Makenzie R Whitener, Hayley Mangelson, Andrea L Sweigart
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引用次数: 0
Abstract
Polyploidy occurs across the tree of life and is especially common in plants. Because newly formed cytotypes are often incompatible with their progenitors, polyploidy is also said to trigger "instantaneous" speciation. If a polyploid can self-fertilize or reproduce asexually, it is even possible for one individual to produce an entirely new lineage, but how often this scenario occurs is unclear. Here, we investigate the evolutionary history of the wild allotetraploid Mimulus sookensis, which was formed through hybridization between self-compatible, diploid species in the Mimulus guttatus complex. We generate a chromosome-scale reference assembly for M. sookensis and define its distinct subgenomes. Despite previous reports suggesting multiple origins of this highly selfing polyploid, we discover patterns of population genomic variation that provide unambiguous support for a single origin. One M. sookensis subgenome is clearly derived from the selfer Mimulus nasutus, which organellar variation suggests is the maternal progenitor. The ancestor of the other subgenome is less certain, but it shares variation with both Mimulus decorus and M. guttatus, two outcrossing diploids with geographic ranges that overlap broadly with M. sookensis. This study establishes M. sookensis as an example of instantaneous speciation, likely facilitated by the polyploid's predisposition to self-fertilize.
多倍体出现在生命之树上,在植物中尤其常见。由于新形成的细胞型往往与其祖先不相容,因此多倍体也被认为会引发 "瞬时 "物种分化。如果多倍体可以自交或无性繁殖,一个个体甚至有可能产生一个全新的品系,但这种情况发生的频率尚不清楚。在这里,我们研究了野生异源四倍体Mimulus sookensis的进化史,它是由Mimulus guttatus复合体中自交相容的二倍体物种杂交形成的。我们为 M. sookensis 生成了染色体尺度的参考组装,并定义了其不同的亚基因组。尽管之前有报道称这种高度自交的多倍体有多个起源,但我们发现群体基因组变异模式明确支持单一起源。其中一个 M. sookensis 亚基因组明显来自自交种 M. nasutus,细胞器变异表明它是母本。另一个亚基因组的祖先不太确定,但它与 M. decorus 和 M. guttatus 都有变异,这两个外交二倍体的地理分布范围与 M. sookensis 大致重叠。这项研究将 M. sookensis 确立为瞬时物种变异的一个实例,多倍体的自交倾向可能促进了瞬时物种变异。
期刊介绍:
Evolution, published for the Society for the Study of Evolution, is the premier publication devoted to the study of organic evolution and the integration of the various fields of science concerned with evolution. The journal presents significant and original results that extend our understanding of evolutionary phenomena and processes.