Department of Biology, Botany, University of Osnabrück, Barbarastraße 11, 49076 Osnabrück, Germany; Functional Traits Group, Naturalis Biodiversity Center, Darwinweg 2, 2333 CR Leiden, the Netherlands.
Centre for Organismal Studies (COS), Heidelberg University, Im Neuenheimer Feld 345, 69120 Heidelberg, Germany.
Curr Biol. 2023 Oct 9;33(19):4052-4068.e6. doi: 10.1016/j.cub.2023.08.026. Epub 2023 Sep 1.
The mustard family (Brassicaceae) is a scientifically and economically important family, containing the model plant Arabidopsis thaliana and numerous crop species that feed billions worldwide. Despite its relevance, most phylogenetic trees of the family are incompletely sampled and often contain poorly supported branches. Here, we present the most complete Brassicaceae genus-level family phylogenies to date (Brassicaceae Tree of Life or BrassiToL) based on nuclear (1,081 genes, 319 of the 349 genera; 57 of the 58 tribes) and plastome (60 genes, 265 genera; all tribes) data. We found cytonuclear discordance between the two, which is likely a result of rampant hybridization among closely and more distantly related lineages. To evaluate the impact of such hybridization on the nuclear phylogeny reconstruction, we performed five different gene sampling routines, which increasingly removed putatively paralog genes. Our cleaned subset of 297 genes revealed high support for the tribes, whereas support for the main lineages (supertribes) was moderate. Calibration based on the 20 most clock-like nuclear genes suggests a late Eocene to late Oligocene origin of the family. Finally, our results strongly support a recently published new family classification, dividing the family into two subfamilies (one with five supertribes), together representing 58 tribes. This includes five recently described or re-established tribes, including Arabidopsideae, a monogeneric tribe accommodating Arabidopsis without any close relatives. With a worldwide community of thousands of researchers working on Brassicaceae and its diverse members, our new genus-level family phylogeny will be an indispensable tool for studies on biodiversity and plant biology.
辣木科(Brassicaceae)是一个在科学和经济上都非常重要的科,包含模式植物拟南芥(Arabidopsis thaliana)和许多为全球数十亿人提供食物的作物物种。尽管其相关性很强,但该科的大多数系统发育树采样不完全,并且经常包含支持度较差的分支。在这里,我们根据核(1081 个基因,349 个属中的 319 个;58 个部落中的 57 个)和质体(60 个基因,265 个属;所有部落)数据,提供了迄今为止最完整的辣木科属级科系统发育树(辣木科生命树或 BrassiToL)。我们发现了两者之间的核质不协调,这可能是由于密切相关和更远缘的谱系之间猖獗的杂交所致。为了评估这种杂交对核系统发育重建的影响,我们进行了五次不同的基因采样程序,这些程序逐渐去除了假定的旁系同源基因。我们清洗后的 297 个基因子集显示出对部落的高度支持,而对主要谱系(超部落)的支持则适中。基于 20 个最类似时钟的核基因进行校准表明,该科起源于始新世晚期至渐新世晚期。最后,我们的结果强烈支持最近发表的新科分类法,将该科分为两个亚科(一个亚科有五个超部落),共代表 58 个部落。其中包括最近描述或重新建立的五个部落,包括 Arabidopsideae,这是一个单属部落,容纳了没有任何近缘关系的拟南芥。有一个由数千名研究辣木科及其多样成员的研究人员组成的全球社区,我们的新属级科系统发育树将成为研究生物多样性和植物生物学的不可或缺的工具。
