Jan 5.
The origin of allopolyploids is believed to shape their evolutionary potential, ecology, and geographical ranges. Morphologically distinct apomictic types sharing the same parental species belong to the most challenging groups of polyploids. We evaluated the origins and variation of two triploid taxa (Hieracium pallidiflorum, H. picroides) presumably derived from the same diploid parental pair (H. intybaceum, H. prenanthoides).
We used a suite of approaches ranging from morphological, phylogenetic (three unlinked molecular markers), and cytogenetic analyses (in situ hybridization) to genome size screening and genome skimming.
Genotyping proved the expected parentage of all analyzed accessions of H. pallidiflorum and H. picroides and revealed that nearly all of them originated independently. Genome sizes and genome dosage largely corresponded to morphology, whereas the maternal origin of the allopolyploids had no discernable effect. Polyploid accessions of both parental species usually contained genetic material from other species. Given the phylogenetic distance of the parents, their chromosomes appeared only weakly differentiated in genomic in situ hybridization (GISH), as well as in overall comparisons of the repetitive fraction of their genomes. Furthermore, the repeatome of a phylogenetically more closely related species (H. umbellatum) differed significantly more.
We proved (1) multiple origins of hybridogeneous apomicts from the same diploid parental taxa, and (2) allopolyploid origins of polyploid accessions of the parental species. We also showed that the evolutionary dynamics of very fast evolving markers such as satellite DNA or transposable elements does not necessarily follow patterns of speciation.
人们认为异源多倍体的起源塑造了它们的进化潜力、生态和地理范围。具有相同亲本物种但形态上明显不同的无融合生殖类型属于最具挑战性的多倍体群体之一。我们评估了两个假定来自同一二倍体亲本对(H. intybaceum、H. prenanthoides)的三倍体类群(Hieracium pallidiflorum、H. picroides)的起源和变异。
我们使用了一系列方法,从形态学、系统发育(三个不相关的分子标记)和细胞遗传学(原位杂交)分析,到基因组大小筛选和基因组扫描。
基因分型证明了所有分析的 H. pallidiflorum 和 H. picroides 个体的预期亲缘关系,并揭示了它们几乎都是独立起源的。基因组大小和基因组剂量与形态学基本对应,而多倍体的母本起源没有明显影响。两种亲本物种的多倍体个体通常含有来自其他物种的遗传物质。鉴于亲本的系统发育距离,它们的染色体在基因组原位杂交(GISH)以及对其基因组重复部分的整体比较中仅表现出微弱的分化。此外,亲缘关系更密切的物种(H. umbellatum)的重复序列差异更大。
我们证明了(1)来自同一二倍体亲本类群的杂种无融合生殖个体的多种起源,以及(2)亲本物种多倍体个体的异源多倍体起源。我们还表明,进化速度非常快的标记(如卫星 DNA 或转座元件)的进化动态不一定遵循物种形成的模式。
