藤本植物(Hibisceae subtribe Trionum)系统发生组学与进化

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Sven Landrein, Shi-Jie Song, Jie Zhang, Yong-Jie Guo, Jian-Yong Shen, Qiu-Yu Jiang, Shook Ling Low
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引用次数: 0

摘要

Hibisceae subtribe Trionum 是木槿属中最大的支系,包含多种生长形式的属:草本(Abelmoschus)、灌木(Malvaviscus)、乔木(Wercklea)以及特殊的藤本植物。Thepparatia 种类非常罕见,而且分布在当地,它们的独特之处在于将藤本植物的习性和三叶植物的习性结合在一起。遗传变异性低、缺乏同形形态特征、跨洋扩散事件和异源多倍体等问题延误了对 Hibisceae 分类的研究。在此,我们基于对叶绿体母系遗传和核核糖体核苷酸双亲遗传序列的分析,提出了一个全面的 Thepparatia 系统发生组假说,并将这些结果与其物种、核果和繁殖系统进行了比较。叶绿体基因组在Trionum亚族中高度保守,只有在Abelmoschus中额外重复了四个基因。在T. fragrans和T. scandens之间最近的二倍体种间杂交被认为是在距今约64万年前的更新世期间在Thepparatia sipsongpannaensis发生的。我们的观察还表明,Thepparatia有一个雌雄同株的繁殖系统,该系统与独特的习性和高度本地化的分布模式相结合,形成了异花授粉障碍和生态特化。这表明杂交事件在 Trionum 亚族中非常罕见,但却具有重要的进化意义。最后,我们的研究支持了重要的命名变化:将 Hibiscus austroyunnanensis 与 Thepparatia fragrans 同名,并公布了一个新物种 Thepparatia sipsongpannaensis。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thepparatia vines (Hibisceae subtribe Trionum) phylogenomics and evolution
Hibisceae subtribe Trionum is the largest clade within Hibiscus s.l. and contains genera with a wide range of growth forms: herbaceous (Abelmoschus), shrubs (Malvaviscus), trees (Wercklea), and exceptionally lianas. The rare and localized Thepparatia species are unique in that they combine a lianescent habit and trioecy. Several problems have delayed the study of Hibisceae classification including low genetic variability, lack of synapomorphic morphological characters, transoceanic dispersal events, and allopolyploidy. Here, we present a comprehensive phylogenomic hypothesis of Thepparatia based on analyses of the maternally inherited chloroplast and biparentally inherited nuclear ribosomal cistron sequences, and compare these results with its speciation, karyology, and breeding system. Chloroplast genomes in subtribe Trionum were highly conserved except in Abelmoschus where four additional genes were duplicated. Recent diploid interspecific hybridization is suggested in Thepparatia sipsongpannaensis between T. fragrans and T. scandens during the Pleistocene, around 640 000 years ago. Our observations also indicate Thepparatia have a trioecious breeding system that combined with a unique habit, and a highly localized distribution pattern, have created cross-pollination barriers and ecological specialization. This suggests hybridization events are rare but evolutionary significant in subtribe Trionum. Finally, our study supports important nomenclature changes: the synonymization of Hibiscus austroyunnanensis with Thepparatia fragrans and the publication of a new species, Thepparatia sipsongpannaensis.
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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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